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Home My WebLink AboutSP-7 Temecula Regional Center Specific Plan Volume III1 1 1 1 TEMECULA REGIONAL CENTER SPECIFIC PLAN NO.263 AND EIR NO. 340 VI. LIST OF TECHNICAL APPENDICES APPENDIX TITLE A Notice of Preparation and Project Correspondence B Geotechnical Investigation C Engineering Report D Cultural Resources Report (Archaeology and Paleontology) E Biological Assessment F Traffic Analysis G Noise Assessment H Fiscal Impact Report to comments received at the scoping meeting, all pertinent written comments received prior to the meeting will be incorporated into the Draft Environmental Impact Report. Written comments should be addressed to the City of Temecula, 43172 Business Park Drive, Temecula, CA 92390, to the attention of Samuel Reed. I 1 1 1 I 1 1 11 DATE OF MEETING PLACE: TIME: July 26, 1990 Temecula City Hall 43180 Business Park Drive 3:00 P.M. _',c0. ROA/• NOTICE OF SCOPING MEETING THE CITY OF TEMECULA ' 43180 BUSINESS PARK DRIVE TEMECULA, CA 92390 A PUBLIC SCOPING MEETING has been scheduled to provide an opportunity for all interested agencies and concerned citizens to provide current input on Specific Plan ' No. 263 and Change of Zone No. 5589, described as follows: APPLICANT: BEDFORD PROPERTIES LOCATION: Southeast Corner of Winchester and Ynez Roads PROPOSAL: Construct a 230.8 acre commercial development including the following: 1. 65 acre regional mall, 2. 75 acres of office space, 3. 16 acres of specialty retail, 4. 57.5 acres of general retail, and ' 5. 17.3 acres hotel. ' The information gathered at the scoping meeting will be incorporated.into the Draft Environmental Impact Report for the project. The purpose of the scoping meeting is to update the environmental documentation now under preparation. In addition to comments received at the scoping meeting, all pertinent written comments received prior to the meeting will be incorporated into the Draft Environmental Impact Report. Written comments should be addressed to the City of Temecula, 43172 Business Park Drive, Temecula, CA 92390, to the attention of Samuel Reed. I 1 1 1 I 1 1 11 DATE OF MEETING PLACE: TIME: July 26, 1990 Temecula City Hall 43180 Business Park Drive 3:00 P.M. _',c0. ROA/• Cane Information and Background ' Applications for Specific Plan No. 263, Change of Zone No. 5589 and General Plan Amendment No. 231 were submitted to the Riverside County Planning Department on September 6, 1989. The applications proposed a 230.8 acre master planned commercial development. The proposed project consists of 65 acres for a regional mall, 75 acres of office space, 16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres for a hotel. The proposed project would encompass the area located southerly of Santa Gertrudis Creek and Winchester Road, between Ynez Road and ' the proposed alignment of Margarita Road (vicinity map attached). The Riverside County Planning Department determined that an Environmental Impact Report (EIR) would be necessary to analyze the potential impacts of the proposed project. A Notice of Preparation (N .O. P.) was sent to selected agencies and concerned entities ' on October 5, 1989 (see attached N.O.P. and original mailing list). The agencies that responded to the Notice of Preparation were as follows: Department of Food and Agriculture CITY OF TEMECULA Department of Transportation Department of Water Resources California Waste Management Board Mayor P.O. Box 3000 Councilmembers Ron Parks Temecula, Califomia 92390 Patricia H. Birdsall Eastern Municipal Water District (714) 694-1989 Peg Moore Mayor Pro Tem FAX (714) 694-1999 J. Sal Mulioz Karel F. Lindeman United States Postal Service DATE: JULY 6, 1990 ' NOTICE OF SCOPING MEETING FOR SPECIFIC PLAN NO. 263 AND CHANCE OF ZONE NO. 5589 TEMECULA REGIONAL MALL Cane Information and Background ' Applications for Specific Plan No. 263, Change of Zone No. 5589 and General Plan Amendment No. 231 were submitted to the Riverside County Planning Department on September 6, 1989. The applications proposed a 230.8 acre master planned commercial development. The proposed project consists of 65 acres for a regional mall, 75 acres of office space, 16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres for a hotel. The proposed project would encompass the area located southerly of Santa Gertrudis Creek and Winchester Road, between Ynez Road and ' the proposed alignment of Margarita Road (vicinity map attached). The Riverside County Planning Department determined that an Environmental Impact Report (EIR) would be necessary to analyze the potential impacts of the proposed project. A Notice of Preparation (N .O. P.) was sent to selected agencies and concerned entities ' on October 5, 1989 (see attached N.O.P. and original mailing list). The agencies that responded to the Notice of Preparation were as follows: The comments received from these agencies are considered tentative and not necessarily comprehensive. The City of Temecula was incorporated on December 1, 1989, approximately 2 months after the above mentioned applications were filed with the County of Riverside. Agencies and individuals responded to a brief, general description of the project and not to the Specific Plan itself. The City of Temecula will now be the lead agency for the EIR. Processing will be done by City staff and the EIR will go before the City's Planning Commission and City Council for tconsideration. The City of Temecula does not have an adopted General Plan. Each project is L Department of Food and Agriculture Department of Transportation Department of Water Resources California Waste Management Board Riverside City/County Public Library Fire Department Office of Road Commissioner S County Surveyor San Bernardino County Museum Eastern Municipal Water District Southern California Gas Company California Institute of Technology University of California Riverside/ARU Elsinore-Murrieta-Anza Resource Conservation District United States Postal Service The comments received from these agencies are considered tentative and not necessarily comprehensive. The City of Temecula was incorporated on December 1, 1989, approximately 2 months after the above mentioned applications were filed with the County of Riverside. Agencies and individuals responded to a brief, general description of the project and not to the Specific Plan itself. The City of Temecula will now be the lead agency for the EIR. Processing will be done by City staff and the EIR will go before the City's Planning Commission and City Council for tconsideration. The City of Temecula does not have an adopted General Plan. Each project is L Pvaluated on its own merit, but the City is currently utilizing Riverside County's Southwest Area Plan as a policy guide. As a result, the application for General Plan Amendment No. 231 is no longer applicable. However, the City will be reviewing the proposal to determine if the proposed land uses will likely be consistent with the future General Plan for the City or detrimental to the City if the project is ultimately Inconsistent with the Plan. Intent of the Scoping Meeting The purpose of the scoping meeting is to update the Notice of Preparation which was mailed approximately nine months ago. The scoping meeting will provide an opportunity for all interested agencies and concerned citizens to provide current input on the proposal. The major change, which has occurred since the original N.O.P. was sent, is the City's recent incorporation. In addition to comments received at the scoping meeting, all written comments received prior to the meeting will be incorporated into the draft EIR. Written comments should be addressed to the City of Temecula, Planning Department, 43180 Business Park Drive, Temecula, CA 92390, to the attention of Samuel Reed, and will be accepted up to thirty 130) days from the from the date of this notice. All potentially significant effects should be addressed to insure orderly and comprehensive consideration and public disclosure of the project impacts. Date and Place of Scoping Meeting Date: July 26, 1990 Place: Temecula City Hail 03180 Business Park Drive Time: 3:00 p.m. ATTACHMENTS: Agency Notice of Preparation dated October 5, 1989 Applicant's Notice of Preparation date October 5, 1989 Riverside County Case Transmittal Sheet Riverside County "issues to be Included" in SP 263 - 2 - r4 X \\' VICINITY MAP ®. REGIONAL CENTER DATE: 8-25-89 to I.:��:,.:.. Very truly yours, RIVERSIDE COUNTY PLANNING DEPARTMENT Roger S. Streeter, Planning Director Lesley Likins, Project Planner AGENCY NOTICE OF PREPARATION OF AN ENVIRONMENTAL IMPACT REPORT "ft: October 5, 1989 TO: PROJECT QSR N0.ITITLR: Regional Center Specific Plan No. 263,rehensive General Plan ' Ammxknent No. 231, and Change of Zone No. 5589 ' P2031M RPONRORt Turrini fi Brink Planning Consultants 3242 Haliaday, Suite 100 ' Santa Ana, CA 92705 PRO`TRCT LOC'TION: The project site is located southerly of Santa Gertrudis Creek'and Winchester Road between Ynez Road and the proposed aligment of Margarita Road in the Rancho California/Temecula area within Section 26 of Township 7 South, Range 3 West. PRQISCT ORSCRIPTION: Regional Center Specific Plan No. 263 is a 230.8 -acre project pro- ' posing mixed-use commercial development, consisting of 65 acres of regional mall, 75 acres of office, 16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres of hotel. ' Pursuant to the Riverside County Rules to Implement the California Environmental Quality Act, notice is given to responsible and interested agencies, that the Riverside County Planning Department plans to oversee the preparation of an Environmental Impact Report for the project. The purpose of this notice is to solicit guidance from your agency as to the scope and content of the environmental information to be included in the EIR. Information in that regard should be submitted to this office as soon as possible, but not later that 30 days after receiving this notice. Attached is a copy of the issues to be included 1n the draft EIR. If you have any questions, please contact Lesley Likins, Project Planner, at (711) 787-6356. Very truly yours, RIVERSIDE COUNTY PLANNING DEPARTMENT Roger S. 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Col. /a Co. _on" had Comity, lt•ee. •tawlesMissl t+slkr♦waWilsifupCs�. _JMNw�iik iwwn Wu. _taounf atlsw.tMllrawut lassakisw lssse. ✓ _ftUMk ,kKfks:* awdl .Lul wet It.• nlw Aftmtur >Kwl, in Mu din ewof IUpn-ftNKmr ii-ketwkput smua wit, to ktactk _me -Co uatlw Odwk ,ftmo, tssyr g/sf bmw"lww "M}riM ININ) _jWd Ls twos kar _js City ukur _%mesas tYwsr _40. of tk ky4ftf N Mtwcs) _jps,CsllwL fslW,Mila �kdw t<w rt).wl tl�.t OI1lhcMA bttw IW IKktr riles ��`I/rWdU rRiverside City/County Public Library 1 RiVOINDrEc counry 1 PLAnninc DF.?.awnr:nc APPLICANT'S NOTICE OF PREPARATION 1 OF AN ENVIRONMENTAL IMPACT REPORT 1 DATE: October 5, 1989 TO: Bedford Development Company 27405 Ynez Road Rancho California, CA 92390 PROJRCT CARE NO./TITLE: Regional Center Specific Plan No. 263, Comprehensive General Plan Amendment No. 231, and Change of Zone No. 5589 PROJECT SPONSOR: Turrini & Brink Planning Consultants ' 3242 Halladay, Suite 100 Santa Ana, CA 92705 ' PROJECT LOCATSON: The project site is loczxed southerly of Santa Gertrudis Creek and Winchester Road between Ynez Road and the proposed alignment of 1 Margarita Road in the Rancho California/Temecula area within Section 26 of Township 7 South, Range 3 West. ' PROJECT DESCRIPTION: Regional Center Specific Plan No. 263 is a 230.8 -acre project pro- posing mixed-use commercial development, consisting of 65 acres of regional mall, 75 acres of office, 16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres of hotel. Pursuant to the Riverside County Rules to Implement the California 1 Environmental Quality Act of 1970 (CEQA), it has been determined that the above referenced project may have a significant effect on the environment and an Environmental Impact Report (EIR) is required. OPTION TO REVISE PROJECT ' Upon receipt of this notice, the project sponsor may revise the project to avoid or mitigate any adverse impact. If the potential adverse effects are substantially mitigated by the revised project, an EIR shall not be required ' and a Negative Declaration (statement of no significant effect) shall be prepared. 4080 LEMON STREET, 9T" FLOOR 46-209 OASIS STREET, ROOM 304 The staff requirement to prepare an EIR may be appealed to the Planning Commission within ten (10) days of the receipt of this notice. The appeal must be made in writing and contain a brief discussion of how the project will avoid the environmental effects listed on the attachment. The appeal must be accompanied by: (1) adhesive labels containing the names and addresses of all property owners within 300 feet of the project boundaries; and (2) a filing fee of $77.00. It has been determined that the project sponsor is responsible for the preparation of the Draft EIR, and should seek the services of an environmental consulting firm to prepare the draft document. The Draft EIR must meet the form and content requirements of the Planning Department (see attached sheet for the required topics.). A preliminary draft shall be submitted for review and if determined acceptable, the consultant will be notified of the appropriate number of final draft copies to be provided for distribution to state and local agencies, and interested parties. The Draft EIR must be submitted within 120 days of this Notice, unless an extension of not more than thirty (30) days is received and granted by the Department. LULL If the Environmental Impact Report application fee has not been previously paid, a fee of 5,220.00 must be submitted to the Planning Department within thirty days of this notice. PROJECT PRESUMED ARANDONED Unless the fee and the Draft 'EIR is submitted within the time periods specified alcove, the project will be presumed abandoned, and the application will be immediately returned to the sponsor with no further action. If you have any questions, please contact Lesley Likins, Project Planner, at (711) 787-6356. Very truly yours, RIVERSIDE COUNTY PLANNING DEPARTMENT Ro er S. Streeter, Planning Director Le ley Sikns, Project Planner ' ATTACHMENT ' ISSUES TO BE INCLUDED IN DRAFT EIR SPECIFIC PLAN N0. 263 ' The Draft Environmental Impact Report for Specific Plan No. 263, Comprehensive General Plan Amendment No. 231, and Change of Zone No. 5589 shall address all topics required by Sections 15122 through 15126 of the State Guidelines (copy attached). However, the following concerns shall be emphasized in the report: Landform and Topography ' Describe the general characteristics of these elements as they pertain to the project site. Also, indicate any proposed modifications to existing conditions based on anticipated grading or other activities required for ' site improvements or development. Alternative grading concepts which may reduce impacts should be evaluated. ' - Historical Land Use Briefly discuss present and previous land use on the site along with po- tential adverse impacts from previous land uses. Discuss the impacts that ' any utility easements may have on this project and vice -versa. - Geology and Seismicity Seismic potential should be delineated in terms of magnitude, intensity, ground acceleration, duration frequency, and recurrence. Discuss poten- tial for liquefaction. Address the existing conditions as they may con- strain or modify the development of the project. Discuss the impact of ' potential groundshaking on proposed land uses. Hydrology, Flooding, and Drainage ' Address impacts the proposed development will have on the project site with respect to water courses on site. Impacts on ground water resources in terms of overdraft and/or pollution should be addressed, as well as poten- tial impacts to downstream properties. Assess the proposed development with respect to flooding from the 100 -year floodplain and dam inundation (i.e., public health/safety). 1J Open Space and Conservation Discuss open space areas in relation to outdoor recreation, public health and safety, conservation and management of economically productive natural resources, and preservation of ecological and historical resources. Address both beneficial and adverse impacts of the project to the open space inventory. - Climate and Air Quality Address potential impacts on air quality with respect to Regional Statistical Area No. 49 and the South Coast Air Quality Basin. - Soils, Agriculture Assess the impact of converting Prime Farmland to other land uses. Discuss the agricultural potential and viability of the project site on the basis of soil types, terrain, and the availability and cost of water. - Noise Examine project -generated noise in relationship to noise -sensitive land uses in proximity to the project site. Include construction noise in your analysis. Also, Aiscuss potential noise impacts from roadways. Hazardous Materials and Wastes Discuss the potential for generating hazardous materials and wastes from the proposed land uses, assessing impacts and mitigation. - Archaeological/Cultural Resources An archaeological resource study should be conducted for the site. - Biology Flora and fauna should be described and inventoried, with special emphasis on the Stephen's Kangaroo Rat. Discuss potential impacts from the intro- duction of exotic species and potential conflicts with native species. Public Facilities and Services Identify existing infrastructure and potential impacts to existing public services. The discussion should focus on the potential increase in demand for public facilities and services including, but not limited to, the fol- lowing: - Sewer Facilities - Water Supply - Flood Control Facilities - Solid Waste - Parks and Recreation - Fire, Police, Emergency Services - Local Utilities, Easements - Schools - Libraries - Health Services - Airports Include a cost analysis of extending, upgrading, facilities to serve the project. I 1 I and/or constructing new , Circulation, Traffic ' Address available circulation to the site and identify potential impacts. Address alternative circulation, such as bicycle and pedestrian trails, and identify potential roadway improvements. Energy Conservation Estimate the quantities of energy demand for the proposed project and out- , line mitigation and conservation measures designed to minimize the demand. Cl Scenic Environment 1 Discuss the existing setting of the project site and evaluate the on-site visual impacts and off-site viewshed impacts frau the project. ' - 'Nails Discuss the proposed project in relationship to existing and planned rec- reational trails along Santa Gertrudis Creek. - Cost/Revenue Analysis Assess the potential fiscal impacts to Riverside County fran major reven- ues and costs associated with the proposed specific plan project. - Growth Inducement Address the project's growth inducing potential, including both beneficial and adverse impacts. Outline possible mitigation measures. ' - Proiect Alternatives Describe a range of project alternatives, focusing on alternatives capable of eliminating or reducing environmental effects. Alternatives should in- clude the "No Project" alternative and an agricultural use of the project ' site. Cumulative Impacts ' Examine the potential cumulative impacts with respect to current develop- ment activity and proposed development within the local region. ' - Mitigation Monitorirmg and Reporting, Program Include a monitoring and reporting program for proposed and/or required mitigation necessary to reduce or avoid significant environmental effects of the project. .c J.i.+v %-I r<c.ut.nft-)_1 AU6 - 6 1990 ' RRTMIDF. COUNTY AIRPORT LAND USE COMMISSION ' 3499 Tenth Street Riverside, California 92501 (714) 788-9770 (714) 788-1415 (FAX) MEMO 1 TO: Samuel Reed, Planner City of Temecula Planning Department FROM: Eileen Dalton, Development Specialist Economic Development Agency DATE:' August 3, 1990 ' SUBJECT: Notice of Scoping Meeting, SP 263 and CZ 5589 Thank you for the opportunity to review the above mentioned ' project. Upon review, I found the proposal is not located within any Airport Influenced Area under the jurisdiction of the Riverside County ' Airport Land Use Commission (ALUC). Therefore, the proposal.need not go before the ALUC for their review and determination,. ' Should you have any questions, please contact me at (714) 788-9770 or x58916.. I 1 SAN. BERNARDINO COUNTY MUSEUM / % �\ \ ' � �� i�� GENERAL SERVICES AGENCY Irmo 2024 Orange Tree Lane • Redlands. CA 92374 �� \�� DR. ALLAN D. GRIESEMER ' 17141792-1334 • 192,0062 • 826.4826 a 829-4823 /VIII\�� Director July 20, 1990 s� City of 'Temecula, Planning. Department 43180 Business Park Drive Temecula, CA 92390 atto: Samuel Reed re: NOP, SPECIFIC PLAN NO. 263, CZ 5589, TEMECULA REGIONAL MALL The initial scoping for the above-referenced actions is incomplete in that it ' fails to address nonrenewable paleontologic resources. The subject parcel is located on the Pauba Formation, which is known to contain significant nonrenewable paleontologic resources that will be impacted by construction excavation. The developer must retain a qualified vertebrate paleontologist to ' develop a program to mitigate impacts to paleontologic resources which should include, but not necessarily be limited to, the following: ' 1. Monitoring of excavation in areas identified as likely to contain paleontologic resources by a qualified paleontologic monitor. The monitor should be equipped to salvage fossils as they are unearthed to avoid construction delays and to remove samples of sediments which are likely to contain the remains of small fossil mammals. The monitor must be empowered to temporarily halt or divert equipment to allow removal of abundant or large specimens. The .most cost-efficient method of salvage of small fossils is to ' remove sediments containing the fossils to -stockpiles offsite. The fossils can be removed by screen washing elsewhere while excavation continues on site. 2. Preparation of recovered specimens to a point of identification, including ' washing of sediments to recover small vertebrates. This will allow the fossils to be described in a report of findings and reduces the volume of matrix around specimens being stored. 3. Identification and curation of specimens into an established museum repository with retrievable storage. 4. Preparation of a report of findings with an appended itemized inventory of specimens. The report and inventory, when submitted to the appropriate Lead Agency, signifies completion of the program to mitigate impacts to paleontologic resources. Si(nnccerrely, Dr. Allan D. Griesemer Museums Director ' DATE: July 13,.1990 OUR REF: ' SUBJECT: Specific Plan 263 [1 I I TO: City of Temecula P.O. Box 3000 Temecula, CA 92390 E Thank you for the opportunity to review the above -captioned Specific Plan. It is the position of the United States Postal Service that all new projects have centralized mail delivery. In commercial projects, this can be acomplished through the use of mail rooms, indoor central delivery eauipment or outdoor central delivery equipment. It is requested that provisions for one of ''these types of delivery be shown on the final prints for the project. If you have any questions, feel free to contact me. *Stve SSiinccer IFitc j -k Growth Management Coordinator San Bernardino MSC 1900 W Redlands Blvd San Bernardino, CA 92403-9334 t %jure I i yr Ill V GnaiuL. TRANSPORTATION DEPARTMENT FRANKLIN E. SHERKOW Uiren nr of Tra mporudon COUNTY ADM INISTRATIVE CENTER MAILING ADDRESS: July 20, 1990 Ro. Rna 1090 Rivenldc. Califmnla 93502 (714) 275.6880 FAX (714) 275.6731 Mr. Samuel Reed City of Temecula 'Al Planning Department 43180 Business Park Drive fay ry Temecula, CA 92390 RE: Notice of Scoping Meeting for Specific P1an.No. 263 and Change of Zone No. 5589 ' Dear Mr. Reed: The County of Riverside Department of Transportation has reviewed ' the above referenced document. Enclosed is a copy of a letter sent to the County Planning Department on October 30, 1989 in response to the original Notice of Preparation. In addition to the recommendations contained therein, we suggest that impacts of recently proposed developments be included in the traffic analysis. A traffic demand management program for the project should also be part of the analysis. ' Thank you for the opportunity to comment on this updated NOP. Please send us a copy of the draft EIR for review as the information contained therein will assist us in planning for the ' local area remaining under County jurisdiction. If you have any questions, please contact Paul Wright, Planner II, at (714) 275-6773. 'Sincerely, 1 Edwin Studor Transportation Planning Manager ' ES:MD:PW:jw Attachment 1 COUNTY ADMINISTRATIVE CENTER • 4080 LEMON STREET • RIVERSIDE., CALIFORNIA 92501 11 LeRoy D. Smool ROAD Cl1MM®OIQl a MUM SURVEYOR October 30, 1989 ' Roger Streeter, Planning Director Riverside County Planning Department 4080 Lemon Street Riverside, CA 92501 ' ATTN: Lesley Likins Dear Lesley: COI AOMNUMME @OII MA6RS AODRM P.O. 001 1010 ArMISn CAl00RM 1ES{C (114) M 45M RE: CGPA No.231/SP No.263/, COZ #5589/Winchester Rbad/ Regional Center The Riverside County Road Department has received your Notice of Preparation for the above referenced proposed project. we welcome the opportunity to review the proposed DEIR in order to evaluate possible impacts to the County Road Circulation System. Specific Plan #106C, Specific Plan #103, Specific Plan #220 and Specific Plan #164. Consideration should be given to the cumulative impacts ' that continued growth in the area will have on the County circulation system from a "worst case" viewpoint. The EIR should include discussion of impacts to the transportation system such t as traffic growth, traffic safety, drainage, construction, maintenance and operation of any road improvements'. Cost related to transportation improvements should be discussed. Public transportation and accommodations for both pedestrians and ' bicycles should also, be included in the study. 1 COUNTY ADMINUTRAME CENTER " 4080 LEMON STREET • MERME. CALUDRNIA 92501 Winchester Road has been proposed as an Urban Arterial ' Highway (134' right of way). The Regional Center will increase trip generation substantially in the area around Winchester Road. ' Therefore, a detailed traffic County guidelines, will be study, prepared in accordance with required. The cumulative analysis must also include the impact of the following projects: French valley Airport, Specific Plan #184, Specific Plan #173 and Specific Plan #106C, Specific Plan #103, Specific Plan #220 and Specific Plan #164. Consideration should be given to the cumulative impacts ' that continued growth in the area will have on the County circulation system from a "worst case" viewpoint. The EIR should include discussion of impacts to the transportation system such t as traffic growth, traffic safety, drainage, construction, maintenance and operation of any road improvements'. Cost related to transportation improvements should be discussed. Public transportation and accommodations for both pedestrians and ' bicycles should also, be included in the study. 1 COUNTY ADMINUTRAME CENTER " 4080 LEMON STREET • MERME. CALUDRNIA 92501 CGPA #231/SP #263/COZ #5589 October 30, 1989 Page 2 If you have any questions, please contact John Goodlett at (714) 787-1445. veryy respectfully yours, Edwin Studor Transportation Planning Manager ES:JG:jw CGPAsCGPA.231.SP.263 I [1 I I 11 CALIFORNIA INSTITUTE OF TECHNOLOGY OFFICE OF THE DIRECTOR PALOMAR OBSERVATORY 10544 July 25, 1990. Mr. Gary Thornhill Planning Director City of Temecula 43180 Business Park Drive Suite 200 1 Temecula, California 92390 Dear Mr. Thornhill: I recently received your notice of a scoping meeting for a project (Temecula Regional Mall) originally submitted to the County of Riverside and identified as Specific Plan 263, Change of Zone 5589. Unfortunately, a prior commitment prevents me from attending the meeting on July 26; I hope this letter will help convey Caltech's interest in this process. Caltech owns and operates the Palomar Observatory (located about 20 miles southeast of Temecula), which is the home of the 200 -inch Hale Telescope and other telescopes used for astronomical research. Discoveries made at Palomar have, over the years, led to profound changes in our understanding of the universe. By the introduction of new technological techniques, the Palomar Observatory continues as one of the most important research facilities on the planet. Recently, the effectiveness of the Palomar telescopes has been threatened by the increased use of out -door lighting in the region. Stray light from these sources illuminates particles in the atmosphere, brightening the sky and overwhelming the light from the faint stars, galaxies and quasars. As the areas around Palomar are developed, the effects of this light pollution grow. For the past eight years or so, we have been working with the communities in San Diego and Riverside Counties to establish policies designed to stem the growth of light pollution while meeting the lighting needs of the growing communities. Good examples of these are the County street lighting policy requiring the use of low- pressure sodium (LPS) lamps and the Riverside County PASADENA, CALIFORNIA 91125 TELEPHONE (5151 356-1035 TELEX 673425 CALTECH PSD Mr. Gary Thornhill July 25, 1990 ' Page Two Ordinance 655 which regulates other forms of lighting. ' These county regulations were applicable in Temecula before the city was incorporated. In the case of the Temecula Regional Mall, I strongly ' recommend adhering to the policies that currently apply in the unincorporated portions of Riverside County; that is, ordinance 655 and the use of LPS street lighting. ' Over the longer term, we note that Temecula is now the closest city to Palomar Observatory and it is growing ' rapidly. These two facts make it essential that Temecula adopt lighting policies similar to those of Riverside County. To this end, I would be pleased to meet with you to discuss the process in greater detail; ' I will call to arrange a meeting. The future of Palomar depends on our ability to control , light pollution. The consequences of our failure to act can be gauged by the situation at the Mount Wilson Observatory, where a 100 -inch telescope lies idle because of uncontrolled light pollution. Fortunately, the communities around the observatory have supported our effort to solve this problem and I hope the City of Temecula will join with us. sincerely yours, r Robert�rucato Assistant Director RJB:pc , OFFICE OF PLANNING AND RESEARCH 1400 TEMTH STREET SACRAMENTO, G 9581A DATE: October 12, 1989 TO: Reviewing Agencies OCT 19198 RIVERSIDE COUNTY. PLANNING DEPARTMENT RE: The Riverside County NOP for the Regional Center Specific Plan SCHN 89020013 Attached for your comment is the Riverside County Notice of Preparation of a draft Environmental Impact Report (EIR) for the Regional Center Spcific Plan Project_ Responsible agencies must transmit their concerns and comments on the scope and content of the EIR, focusing on specific information related to their own statutory responsibility, within 30 days of receipt 9f this notice. Te encourage commenting agencies to respond to this notice and express their concerns early in the environmental review process. Please direct your comments to: Ms. Lesley Linkins Riverside County 4080 Lemon Street, 9th Floor Riverside, CA 92501 with a cony to the Office of Planning and Research. Please refer to the SCH number noted above in all correspondence concerning this project. If you have any questions about the review process, call John 'Keene at 916/44-5-0613. Sincerely, "/' / David C. Nuneakamp Chief Office of Permit Assistance Attachments cc: Lesley Linkins 'CALIFORNIA WASTE MANAGEMENT BOARD 1020 NIMH SnUMT. SUITE 300 SACRAMENTO. GWFOANIA 95814 ' Kos A 619x9 Ms. Lesley Linkins NOV 2 11989 Riverside County ' 4080 Lemon Street, 9th Floor RIVERSIDE COUNTY Riverside, California 92501 PLANNING DEPARTMENT \ ' Subject: SCB,#.89020013 - Notice of Preparation (NOP) of the Draft Environmental Impact Report (DEIR) for the Regional Center Specific Plan, Riverside County. ' Dear Ms. Linkins: The California Waste Management Board staff have reviewed the NOP for the DEIR for the Regional Center Specific Plan. The project entails the development of a 65 acre regional mall, 75 acres of office space,_16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres of hotel. ' It would be helpful if any forthcoming environmental documents included the following: * Identification of types and quantities of wastes generated from the project which will require landfilling. ' * Identification of the impact of these '= quantities on remaining landfill capacity. ' * Identification of the final disposal site/s for the project's generated waste. ' * Identification of alternatives to landfilling waste. New commercial developments increase the amount of waste being sent ' to local landfills, which are rapidly running out of space. In order to preserve remaining disposal capacity, Board staff encourage that every effort be made to minimize the amount of solid waste going to landfills by maximizing recycling and waste reduction efforts. Board staff suggest that the following measures be considered in order to maximize recycling, reduce waste, and to promote the consumption of recycled materials: ' * Information could be provided to businesses about the recycling services in the development area. Identify buy back centers and possible markets for recyclables in the ' area. Suggest to businesses that they recycle glass, Y MR* Page Two Ms. Lipkins metal, paper, cardboard, and other materials to the maximum extent feasible. * Insulation and other products made of recycled materials may be used in the construction of development structures. * Suggest to businesses that they utilize recycled materials, such as paper, glass, and metals, to the, maximum extent possible. These considerations should be investigated thoroughly befoie construction is initiated. In addition, Board staff suggest that any forthcoming environmental documents identify past land uses and identify any waste disposal activity occurring on or near the site. The document should also identify adjacent land uses and potential health and safety impacts resulting from prior land use. If you have any questions regarding these comments, please contact Jeannie Blakeslee of the California Waste Management Board's. Local Planning Division at (916) 327-0454. If you would like information about waste reduction or recycling measures which would be appropriate for your development project, please contact Carole Brow at (916) 324-6946. Sincerely, 4s,GgeH. Larson, Manager ource Conservation and Local Planning Divisions 0 ' DEPARTMENT OF WATER RESOURCES P. O. Boa 6598 LOS ANGELES 90055-1598 1 1 1 1 Nova W9 County of Riverside R�1(�COUKSYr 4080 Lemon Street, 9th Floor PNi�18�T Riverside, CA 92501 Attention: Lesley Linkins Subject: Notice of Preparation of DEIR for the Regional Center, Offices, Retails and Hotel, dated October 1989, SCH 89020013 Your referenced document has been reviewed by our Department staff. Recommendations, as they relate to water conservation and flood damage prevention, are attached. The Department recommends that you consider implementing a comprehensive program to use reclaimed water for irrigation purposes in order to free, fresh water supplies for beneficial uses that require high quality water. For further information, you may wish to contact John Pariewski at 213-620-3951• Thank you for the opportunity to review and comment on this report. Sincerely, Charles R. White, Chief Planning Branch Southern District Attachments cc: Office of Planning and Research State Clearinghouse 1400 Tenth Street Sacramento, CA 95814 d 1 DEPARTMENT OF WATER RESGURCES RECOMMENDATIONS \ 1 FOR WATER CONSERVATION AND WATER RECLAMATION To reduce water demand, implement the water conservation measures described here. ' Required ' The following State laws require water -efficient plumbing fixtures in structures: o Health and Safety Code Section 17921.3 requires low -flush toilets and ' urinals in virtually all buildings as follows: "After January 1, 1983, all new buildings constructed in this state ' shall use water closets and associated flushometer valves, if any, which are water -conservation water closets as defined by American National Standards Institute Standard A112.19.2, and urinals and associated flushometer valves, if any, that use less than an average of 1-1/2 gallons per flush. Blowout water closets and associated flushometer valves are exempt from the requirements of this section." ' o Title 20, California Administrative Code Section 1604(f) (Appliance ' Efficiency Standards) establishes efficiency standards that give Che maximum flow rate of all new showerheads, lavatory faucets, and sink faucets, as specified in the standard approved by the American National Standards Institute on November 16, 1979, and known as ANSI A112.18.1M-1979. o Title 20, California Administrntive Code Section 1606(b) (Appliance Efficiency Standards) prohibits the sale of fixtures that do not comply with regulations. No new appliance may be sold or offered for sale in ' California that is not certified by its manufacturer to be in compliance with the provisions of the regulations establishing applicable efficiency standards. o Title 24 of the California Administrative Code Section 2-5307(b) ' (California Energy Conservation Standards for New Buildings) prohibits the installation of fixtures unless the manufacturer has certified to the CEC compliance with the flow rate standards. o Title 24, California Administrative Code Sections 2-5352(i) and (j) address pipe insulation requirements, which can reduce water used before ' hot water reaches equipment or fixtures. These requirements apply to steam and steam -condensate return piping and recirculating hot water piping in attics, garages, crawl spaces, or unheated spaces other than between floors or in interior walls. Insulation of water -heating ' systems is also required. 1 o Health and Safety Code Section 4047 prohibits installation of residential water softening or conditioning appliances unless certain conditions are satisfied. Included is the requirement that, in most instances, the installation of the appliance must be accompanied by water conservation devices on fixtures using softened or conditioned ' water. o Government Code Section 7800 specifies that lavatories in all public facilities constructed after January 1, 1985, be equipped with ' self-closing faucets that limit flow of hot water. To be Implemented where applicable t Interior: 1. Supply line pressure: Water pressure greater than 50 pounds per square , inch (psi) be reduced to 50 psi or less by means of a pressure -reducing valve. _ 2. Drinking fountains: Drinking fountains be equipped with self-closing valves. 3. Hotel rooms: Conservation reminders be posted in rooms and res2rpoms.• Thermostatically controlled mixing valve be installed for bath/shower. 4. Laundry facilities: Water -conserving models of washers be used. 5. Restaurants: Water -conserving models of dishwashers be used or spray emitters that have been retrofitted for reduced flow. Drinking water be served upon request only.' 6. Ultra -low -flush toilets: 1 -1/2 -gallon per flush toilets be installed in all new construction. Exterior:" 1. Landscape with low water -using plants wherever feasible. 2. Minimize use of lawn by limiting it to lawn -dependent uses, such as playing fields. When lawn is used, require warm season grasses. 3. Group plants of.similar water use to reduce overirrigation of low -water -using plants. 4. Provide information to occupants regarding benefits of low -water -using landscaping and sources of additional assistance. *The Department of Water Resources or local water district may aid in developing these materials or providing other information. S1 I ' 5. Use mulch extensively in all landscaped areas. Mulch applied on top of ' soil will improve the water -holding capacity of the soil by reducing' evaporation and soil compaction. 6. Preserve and protect existing trees and shrubs. Established plants are ' often adapted to low -water -using conditions and their use saves water needed to establish replacement vegetation. 7. Install efficient irrigation systems that minimize runoff and ' evaporation and maximize the water that will reach the plant roots. Drip irrigation, soil moisture sensors, and automatic irrigation systems are a few methods of increasing irrigation efficiency. ' 8. Use pervious paving material whenever feasible to reduce surface water runoff and to aid in ground water recharge. I d iJ 9. Grade slopes so that runoff of surface water is minimized. 10. Investigate the feasibility of using reclaimed waste water, stored rainwater, or grey water for irrigation. 11. Encourage cluster development, which can reduce the amount of land being converted to urban use. This will reduce the amount of impervious paving created and thereby aid in ground water recharge. 12. Preserve existing natural drainage areas and encourage the incorporation of natural drainage systems in new developments. This aids ground water recharge. 13. To aid in ground water recharge, preserve flood plains and aquifer recharge areas as open space. FLOOD DAMAGE PREVENTION In flood -prone areas: flood damage prevention measures required to protect a proposed development should be based on the following guidelines: 1. It is the State's policy to conserve water; any potential loss to ground water should be mitigated. \ 2. All building structures should be protected against a 100 -year flood. 3. In those areas not covered by a Flood Insurance Rate Map or Flood Boundary and Floodway Map, issued by the Federal Emergency Management Agency, the 100 -year flood elevation and boundary should be shown in the Environmental Impact Report. 4. At least one route Of ingress and egress to the development should be available during a 100 -year flood. 1 5. The slope and foundation designs for all structures should be based on detailed soils and engineering studies, especially for hillside developments. 6. Revegetation of disturbed or newly constructed slopes should be done as soon as possible (utilizing native or low -water -using plant material). 7. The potential damage to the proposed development by mudflow should be assessed and mitigated as required. 8. Grading should be limited to dry months to minimize problems associated with sediment transport during construction. 0 3 I Elsinore-Murrieta-Anza Resource Conservation District 711 W. Esplanade Avenue, Suite C - San Jacinto, California 92383 - Phone (714) 654-7733 Dear �e 6�>/ ,Z.'C,ns ' We acknowledge receipt of the Preparation of an Environmental impact Report for in Riverside County, California that was addressed to the USDA, Soil ' Conservation Service and the Eisinore—Murrieta—Anza Resource Conservation District on _/Z _JL=�3�for review and comment. We have rBviewed the above Environmental impact Report and find z%Z : ' 1. There are no controversial items in the report within the realm of the Soil Conservation Service's expertise and responsiDil Iles, which include the following items: a. We do not find any serious potential problems with soil erosion and/or flooding within the project area. b. There is no Prime, State, Unique or Locally important rarmiand ' involved in the project area. c. We find no conflict with any SCS on—going or planned,programs .or projects. ' d. There are no wetlands involved in this project. We find that the items listed below should be reviewed by your committee: SL C� � 1•T'ZGh Oj+i �'... 7��.r/rI Lin��Y L_2sL_�•� � �•__ �`'" 4 _��__L= _�� fir'_'= /=ri�•r'•�_______ �C DL Ll� ��0�. ��...7 ��--�-�1-Y_�.t -__f rl_�/�s r_LJ' ✓ /.�i< 7� _ //- ��.---------------------------------------------------------- We appreciate the opportunity to review and comment on this proposed ' project. Sincerely, Leon Sorel ' Chairman l CONSERVATION DEVELOPMENT SELF. GOVERNMENT r NIA INSTITUTE OF TECHNOLOGY ILE OF THE DIRECTOR Pn LO MAR OBSERVATORY 105-24 ' OCT 161989 October 12, 1989 ' RIVERSIDE COUNTY PLANNING DEPARTMENT ' M. Lesley Likins ' Planning Department County of Riverside 4080 Lemon Street, 9th Floor Riverside, California 92501 Dear M. Likins This is in response to your Notice of Preparation ' of an Environmental Impact Report in connection with the Change of Zone No. 5589 (Specific Plan 263). ' Caltech's interest in this case derives from the possible adverse impacts on the Palomar Observatory resulting from the use of outdoor lighting on the project. I assume the developer will be informed of the requirements of the Riverside County Lighting Ordinance ' 655. It is not possible, however, to determine from the Notice of Preparation if the project's lighting plan will require additional forms of mitigation; this will become clear when the draft EIR becomes available. I ' would be pleased to receive a copy for comment at that time. ' Thank you for your consideration. Sincerely yours, Rober J. rucato ' Assistant Director RJB:pc File: LANDUSE/RCZ5589 CJ PASADENA. CALIFORNIA 91125 TELEPHONE (816) 354.4033 TELECOPIER (015) 543-1517 TELEX .75425 CALTECH PSD TO: DATE: jolt -7 (ac ' FROM: , RE: z6 6Zvn,;(- #t- 2-31 E L � G.,fMI 0 VSE 1 t chi. , GEN. FO Rhl 1, Be, 8/87) 1 i 1 1 n _' 1 TO: ATTN: RE: IIV l vvram^,iuN WIIn imm CALIFORNIA DEPARTMENT OF FORESTRY AND FIRE PROTECTION PLANNING DEPARTMENT LESLEY LIKENS GLEN 1. NEWMAN FIRE CHIEF NOTICE OF PREPARATION SPECIFIC PLAN 263 CGPA 231. 10-17-89 PLANNING & ENGINEERING 3760 12TH STREET �47a%RIVERSIDE, CA 92501 V(7I4) 787.6606 OCT 191989 RIVERSIDE COUNTY PLANNING DEPARTMENT The proposed project would be consistent with current Fire Department planning and service levels established in the Fire Protection and Emergency Medical Aid Master Plan. The draft documents should address the cumulative impacts due to the increased caused by additional building and population with proposed mitigation as conditions of approval. All questions regarding the meaning of the conditions shall be refer;ed to the Fire Department Planning and Engineering staff. ml RAYMOND H. REGIS Chief Fire Department Planner 3 By Michael Gray, Deputy Fire Marshal Inv PLANNING & ENGINEERING 46.209 OASIS STREET SUITE 405 ' INDIO, CA 92201 (619) 342.8886 1 n _' 1 TO: ATTN: RE: IIV l vvram^,iuN WIIn imm CALIFORNIA DEPARTMENT OF FORESTRY AND FIRE PROTECTION PLANNING DEPARTMENT LESLEY LIKENS GLEN 1. NEWMAN FIRE CHIEF NOTICE OF PREPARATION SPECIFIC PLAN 263 CGPA 231. 10-17-89 PLANNING & ENGINEERING 3760 12TH STREET �47a%RIVERSIDE, CA 92501 V(7I4) 787.6606 OCT 191989 RIVERSIDE COUNTY PLANNING DEPARTMENT The proposed project would be consistent with current Fire Department planning and service levels established in the Fire Protection and Emergency Medical Aid Master Plan. The draft documents should address the cumulative impacts due to the increased caused by additional building and population with proposed mitigation as conditions of approval. All questions regarding the meaning of the conditions shall be refer;ed to the Fire Department Planning and Engineering staff. ml RAYMOND H. REGIS Chief Fire Department Planner 3 By Michael Gray, Deputy Fire Marshal r•L r Mfr IN COOPERATION WITH THE CALIFORNIA DEPARTMENT OF FORESTRY lIn COUNJY AND FIRE 3� (.' PROTECTION GLEN J. NEWMAN FIRE CHIEF 10-17-89 � PLANNING & ENGINEERING PLANNING & ENGINEERING 46.209 OASIS STREET, SUITE 405 3760 12TH STREET 1 INDIO. CA 92201 RIVERSIDE, CA 92501 (619) 342.8886 (714) 787.6606 TO: PLANNING DEPARTMENT 1 ATTN: LESLEY LIKINS 1 RE: SPECIFIC PLAN 263/CPA 231/CZ 5589 The following change of zone 5589 will not negatively impact the Riverside 1 County Fire Department. All other concerns will be addressed and replied to during the E.I.R./Specific Plan review process. 1 RAYMOND H. REGIS T Chief Fire Department Planner By Mantwell, Fire Safety Specialist 1Kurt ml i 1 1 OCT 18198y RIVERSIDE COUNTY 1 PLANNING DEPARTMENT i 1 1 ' 2024 Orange Tres Lane • Redlands. CA 92374 17141792-1334 • 792-0052 • 825.4825 • 825-4823 1 F L k aeDtember 'L'[. Pdbs r Leslev Likins. Specific Plans Riverside County Planning Department 4U8U Lemon Street, 9th Floor Riverside, LA 92501 .N D. GRIESEMER Director OCT 121989 RIVERSIDE COUNTY PLANNING DEPARTMENT re: EIR NOP SP Z63. 0GPA Z31, L,'L 5589. Rancho lalifornia/Temecula Portions of the above -reference pro.iect are located on very fossiliferous sediments of the Pauba t'ormation. Construction excavation is likely to impact significant nonrenewable paleontologic resources. A program should be developed by a vertebrate paleontologist to mitigate these impacts that should include, but not be limited to, the following: 1. Monitoring of excavation in areas identifies as likely to contain paleontologic resources by a qualified paleontologic monitor. '1'he monitor should be equipped to salvage fossils as they are unearthed to avoid construction delays and to remove samples of sediments which are likely to contain the remains of small fossil mammals. The monitor must be empowered to temporarily halt or. divert equipment to allow removal of abundant or large specimens. 2. Preparation of recovered specimens to a point of identification, including washing of sediments to recover small vertebrates. 3. Identification and curation of specimens into a museum repository with retrievable storage. 4. Preparation of a report of findings with an appended itemized inventory of specimens. The report and inventory, when submitted to the appropriate Lead Agency, signifies completion of the Plan to Mitigate Impacts to Paleontologic Resources. - (�Wely 0 Lr. Allan 1). uriesemer Museums Director ADG : RER/,ir I 1 October 23, 1989 United States Postal Service 'Leslie Likins. Project Planner Riverside County Planning Department 4080 Lemon Street, 9th Floor Riverside, CA 92501 REF: SP No. 263, GP Amendment No. 231 Thank you for the opportunity to review the above captioned SP. It is the position of the United States Postal Service that -,all new projects have Centralized Mail Delivery through Neighborhood Delivery and Box Collection Units or other central delivery equipment. It is suggested that this be reauired and shown on the final plot plan map. ' If You have any questions, feel free to contact me. 0 Sincerely Steve Fitch ' Growth Management Coordinator Delivery & Retail ANalvsr� General Mail Facility 1900 W: Redlands Blvd. ' San Bernardino, CA 92403-9334 0 �1 Y Gl�1VG �VYI IL 1 ?Unninc i)Emi ammi: AGENCY NOTICE OF PREPARATION OF 5AN ENVIRONMENTAL IM7 , DATE: October 5, 1989 of ARU C RUED IN 1 TO: UCR Archaeological Research OCT 20 1989 OCT 11 1989 900 University Ave. 1 Riverside, CA 92507 RIVERSIDE COUNT.,, PROJECT CSE N0./TITLE: PLANNING OEPgRTMENT 1 Regional Center Specific Plan No. 263, Canprehensive General Plan Amendment No. 231, and Change of Zone No. 5589 PROJECT RPnNRORi 1 Turrini & Brink Planning Consultants 3242tirthab!,!t;a r, c a:clillnil Holladay, Suite 100 �0ivauiir; of Califon w Santa Ana, CA 92705 Riverside, CA 92521 1 PROJPrT TnrATT ON. The project site is located southerly of Santa Gertrudis Creek and 1 Winchester Road between Ynez Road and the proposed aligrrnent of Margarita Road in the Rancho California/Temecula area within Section 26 of Township 7 South, Range 3 West. 1 DROJE T n.gRIPTTON: Regional Center Specific Plan No. 263 is a 230.8 -acre project pro- posing mixed-use ca mercial develognent, consisting of 65 acres of 1 regional mall, 75 acres of office, 16 acres of specialty retail, 57.5 acres of retail, and 17.3 acres of hotel. Pursuant to the Riverside County Rules to Implement the California 1 Environmental Quality Act, notice Is given to responsible and Interested agencies, that the Riverside County Planning Department plans to oversee the preparation of an Environmental Impact Report for the project, The purpose of this notice !s to solicit guidance from your agency as to the scope and 1 content of the environmental information to be Included in the EIR. Information in that regard should be submitted to this offict as soon as possible, but not later that 30 days after.receiving this notice. 1 Attached Is a copy of the issues to be included in the draft EIR. If you have any questions, please contact Lesley Liklns, Project Planner, at (711) 787-6356. N 0 St.+✓✓N 1� C" /'CSow/Y1.S 1 Very Y' trul Yours, rj rCCCW H& O&W Snccz rG� aha L."S. Sw�✓�Boi aS darts oho { 1 RIVERSIDE COUNTY PLANNING DEPARTMENT NO S, �rdre ,.nwi�.ojltrs S {e ICj Roger S. Strpeeter, Planning Director -04t � C"/h.�,fa/ reSo /c es 4r� ls�eounlC/t 1 Jade, I }I!kln�J oiwfl^9 o'avClo`J/ne.vT a %r�a(,�iGA� ,✓I,�.PSY. CA10 (cC be cans vIreon. Le ley L k1 s, Project Planner alo��j r o�IG�e 1 VJ 1 4080 LEMON STREET, 9T" FLOOR 46-209 OASIS STREET, ROOM 304 RIVERSIDE, CALIFORNIA 92501 INDIO, CALIFORNIA 92201 (714) 787.6181 (619) 342-8277 I 1 I I I REVISED FEASIBILITY GEOTECHNICAL REPORT 230± Acre Rancho California Regional Center South and East of Winchester and Ynez Roads Rancho California, California ' PREPARED FOR: BEDFORD PROPERTIES ' 27405 Ynez Road Rancho California, California 92390 PREPARED BY: ICG Incorporated ' 1906 Orange Tree Lane, Suite 240 Redlands, California 92374 1 ' OCTOBER 18, 1989 JOB NO: 08-6574-012-01-00 ' LOG NO: 9-3650 1 0= OUR ORIGINAL REPORT, ISSUED ' '�� PREV;OUSLY UNDER OUP. FORMER NAME HIGHLAND GEOTECHNICAL CONSULTANTS. INC. incorporated Inland Empire Office: 1906 Orange Tree Lane. Suite 240 ' Redlands, CA92374 7l7141792-422222zz October 18, 1989 fax: 714/7984844 ' Corporate Office: Bedford Properties Job No: 08-6574-012-01-00 5 Mason Nine, CA 92718 27405 Ynez Road Log No: 9-3650 714/951-8686 Rancho California, CA 92390 fax: 714/951-6813 ' San Diego Attention: Mr. Greg Erickson County Office: 9240 Trade Place, SUBJECT: REVISED FEASIBILITY GEOTECHNICAL REPORT Suite 100 ' San Diego, CA 92126 230± Acre Rancho California Regional Center 619/536-1102 South and East of Winchester and Ynez Roads fax: 619/536-1306 Rancho California, California Orange County Office: 15 Mason Gentlemen: Irvine, CA 92718 714/951-8686 fax: 714/951-7969 In accordance with your request, we have completed a revised ' feasibility geotechnical report for the subject site. Utilizing the results of our previous investigations (Highland Geotechnical Consultants, November 1988 and February 1989), we have developed preliminary geotechnical conclusions and recommendations pertinent to the proposed commercial development. This opportunity to be of service is sincerely appreciated. If you have any questions, please call. Very truly yours, ICG Incorporated Inland Empire Division rone �AnoZ �GE ' Chief Engineer TMC:vdp ' Distribution: (6) Addressee I ' TABLE OF CONTENTS PAGE NO. 1.0 INTRODUCTION 2 ' 1.1 Project Characteristics 2 1.2 Purpose 3 1.3 Scope/Authorization 3 1.4 References 3 2.0 EXECUTIVE SUMMARY 3 3.0 SITE INVESTIGATION 5 3.1 Field Exploration 5 ' 3.2 Laboratory Analyses 5 3.3 Aerial Photograph Review 6 4.0 GEOLOGY 6 4.1 Geologic Setting 6 ' 4.2 Geologic Units 7 4.2.1 Pauba Formation 7 ' 4.2.2 Alluvium 7 4.2.3 Artificial Fill 8 4.3 Structural Geology 8 r4.4 Drainage 10 4.5 Groundwater 10 4.6 Skinner Dam Inundation Area 10 5.0 SEISMICITY 11 ' 5.1 Regional Seismicity 11 5.2 Earthquake Effects 12 5.2.1 Earthquake Accelerations 12 ' 5.2.2 Ground Rupture 13 5.2.3 Ground Surface Cracking 13 5.2.4 Soil Settlement 14 5.2.5 Liquefaction 14 ' 5.2.6 Seismically Induced Flooding 15 6.0 SUBSURFACE CONDITIONS 15 ' 7.0 GEOTECHNICAL EVALUATION AND RECOMMENDATIONS 17 17 7.1 General 7.2 Grading and Earthwork 17 8.0 TABLE OF CONTENTS (Continued - Page 2) PAGE NO. 7.2.1 Site Preparation 17 7.2.2 Preliminary Preparation of Existing Soils 18 7.2.3 Fill Placement 20 7.2.4 Subdrainage 21 7.3 Slope Stability 21 7.3.1 Cut and Fill Slopes 21 7.3.2 Fill -Over -Cut Slopes 22 7.3.3 Slope Protection/Maintenance 22 7.4 Settlement Considerations 23 7.4.1 Earthwork 23 7.4.2 Transition Lots 23 7.4.3 Foundations 24 7.5 Surface and Subgrade Drainage 24 7.6 Foundation and Slab Recommendations 25 7.6.1 General 25 7.6.2 Foundations 26 7.6.3 Lateral Load Resistance 27 7.6.4 Concrete Slabs/Flatwork 28 7.6.5 Set -Backs 28 7.7 Soil Sulfate Content 29 7.8 Utility Trench Backfill 29 7.9 Pavement Design 30 7.10 Retaining Walls 31 7.11 Grading and Foundation Plan Review 32 7.12 Construction Monitoring 32 LIMITATIONS OF INVESTIGATION 33 1 Attached and Included: 1 Appendix A, References Appendix B, Logs of Borings, Key to Logs, CPT Data Appendix C, Laboratory Test Results Appendix D, Standard Details L Figure 1, Location Map Figure 2, Map of Historic Epicenters Figure 3, Seismicity of Major Faults 1 Figure 4, Liquefaction Analysis Figure 5, Foundation Slab and Recommendations Figures B-1 through B-15, Logs of Borings Figure B-16, Key to Logs Figures C-1 through C-5, Laboratory Test Results Figures D-1 through D-3, Standard Details 1 1 71 Ll �1 11 1 1 I 11 Bedford Properties October 18, 1989 1.0 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 2 Presented herewith are our preliminary geotechnical conclusions and recommendations pertinent to the proposed Rancho California Regional Center in Rancho California, California. The geographic relationships of the site are shown on the enclosed Location Map, Figure 1. 1.1 Proiect Characteristics The subject project is located south and east of the Winchester Road and Ynez Road intersection, with the north boundary abutting Santa Gertrudis Creek and Margarita Road forming the east boundary. Vegetation consists of some trees with a moderate growth of weeds and/or alfalfa covering the site. Man-made features include various structures, dirt roads and a horse track in the eastern portion of the site. A couple of areas of artificial fill exist within site bounds, the largest being located between Winchester Road and Santa Gertrudis Creek. Topographically, the site slopes towards the southwest with maximum relief on the order of 90 ft. According to information provided by the client, the proposed development will consist of mostly 1- and 2 -story buildings, with possibly some 6- to 8 - story buildings as well. It is our understanding that standard cut and fill grading procedures will be followed to provide flat building pads and areas to be paved. 7:A 7L 4�.H'ot 7 7,a Walef ot 1 %I - w .0 p —1106" \j I L/ 00 <1 j, \2j.�3 79 `,*1036 Gagpe Sm M 1072 13 lkv i � 1 - Reservoir Gag, L o 0 �7_ r ADAPTED FROM U.S.G.S. MURRIETA, CALIFORNIA OUADRA"QLE SCALE 1'-260W LOCATION MAP -RANCHO CALIFORNIA REGIONAL CENTER jns mn. I nAve. I ........ Bedford Properties October 18, 1989 1.2 Purpose Job No: 08-6574-012-01-00 Log No: 9-3650 Page 3 The purpose of this report was to determine preliminary geotechnical engineering and geologic parameters for the site based on previously performed field and laboratory work, and develop preliminary conclusions and recommendations relative to project development. 1.3 Scope/Authorization The scope of this work was outlined in our Authorization No. 0212, dated October 2, 1989. Verbal authorization to perform this service was given on September 24, 1989 by Mr. Greg Erickson. 1.4 References For the purpose of preparing this report we were provided with a 200 -scale map titled "Regional Center Specific Plan" dated October 16, 1989, by Turrini & Brink Planning Consultants. This revised feasibility geotechnical report is based on field and laboratory work as presented in the referenced reports by Highland Geotechnical Consultants dated November 21, 1988 and February 13, 1989. These and other references are listed in Appendix A. 2.0 EXECUTIVE SUMMARY Our conclusions and recommendations are based on the information presented in the referenced geotechnical feasibility reports. our work was limited to the scope t 1. The proposed project is feasible for development from a ' geotechnical standpoint. 2. The lower portions of the site within the Santa Gertrudis Valley are susceptible to liquefaction during major seismic events. This area is also within the Skinner Dam inundation area for a 100 year event. Appropriate preliminary mitigation recommendations are provided herein. 3. The alluvium and near -surface soils appear to be of variable density and compressibility and may not provide uniform structural support. Appropriate preliminary mitigation measures are contained herein. 4. The site is not located within any State or County Special Studies Zone. 5. The recommendations in this report do not apply to that part of the site (southwest corner) covered by the referenced Highland Geotechnical Consultants report dated April 25, 1989. ' Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 - Log No: Page 4 9-3650 requested and is specifically addressed to the proposed ' project as described herein. In summary, our findings are as follows: 1. The proposed project is feasible for development from a ' geotechnical standpoint. 2. The lower portions of the site within the Santa Gertrudis Valley are susceptible to liquefaction during major seismic events. This area is also within the Skinner Dam inundation area for a 100 year event. Appropriate preliminary mitigation recommendations are provided herein. 3. The alluvium and near -surface soils appear to be of variable density and compressibility and may not provide uniform structural support. Appropriate preliminary mitigation measures are contained herein. 4. The site is not located within any State or County Special Studies Zone. 5. The recommendations in this report do not apply to that part of the site (southwest corner) covered by the referenced Highland Geotechnical Consultants report dated April 25, 1989. ' Bedford Properties October 18, 1989 ' 3.0 SITE INVESTIGATION 3.1 Field Exploration Job No: 08-6574-012-01-00 Log No: 9-3650 Page 5 ' Samples, representative of the materials encountered during our previous field investigations, were obtained for laboratory testing. Results of in-place moisture and density determinations, including classifications and Standard Penetration Test results, are shown on the Subsurface exploration of the site was previously performed on September -21,. 1988 and between --January 3 and 12, 1989 (see referenced geotechnical feasibility ' reports). Those borings drilled in September 1988 are distinguished by asterics (Boring Logs 1' through 6*); in all, a total of 11 test borings were drilled to depths between 19.5 and 45.5 ft. An 8 in diameter hollow -stem auger, powered by a truck -mounted rotary drilling rig, was used to advance the test borings. In addition, 13 Cone Penetrometer Tests (CPT) were performed to depths between 27 and 44 ft. A standard 10 cm2 electric cone, advanced by a truck mounted hydraulic press, was used to provide a continuous log of the subsurface strata encountered during these tests. The approximate locations of the test borings and CPT soundings (labeled PC -1, etc.) are shown on the Geotechnical Map, Plate 1, included in Appendix E. Logs of Borings are presented on Figures B-1 through B- 16 and the "Key to Logs" is on Figure B-17. These figures and the CPT data are included in Appendix B. 3.2 Laboratory Analyses ' Samples, representative of the materials encountered during our previous field investigations, were obtained for laboratory testing. Results of in-place moisture and density determinations, including classifications and Standard Penetration Test results, are shown on the Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 6 Logs of Borings in Appendix B. All other applicable laboratory test results and descriptions are included in Appendix C. 3.3 Aerial Photograph Review The referenced aerial photographs were carefully reviewed for the subject project. Results of this review indicated that linear features suggest surface effects of faulting exist north of the site, but no such features were found within site bounds. 4.0 GEOLOGY The geology discussion from the referenced Highland Geotechnical Engineering, Inc., (February 1989) report is generally applicable to the subject site and is repeated here for convenience. 4.1 Geologic Setting The site is located within the Peninsular Ranges Geomorphic Province east of the Santa Ana Mountains. The Peninsular Ranges extend southward from the Los Angeles Basin through Baja California, and are characterized by large Mesozoic Age intrusive rock masses flanked by volcanic, metasedimentary and sedimentary rocks. The Peninsular Ranges have a general northwest -trending structural grain that includes such geologic features as faults, bedding and foliation trends, and geologic contacts. Locally, the site is underlain by recent alluvial deposits in the Santa Gertrudis valley and drainage areas, while the hills consist primarily of late Pleistocene Age sedimentary bedrock, known as the Pauba ' Formation (Mann, 1955). 4.2 Geologic Units 4.2.1 Pauba Formation (Map Symbol: Qps) Bedford Properties ' Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 ' stiff to stiff clayey silt and silty clay beds. Page 7 rLateral ft thick soil horizon on the flatter topographic displacement and uplift of the region has occurred on a series of major northwest -trending faults which are thought to be related to the regional These materials typically consist of loose to tectonic framework. Some of these faults zones have interbedded silty sands, sandy silts and sands. remained active to the present time, including the Elsinore Fault Zone west of the site. Locally, the site is underlain by recent alluvial deposits in the Santa Gertrudis valley and drainage areas, while the hills consist primarily of late Pleistocene Age sedimentary bedrock, known as the Pauba ' Formation (Mann, 1955). 4.2 Geologic Units 4.2.1 Pauba Formation (Map Symbol: Qps) The Pauba Formation exposed on the site consists ' of light brown laminations and beds of poor to well indurated silts, sands and gravels with occasional intervals of greenish -gray, medium stiff to stiff clayey silt and silty clay beds. This formation is commonly mantled by a 1 to 4 ' ft thick soil horizon on the flatter topographic areas. 4.2.2 Alluvium (Map Symbol: Qal) These materials typically consist of loose to medium dense fluvial and channel deposits of interbedded silty sands, sandy silts and sands. Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 8 4.2.3 Artificial Fill (Map Symbol: a£) The observed artificial fill consists of light brown to brown sands and silty sands. 4.3 Structural Geoloav The dominant structural feature in the area is the northwest -striking Elsinore Fault Zone. This zone fits the dominant northwest -southeast structural and regional tectonic pattern displayed by other fault systems, including the San Andreas and San Jacinto Fault Zones. The Elsinore Fault Zone extends for more than 200 km from Corona on the north to beyond the Mexican border on the south (Biehler and others, 1964). Individual faults in this zone are generally less than 1 to 2 km long, although several have continuous mapped lengths in excess of 25 km (Weber, 1963). The Elsinore Fault Zone is a prominent and youthful structural boundary that separates the Perris Block (English, 1926) along its eastern side from the Santa Ana Mountains along its western side. The term "Elsinore Trough" is commonly used to describe the fault -controlled graben valley between Corona and upper Wolf Valley. Geologic mapping by Kennedy (1977) indicates that the eastern side of the Elsinore Trough (Wildomar Fault Zone) is composed principally of right - stepping, strike -slip faults that have a west -dipping normal component, whereas the western side (the Willard Fault Zone) is composed of a series of east -dipping, steeply inclined faults. I I Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 9 Locally, the Elsinore Fault Zone is divided into 3 principal northwest -trending faults. The Wildomar Fault Zone is located 0.4 mi west of the site, the Willard Fault Zone 1.5 mi to the southwest and the Murrieta Hot Springs Fault Zone 0.9 mi to the north. 1 Most individual faults of the Willard Fault Zone can be traced for only 1 to 2 km and many for less than a few hundred meters. The faults have a complex ' discontinuous relationship to one another and only as a group form a through -going zone (Kennedy, 1977). The ' Willard Fault Zone is not classified as active by either the State or County and no evidence of recency has been encountered (Shlemon, 1987 personal communication). The Murrieta Hot Springs Fault Zone is composed of several faults that have an average strike of N750W and a dip of 80°S (Kennedy, 1977). This fault zone has been mapped by Kennedy (1977) as being nearly continuous from the southeast portion of Murrieta to Murrieta Hot Springs. The Murrieta Hot Springs Fault is not currently classified as an active fault by state ' or local agencies, but this status may change in the future since new evidence of Holocene Age activity has recently been recognized by these agencies. ' The Wildomar Fault Zone is a northwest -striking, west dipping high -angle normal fault. This fault zone is presently included within the Alquist-Priolo Special Studies Zone (see Figure 1). No portion of the site is included within a State or County fault hazards zone. Bedford Properties October 18, 1989 4.4 Drainage I Job No: 08-6574-012-01-00 Log No: 9-3650 Page 10 Drainage of the site is accomplished by downward surface percolation and sheetflow which is generally directed into southwest flowing canyons and the Santa Gertrudis Valley. 4.5 Groundwater Groundwater was encountered in Borings 1 and 7 at depths of 33 and 38 ft below the existing ground surface, respectively. Based on data from 9 water wells within and adjacent to the site (Department of Water Resources, 1971), the historic regional high groundwater levels vary from 20± ft to 45± ft below the ground surface in the western to eastern portions of the site, respectively. We have mapped these historic groundwater contours on the Geotechnical Map, Plate 1, included in Appendix E. According to the County of Riverside Energy Resources Map, thermal waters may underlie the subject site. It is beyond the scope of this report to determine the existence and extent.of thermal waters. 4.6 Skinner Dam Inundation Area The Santa Gertrudis Valley portion of the site lies within the Skinner Dam inundation area for a 100 year event. Appropriate diversion and/or channel structures should be considered during design to prevent flooding of the proposed development. ' Bedford Properties October 18, 1989 r 5.0 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 11 ' The seismicity discussion from the referenced Highland Geotechnical Engineering, Inc., (February 1989) report is ' generally applicable to the subject site and isrepeated here for convenience. 5.1 Regional Seismicity ' The site is located in a region of generally high seismicity as is all of Southern California. During its design life, the site is expected to experience ground motions from earthquakes on regional and/or Distance of Site local causative faults. Figure 2 shows the geographic ' relationship of these faults to the site and the Magnitude epicenters for numerous large earthquakes that have Fault occurred in historic time. The table in Figure 3 lists 1890 known regionally active faults, their maximum probable ' earthquake magnitude and seismic parameters for identified causative faults. . Earthquake epicenters (exceeding 6.0 on the Richter Scale of Magnitude) within a 65 mi radius of this ' project are listed below: Approximate Richter Distance of Site ' Date Magnitude To Epicenter (mi) Fault 1890 6+ 42 N San Jacinto 1899 6+ 55 N San Andreas 1907 6+ 45 N San Andreas Bedford Properties October 18, 1989 Richter Date Magnitude Job No: 08-6574-012-01-00 Log No: 9-3650 Page 12 Approximate Distance of Site To Epicenter (mi) Fault 1910 6+ 18 NW Whittier - Elsinore 1918 6.8 18 NE San Jacinto 1923 6.3 33 N San Jacinto 1933 6.3 .45 W Newport - Inglewood 1937 6.0 54 SE San Jacinto 1948 6.5 54 NE San Andreas References: Hileman, et. al., 1973 Toppozada, et. al., 1978 5.2 Earthquake Effects 5.2.1 Earthquake Accelerations We have analyzed the possible earthquake accelerations at the site and determined that, for the intended use, the most significant event would be a 7.0 Magnitude earthquake occurring nearby on the Elsinore Fault Zone (Wildomar Fault). The accelerations produced at the site by such an event would exceed those of events on any other known fault. A Magnitude 7.0 earthquake occurring on the Wildomar Fault could produce a peak ground acceleration at the site on the order of 0.63g m m m m r m m= r= m m m m m m m IlL -*,.T 1 m _ LI <wa.nw —. �t °,u � � 1r wuq v I • w /, � \ \ Y nr< r.e EI{ anw wr i urn ,°.�. .� \ Y d ex y 9 1-0—OR ORE LRP_ UIL \ 'LL�{iL f.rT•� yOR ..q OIIUOYOm.11rv1• V MEMO noyu M N.I .O Y.I4r Ve, .rNO\ y I ..u.x.w.. IY.Iw.V01 \..I. 10[r110Y,p rr..�. w..ru... �r.r xrx. eICLYIIY. LIILYYYY1. lOG.tIO. .r xxYrL>w YIYt)N. x. ir, 1N NI4.VN WpYrr IOY ; - I IN.rO14ANuuU .n. M MAP OF HISTORIC EARTHQUAKE EPICENTERS, MAGNITUDE > 5.0 B NO.: 08-6574-012-01-00 OATE: OCTOBER 1989 FIGURE: 2 SEISMICITY FOR MAJOR FAULTS Hot Springs Seed and Idriss (1982) Ploessel and Slosson (1974) Gutenberg and Richter (1956) ob No: 07-6574-016-00-00 Figure m m i r mm = m m m m m_ � mm mm ESTIMATED APPROXIMATE MAXIMUM ESTIMATED REPEATABLE MODIFIED DISTANCE FROM PROBABLE PEAK GROUND HIGH GROUND MERCALLI 'AULTS SITE (MILES) EARTHQUAKE ACCELERATIONI ACCELERATION INTENSITY lsinore 0.4 W 7.0 0.63g 0.41g IX (Wildomar) an Jacinto 19 NE 7.1 0.31g 0.21g VII -VIII an Andreas 32 NE 7.5 0.27g 0.18g VII -VIII :urrieta 0.9 N 6.5 0.59g 0.38g VIII -IX Hot Springs Seed and Idriss (1982) Ploessel and Slosson (1974) Gutenberg and Richter (1956) ob No: 07-6574-016-00-00 Figure m m i r mm = m m m m m_ � mm mm I I I L 1 i I I I F I Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 13 (Seed and Idriss, 1982), with the duration of strong motion exceeding 30 seconds (Bolt, 1973). Peak acceleration is not, however, always representative of the accelerations for which structures are actually designed (Ploessel and Slosson, 1974). Repeatable high ground accelerations at the subject site from a 7.0 Magnitude earthquake on the Wildomar Fault are estimated to be on the order of 0.41g. The design of structures should comply with the requirements of the governing jurisdictions and standard practices of the Structural Engineers Association of California. 5.2.2 Ground Rupture Breaking of the ground because of active faulting is not likely on the site due to the absence of known active faults within site bounds. Our investigation found no evidence of active faulting within site bounds based on our surface and subsurface exploration. 5.2.3 Ground Surface Cracking It is our opinion that subsidence cracking is unlikely at this site due to the absence of known faulting within the site and the relatively low contact angle observed in field tests between the alluvium and sedimentary bedrock. As discussed in a later report (Highland Geotechnical Consultants, April 1989), Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 Page 14 cracking of the ground due to groundwater withdrawal is not expected to occur. 5.2.4 Soil Settlement Generally, the soils underlying the site consist of loose to medium dense alluvium and medium dense to very dense sedimentary bedrock. The settlement potential under seismic loading conditions for these on-site materials is, in our opinion, moderate to low, respectively. 5.2.5 Liquefaction Soil liquefaction is the loss of soil strength during a significant seismic event. It occurs primarily in loose, fine to medium grained, granular material in the presence of groundwater. Liquefaction occurs as soil particles are rearranging into a denser condition, which can result in localized areas of settlement, sand boils, and flow failures. We have investigated the liquefaction potential of on-site soils using procedures presented by Seed and Idriss (1982) and the Committee on Earthquake Engineering (1985). Our analysis is based on the geotechnical and seismological data obtained for the project site, and indicate that the granular soils in the Santa Gertrudis Valley are typical of soils that will likely liquefy during major seismic events. Liquefaction 11 Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 15 . analysis results are presented graphically on Figure 4. Points to the left of the M=7 line represent areas and depths likely to liquefy, whereas to the right of this line, liquefaction is not likely to occur. We have also delineated .ontthe -Geotechnical Map, Plate 1, in Appendix E the area considered susceptible to liquefaction. Preliminary recommendations to mitigate this potential are contained in Section 7.2.2. 5.2.6 Seismically Induced Flooding The northern portion of the site adjacent to Santa Gertrudis Creek may be subject to seismically induced flooding from a dam failure at Skinner Reservoir. The project Civil Engineer should consider proper diversion or channel structures to prevent flooding of the proposed development. 6.0 SUBSURFACE CONDITIONS Based on our previously performed subsurface exploratory work, it appears that the site is predominantly underlain by medium dense to very dense sedimentary bedrock in the ' elevated portions of the site and loose to medium dense alluvium within the drainage areas. The bedrock generally ' consists of late Pleistocene Age clayey silts, silty clays, silts, and sands; the clayey silt and silty clay portions ' of this bedrock can have high expansion potentials. The alluvial soils are generally comprised of silty sands, sandy silts, and sands. These soils exhibit moderate strength I 0.: ¢ U. O LL za 0 O O o U O Q N LL.i 0., w 1 �w a¢ ?w cn ¢ M o_ U z 0. UJ >o cr O� _ m aw ¢> y0 W > 0. ¢ f- y U w U LL _ LL U w } U 0 0 10 20 30 40 50 CORRECTED PENETRATION RESISTANCE N1- BLOWS/FT. I LIQUEFACTION ANALYSIS JOB 14O : .... ��. _ �.� �. �.. DATE: •wow FIGURE: I PC2035' e e m N m A a► � � i � 87040' ► P 430'W-4pC ► Ct 5030' 030 ' PC3 35' C�40' C4 / / PC P25' Pcs 40'1 /137®3)s / UNLIKELY LIKELY / / ' i 1 J 3 2 1 0 i 0 10 20 30 40 50 CORRECTED PENETRATION RESISTANCE N1- BLOWS/FT. I LIQUEFACTION ANALYSIS JOB 14O : .... ��. _ �.� �. �.. DATE: •wow FIGURE: I fl 1 F F J 11 Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 16 characteristics when used as compacted fill and have a very low to low expansion potential. Artificial fill consisting of silty sands and sands were observed at various locations, including along Santa Gertrudis Creek. Groundwater was encountered in Borings 1 and 7 at depths of 33 and 38 ft below the ground surface, respectively. I 1 F Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 17 7.0 GEOTECHNICAL EVALUATION AND RECOMMENDATIONS 7.1 General Based on the results of our previous investigation, the proposed development is feasible from a geotechnical standpoint. Preliminary recommendations for site grading and design of building foundations and slabs along with preliminary pavement designs, are presented in the following sections of this report. The recommendations presented herein are preliminary in nature and should be confirmed once a site grading plan becomes available. A preliminary geotechnical investigation has already been performed for the southwest corner of the site (Highland Geotechnical Consultants, April 1985); the recommendations provided herein do not pertain to that report. A summary of our findings is contained in the "Executive Summary", Section 2.0. 7.2 Grading and Earthwork 7.2.1 Site Preparation Prior to grading, the site should be stripped and cleared of any existing vegetation, trees, ' structural foundations and any miscellaneous debris. Excavations resulting from the removal ' of concrete rubble, brush, debris or any buried obstructions should be backfilled with properly compacted fill. i Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 18 Abandoned and in-service utilities may exist on- site. The proper companies should be contacted for the exact location of these utilities. Pipes to be abandoned should be properly capped and/or removed off-site. Concrete pipes may be either crushed in place or removed. The cleared and stripped materials containing vegetation and/or organic materials should not be incorporated in fills, but should be either removed from the site or used in landscape areas. 7.2.2 Preliminary Preparation of Existing Soils • Alluvial Removals Alluvial removals beneath building sites will be recommended in the field on an individual basis depending on structure types and depths of proposed fills. No grading plan was available for our review, but we estimate that alluvial removals will be on the order of 3 to 8 ft. The actual removal depths should be established in the field by both inspection and density testing during grading. Settlement monumentation may also be required if fills in excess of 25 ft are anticipated in these areas. • Non -Engineered Fill Removals It is recommended that non -engineered fills in building areas be removed. This may require ' Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 ' Page 19 significant existing fill removal within the Santa Gertrudis Valley portion of the site. ' Rippability Based on -previous rippability_studies performed within the Pauba Formation near the subject site, we anticipate easy to moderate ripping in cut areas. ' Liquefaction Mitigation ' "Liquefaction", As presented in Section 5.2.5, ' the subsurface soils within the Santa Gertrudis Valley are susceptible to liquefaction. We recommend that a minimum 4 ft thick compacted ' fill mat overlying a 1 ft thick gravel blanket be provided under the proposed structures in the ' affected area. Overexcavations for fill mats should extend a minimum lateral distance of 5 ft ' from the outer edge of exterior footings. Other include mitigation recommendations using post - tensioned slabs and additional footing reinforcement to reduce the effects of possible differential settlement from liquefaction. To mitigate the potential for lateral spreading in this area, it is recommended that vertical ' gravel drains be strategically placed to help reduce the potentially rapid increase in pore ' pressures during seismic events. The design of this system should be performed during the grading plan review process. Bedford Properties October 18, 1989 Other Removals Job No: 08-6574-012-01-00 Log No: 9-3650 Page 20 To provide a uniform support for the proposed foundations, the remaining near -surface soils should be removed and replaced as compacted fill to a minimum depth of 3 ft below existing grade or 2 ft below the bottom of proposed footings, whichever is greater. Overexcavations should extend a minimum lateral distance of 5 ft from the outer edge of exterior footings. Prior to fill placement in all the above situations, the exposed soils should be scarified to a depth of 6 to 8 in, brought to near optimum moisture content and then compacted to a minimum 90% relative compaction (ASTM D 1557). 7.2.3 Fill Placement All fill soils should be placed in 6 to 8 in thick loose lifts, brought to near optimum moisture content and compacted to a minimum 90% relative compaction (ASTM D 1557). Fill imported from off-site areas should have a very low to low expansion potential. Imported soils should be approved by the Geotechnical Engineer prior to use. At least 2 working days notice should be allowed for approval. I [1 1 L Bedford Properties October 18, 1989 7.2.4 Subdrainaae Job No: 08-6574-012-01-00 Log No: 9-3650 Page 21 At this time, subdrains at the fill/bedrock contact are not anticipated. However, final determination_ of the necessity for subdrains should be made during removals, at which time a Geologist or Geotechnical Engineer can observe actual subsurface conditions. A "Typical Canyon Subdrain Detail" showing installation details is included in Appendix D, Figure D-1. 7.3 Slone Stability Natural slopes on the subject site range from relatively gentle to moderately steep; no inherent stability problems with natural slopes are expected. The following sub -sections present our preliminary recommendations for designing and constructing the anticipated slopes. 7.3.1 Cut and Fill Slopes Cut and fill slopes should be designed and are expected to be grossly stable at 2:1 (horizontal:vertical) slope ratios, or flatter, to heights of 20 ft. Slopes of greater height as well as the final design of all cut and fill slopes should be analyzed during grading plan review. Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 22 If natural slopes are steeper than 5:1, compacted fill should be keyed and benched into firm material (preferably bedrock) as shown in Appendix D, "Fill Slope Over Natural Ground Detail", Figure D-2. Proper placement and compaction of fill slopes is essential to providing adequate gross and surficial stability. Feathering of fill over tops of slopes should not be permitted. Temporary construction slopes should also be placed at slope ratios of 2:1, or flatter. The temporary slopes should not remain unsupported for more than 90 days or during periods of intense rainfall. 7.3.2 Fill -Over -Cut Slopes Fill -over -cut slopes above building pads should be eliminated by constructing stabilization fills against cut portions of slopes. Construction of such fills should include the i excavation of keyways, as shown in Figure D-3, "Fill Slope Over Cut.Slope Mitigation Detail", in Appendix D. 7.3.3 Slope Protection/Maintenance Slope erosion of on-site sandy soils and bedrock is a significant concern with regard to surficial stability. We recommend that fill slopes be properly compacted and that all cut Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 Page 23 ' and fill slopes be planted with erosion resistant vegetation or other protective devices as soon as possible after grading. ' 7.4 Settlement Considerations 7.4.1 Earthwork ' Due to the wide variation in compressibility of ' the alluvial areas, we have recommended removal of alluvium to competent soils in order to ' minimize detrimental settlements. During construction, however, some subsidence on the order of 0.2 ft can be expected to occur in ' alluvial areas due to movement of construction equipment. . ' Alluvial soils can be expected to shrink on the ' order of 15 to 20% when recompacted. The amount of shrinkage will depend on several factors, including grading methods and the existing in- place densities and moisture contents of such materials. The soil derived from bedrock ' excavations could bulk on the order of 2 to 4%. 7.4.2 Transition Lots ' Lots located in cut/fill transition areas should be overexcavated to a depth of at least 3 ft ' below finished grade and brought to grade with compacted fill as outlined in Section 7.2, "Grading and Earthwork". These measures will 1 Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 24 reduce possible differential settlement to acceptable levels as discussed below. Lots in areas of shallow cuts should be processed as outlined in Section 7.2. 7.4.3 Foundations Total and differential settlements under static loads of footings supported on properly compacted fill and sized for the recommended bearing pressures are not expected to exceed about 1 in and 3/4 in, respectively. These settlements should occur primarily during construction, provided that alluvial soils are removed as recommended above. 7.5 Surface and Subgrade Drainage Surface runoff onto down-slope areas should be minimized to prevent saturation of underlying soils and bedrock. Water should never be diverted onto a constructed or natural slope in an uncontrolled manner. To enhance future performance in the building pad areas, it is recommended that all pad drainage and runoff from roof drains be collected and directed away from proposed structures toward proper disposal areas. We recommend that a minimum 2% gradient away from foundations be maintained in soil areas and 1% in paved swale areas. I 1 -' 11 1 1 Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 25 It is important that drainage patterns be established at the time of final grading and maintained throughout the life of the project. It should be understood that altered drainage patterns, landscaping, planters and other improvements as well as irrigation and variations in seasonal rainfall all affect subsurface moisture conditions, which in turn could affect structural performance. 7.6 Foundation and Slab Recommendations 7.6.1 General The natural soils in foundation areas are expected to be predominantly very low to low in expansion potential. However, this should be confirmed at the conclusion of rough grading since clayey silt/silty clay portions of the Pauba Formation can have high expansion potentials. The attached Figure 5, "Foundation and Slab Recommendations", presents detailed foundation construction recommendations for various expansive soil conditions. Final foundation and slab recommendations should be based on expansion tests taken in the near- surface,subgrade soils at the completion of rough grading. If highly expansive conditions exist within the top 3 ft of final grades, it may be necessary to remove and replace the top 3 ft with less expansive material. In areas of potential liquefaction (Santa Gertrudis Valley), it is recommended that structural reinforcement ' Bedford Properties Job No: 08-6574-012-01-00 ' October 18, 1989 Log No: 9-3650 Page 26 ' be increased to help mitigate the potential for localized settlements. These recommendations ' should not be applied to structures over 2 stories in height; such structures should be evaluated individually to provide appropriate recommendations. A Structural Engineer should ' evaluate configurations and reinforcement requirements for structural loadings, shrinkage and temperature stresses. Our recommendations are considered generally ' consistent with the Standards of Practice. The potential for favorable foundation performance ' can be further enhanced by maintaining uniform moisture conditions during and after construction. 1 7.6.2 Foundations ' Preliminarily, structural frames of the proposed ' buildings can be supported on shallow footings founded on compacted fill and designed for the ' following net allowable bearing pressures: Minimum Footing Width Depth Allowable Bearing�� Type(in)if n) (lb/ft') ' Commercial Structures (1 S 2 Stories): ' Continuous 18 18 2600 Square 24 24 3000 FOUNDATION AND SLAB RECOMMENDATIONS FOR EXPANSIVE SOILS (ONE- AND TWO-STORY COMMERCIAL BUILDINGS) EXPANSION INDEX EXPANSION INDEX 0-20 21-60 VERY LOW EXPANSION LOW EXPANSION 1 -STORY All footings 12 in All footings 12 in FOOTINGS deep; 1 #4 bar top deep; 1 #4 bar top and bottom in and bottom in - continuous footings. - continuous footings. 2 -STORY All footings 18 in All footings 18 in FOOTINGS deep; 1 #4 bar top deep; 1 #4 bar top and bottom in and bottom in continuous footings continuous footings GARAGE DOOR 12 in deep; 1 #4 bar 12 in deep; 1 #4 bar GRADE BEAM top and bottom top and bottom EXPANSION INDEX EXPANSION INDEX 51-90 91-130 MEDIUM EXPANSION HIGH EXPANSION Exterior footings 18 Exterior footings 24 in deep, Interior in deep, Interior footings 12 in deep; footings 12 in deep; 1 #4 bar top and bottom 1 #5 bar top and bottom in continuous footings in continuous footings All footings 18 in deep; 1 #4 bar top and bottom in continuous footings 18 in deep; 1 #4 bar top and bottom Exterior footings 24 in deep, Interior footings 18 in deep; 1 #5 bar top and bottom in continuous footings. 24 in deep; 1 #5 bar top and bottom LIVING AREA 3 1/2 in thick; no mesh 3 1/2 in thick; 6X6 - 30/10 3 1/2 in thick; 6X6 - 10/10 4 in thick; 6X6 - 6/6 wire FLOOR SLABS required for expansion wire me•h et mid -height; wire mesh at mid -height; mesh at mid -height: #3 forces; no Case required; 2 in gravel or sand 4 in gravel or sand base; dowels from footing to slab 6 mil moisture barrier base;'6 mil moisture 6 mil moisture barrier at 36 in on center; 4 in plus 2 in sand barrier plus 2 in sand plus 2 in sand gravel or sand base; 6 mil barrier required. barrier required. moisture barrier plus 2 in sand GARAGE FLOOR 3 1/2 in thick; no mesh 3 1/2 in thick; 6X6 - 10/10 3 1/2 in thick; 6X6 - 10/10 4 in thick; 6X6 - 6/6 wire SLABS required for expansion wire mesh or quarter slabs; wire mesh or quarter slabs; mesh or quarter slabs; forces; no base required; Isolate from stem wall Isolate from stem wall Isolate from stem wall no moisture barrier footings; 2 in rock, gravel footings; 4 in rock, gravel footings; 4 in rock, gravel required. or sand base; no moisture or sand base; No moisture or sand base; No moisture barrier required. barrier required. barrier required. PRE-SOAKING OF Not required; Moisten prior Soak to 12 in depth to 4 Soak to 18 in depth to 5 Soak to 24 in depth to 5 SOILS IN LIVING to placing concrete. percentage points above percentage pointe above percentage points above dt GARAGE AREAS optimum moisture content. optimum moisture content. optimum moisture content. NOTES: 1) All depths are relative to lowest adjacent grade 2) Special design is required for very highly expansive soils (E.I. greater than 130) 3) These are typical minimum recommendations. Local conditions may dictate other controlling recommendations. Refer to body of report for site specific recommendations. 4) These recommendations are based on soil conditions alone and should not be considered a structural design. BLAB DOWEL (WHEN DEPTH OP EXTEN10R FOUNDATION AND SLAB DETAIL (NOT TO SCALE) WIRE DEPTH OF BITERIDR DEPTH OR PRE-SOAKED SOIL INTERIOR FOOTING 1 112 INCH BAND LAYER 'MOISTURE BARRIER CAPILLARY BREAK: 4 INCHES Of -BIB �ORAYEL OR WASHED COARSE BAND BAR FOUNDATION AND SLAB RECOMMENDATIONS I 11 1 [1 Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 - Page 27 Footing depths should be measured from the lowest adjacent grade. '.The allowable bearing values should be reduced by 1000 lb/ft2 in areas susceptible to liquefaction. These values -are -for dead-plus-live.loads-and. . may be increased by 1/3 for combinations of short-term vertical and horizontal forces. These recommendations are preliminary and should be examined during grading plan review when structural loads can be more closely estimated. Structures higher than 2.stories should be evaluated individually to provide appropriate recommendations. 7.6.3 Lateral Load Resistance Lateral loads against building foundations may be resisted by friction between the bottom of footings and the supporting soils. An allowable friction coefficient of 0.40 is recommended. Alternately, provided the footings are cast neat against compacted soils, an allowable lateral bearing pressure equal to 300 lb/ft2/ft of depth may be used, with a maximum lateral bearing pressure of 3000 lb/ft2. A combination of friction and lateral bearing pressure may be used provided the latter is reduced by 1/3. Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 28 These recommendations should be considered preliminary and examined during grading plan review. 7.6.4 Concrete Slabs/Flatwork Concrete slabs/flatwork in exterior building areas should be designed according to the expected soils conditions and anticipated usage. The recommendations presented on Figure 5, "Foundation and Slab Recommendations", should be applied where pertinent. For elastic design of heavily loaded slabs, a subgrade modulus of 250 lb/inz/in may be used for preliminary designs and estimates. In addition, construction joints should be provided at a minimum spacing of 20 ft O.C.E.W. to reduce the effects of any possible soil movement and concrete shrinkage. 7.6.5 Set -Backs Buildings located adjacent to the top or toe of a slope should be set back 1/2 the height of the slope, with a minimum and maximum set -back of 5 and 15 ft, respectively. The set -back distance should be measured horizontally from the face of the slope to the closest element of the structure. ' Bedford Properties October 18, 1989 ' 7.7 Soil Sulfate Content Job No: 08-6574-012-01-00 Log No: 9-3650 Page 29 ' Based on our experience with soils similar to those encountered on-site, we anticipate that Type I or II ' Portland Cement may be used in the construction of concrete foundations or slabs in contact with the ' subgrade soils. This condition should be confirmed by performing sulfate tests at the completion of rough grading. ' 7.8 Utility Trench Backfill ' It is our opinion that utility trench backfill ' consisting of the on-site sandy soils could be best place by mechanical compaction to a minimum 90% relative compaction (ASTM D 1557). As an alternative, granular material (S.E. > 30) may be, ' placed in lifts and thoroughly jetted in-place; however, jetting should only be considered to apply to trenches no greater than 2 ft in width. Following ' jetting operations, trench backfill should be thoroughly and mechanically compacted and/or wheel - rolled from the surface to a minimum 90% relative compaction. ' Raveling and some caving is expected in utility trenches. Therefore, for all trenches in excess of 5 ' ft in depth, laying back the trench sides to 1:1 (horizontal:vertical) or shoring in accordance with OSHA requirements is recommended. Bedford Properties October 18, 1989 7.9 Pavement Design Job No: 08-6574-012-01-00 Log No: 9-3650 Page 30 Our recommended preliminary pavement designs are based on laboratory testing of the soils which are expected to occur at finished subgrade in the parking areas. The laboratory testing consisted of particle size analyses and sand equivalent testing. Based on these results, we estimate that the subgrade soils will have a design R -Value of about 30. Of course, this may vary depending on the top 3 ft of subgrade soils in pavement areas, and the pavement sections below should only be used for preliminary estimates. The Traffic Index is assumed in accordance with typical engineering practice. Accordingly, we recommend the following preliminary pavement designs, subject to further evaluation and testing: Automobile Parking/Local Streets: T.I. = 4.5 4.5 -in Asphaltic Concrete over Compacted Native Subgrade Collector Streets: T.I. = 5.5 4 -in Asphaltic Concrete over 5 -in Aggregate Base Heavy Truck/Bus Areas: T.I. = 7.0 4 -in Asphaltic Concrete over 10 -in Aggregate Base or 6 -in Portland Cement Concrete over 4 -in Aggregate Base ' Bedford Properties October 18, 1989 I I 1 1 1 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 31 The top 6 in of subgrade in areas to be paved should be scarified, moistened to near optimum conditions and compacted to at least 95% relative compaction (ASTM D 1557). Aggregate Base should meet the requirements of Section 26 of the California Department of Transportation Standards -,and Specifications for Class II Aggregate Base and be compacted to a minimum 95% relative compaction (ASTM D 1557). Asphaltic Concrete should meet the requirements of Riverside County and be compacted to 95% relative compaction (CA 304). Portland Cement Concrete should meet the requirements of Section 302-6 of the Standard Specifications for Public Works Construction. 7.10 Retaining Walls Retaining walls should be preliminarily designed in accordance with the following criteria: EARTH PRESSURE (lb/ft'/ft of depth) Unrestrained Walls Restrained Walls Backfill Level 2:1 Sloping Level 2:1 Sloping Soil Tyne Backfill Backfill Backfill Backfill On -Site Sandy Silts/ Silty Sands 40 50 50 60 Select Granular/ On -Site Sands 30 40 40 50 Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 32 Walls subject to surcharge loads should be designed for an additional uniform lateral pressure equal to 1/3 or 1/2 the anticipated surcharge pressure for unrestrained or restrained walls, respectively. To relieve possible hydrostatic pressures on walls, the wall backfill should be drained using backdrains that daylight to proper drainage devices. Backfill soils should be properly compacted as outlined in Section 7.2.3, "Fill Placement", but should be compacted to no more than 95% relative compaction (ASTM D 1557). All on-site soils used for wall backfill should be approved by the Geotechnical Engineer. Wall footings should be designed as recommended in Section 8.6, "Foundation and Slab Recommendations". 7.11 Grading and Foundation Plan Review As foundation and grading plans are completed, they should be forwarded to us for review to assure conformance with the intentions of the recommendations contained in this report. 7.12 Construction Monitoring Continuous observation and testing under the direction of our Geotechnical Engineer and/or Engineering Geologist is essential to verify compliance with our recommendations and to confirm that the geotechnical conditions found are consistent with this .investigation. ' Bedford Properties October 18, 1989 ' 8.0 LIMITATIONS OF INVESTIGATION Job No: 08-6574-012-01-00 Log No: 9-3650 Page 33 ' Our analysis was performed using the degree of care and skill ordinarily exercised, under similar circumstances, by reputable Geotechnical Engineers and Geologists practicing in -this -or similar localities. No other warranty, expressed or implied, is made as to the conclusions and professional Aadvice included in this report. The previous samples taken and used for testing and the observations made are believed representative of the entire project. However, soils and geologic conditions can vary significantly between test borings. ' As in most projects; conditions revealed by excavation may be at variance with preliminary findings. If this occurs, the changed conditions must be evaluated by the Project .Geotechnical Engineer and Geologist and designs adjusted as required or alternate designs recommended. This report is issued with the understanding that it is the responsibility of the owner, or his representative, to ensure that the information and recommendations contained ' herein are brought to the attention of the architect and engineer for.the project and incorporated into the plans, ' and the necessary steps are taken to see that the contractor and subcontractors carry out such recommendations in the field.. ' This firm does not practice nor consult in the field of safety engineering. We do not direct the contractor's operations, and we cannot be responsible for anyone other Bedford Properties October 18, 1989 Job No: 08-6574-012-01-00 Log No: 9-3650 Page 34 than our own personnel on the site. Therefore, the safety of others is the responsibility of the contractor. The contractor should notify the owner if he considers any of the recommended actions presented herein to be unsafe. The findings of this report are valid as of the present date. However, changes in the conditions of a property can occur with the passage of time, whether they be due to natural processes or the works of man on this or adjacent properties. In addition, changes in applicable or appropriate standards may occur, whether they result from legislation or the broadening of knowledge. Accordingly, the findings of this report may be invalidated wholly or partially by changes outside our control. Therefore, this report is subject to review and revision as changed conditions are identified. I Bedford Properties Job No: 08-6574-012-01-00 October 18, 1989 Log No: 9-3650 Page 35 This opportunity to be of service is sincerely appreciated. If you have any questions, please call. Very truly yours, ICG Incorporated Inland Empire Division I I Roy!Aeshing, CEG 0 Chief Geologist Registration Expires 6-31-90 THIS DOCUMENT IS A REPRODUCTION OF OUR ORIGINAL REPORT. ISSUED PREVIOUSLY UNDER OUR FORMER NAME HIGHLAND GEOTECHNICAL CONSULTANTS. INC. William G. TurnezzjRCE 437dq�`, Project Engineer'; Registration Expfig s 3-31-93 ,. Reviewed By: 'one .M C1��,GE 223 Chief Engineer Registration Expires 12-31-90 WGT:TMC:RJR:vdp I I Roy!Aeshing, CEG 0 Chief Geologist Registration Expires 6-31-90 THIS DOCUMENT IS A REPRODUCTION OF OUR ORIGINAL REPORT. ISSUED PREVIOUSLY UNDER OUR FORMER NAME HIGHLAND GEOTECHNICAL CONSULTANTS. INC. I 1 I APPENDIX A REFERENCES I I I 1 1 I ' Biehler, S., Kovach, R.L., and Allen, C.R., 1964, Geophysical Framework of Northern End of Gulf of California Structural Province, in Van Andel, T.H., and Shor, G.G., Jr., editors, Marine Geology of the Gulf of California: American Association of Petroleum Geologists Memoir 3, p. 126-143; I Bolt, B.A., 1973, "Duration of Strong Motion", Proceedings of Fifth World Conference on Earthquake Engineering, Volume 2, No. 292, p. 10; ' Committee on Earthquake Engineering, 1985, Liquefaction of Soils During Earthquakes, National Research Council, National Academy Press, Washington, D.C., 240 p.; Department of Water Resources, State of California, 1971, "Water Wells and Springs in the Western part of the Upper Santa Margarita River Watershed", Bulletin No. 91-20, Prepared by ' United States Department of Interior Geological Survey; English, W.A., 1926, Geology and Oil Resources of the Puente Hills Region, Southern California: U.S. Geologic Survey Bulletin 768, p. 110; Gutenberg, B., and Richter, C.F., 1956, Earthquake Magnitude, Intensity, Energy and Acceleration (Second Paper), Bull. Seismo. Soc. Am., v. 46, No. 1, p. 105-146; Hileman, J.A., Allen, C.R., and Nordquist, J.M., 1973, Seismicity of the Southern California Region, 1 January 1932 to 31 December 1972: Pasadena, California, California Institute of Technology Seismological Laboratory, p. 487; Kennedy, K.P., 1977, "Recency and Character of Faulting Along the Elsinore Fault Zone in Southern Riverside County, California", California Division of Mines and Geology Special Report 131; Mann, J.J., Jr., 1955, Geology of a Portion of the Elsinore Fault Zone, California Division of Mines and Geology Special Report 43; Ploessel, M.R., Slosson, J.E., September 1974, Repeatable High ' Ground Accelerations from Earthquakes, California Geology; Riverside County Planning Department, 1976, Known Fissure Location (Approx), Area of Potential Subsidence, Seismic Safety and Safety General Plan Elements Technical Report by Envicom; Seed, H.B., and Idriss, I.M., 1982, Ground Motion and Soil Liquefaction During Earthquakes, Earthquake Engineering Research Institute Nomograph; I (Continued Page - 2) Toppozada, T.R., Parke, D.L., and Higgins, C.T., 1978, Seismicity of California 1900-1931: California Division of Mines and Geology Special Report 135, p. 39; Weber, F.H., Jr., 1963, Geology and Mineral Resources of San Diego County, California, Division of Mines and Geology, County Report 3, p. 35. UNPUBLISHED REFERENCES Highland Geotechnical Consultants, Inc., November 21, 1988, "Geotechnical Feasibility Investigation, 130± Acre Commercial Development, SEC Winchester Road & Ynez Road, Rancho California, Riverside County, California", Job No. 08-7555-004-00-00, Log No. 8-2860; Highland Geotechnical Consultants, Inc., February 13, 1989, "Geotechnical Feasibility Investigation, 1050± Acres - Rancho California Commerce Center, Rancho California, Riverside County, California", Job No. 08-6574-012-00-00, Log No. 9-3016 (Revised); Highland Geotechnical Consultants, Inc., April 25, 1989, "Preliminary Geotechnical Investigation, 23± Acre Pace Center, SEC of Ynez Road and Apricot Road Intersection, Rancho California, California", Job No. 08-6574-015-00-00, Log No. 9- 3242; Highland Geotechnical Consultants, Inc., May 9, 1989, "Supplemental Addition to the Geotechnical Feasibility Investigation, 1050± Acres - Rancho California Commerce Center, Rancho California, California", Job No. 08-6574-012-00-00, Log No. 9-3251 (Revised); AERIAL PHOTOGRAPHS County Flight, 1-28-62 Photos: 15, 16, 17, 406, 407, 408, 409 County Flight, 1-8-83 Photos: 359, 360, 361, 397, 398, 399 I L7 I I I I APPENDIX B LOGS OF BORINGS KEY TO LAGS CPT DATA 11 I I I I 1 a I 1 i 1 d 1 DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan W Z o a IL w j o IL a LOG OF BORING 1' W LL a a o U. J f 0 a N W a F Sheet 1 Ot 1 SOIL TEST i L WU ¢ 7 o Z= DESCRIPTION a q m O 'W 0 ALLUVIUM SILTY SAND: medium brownish gray, dry, very fine to medium, trace fine gravel @3' Becoming slightly clayey, 5 19 14 I l0 medium dense 15 @7' SAND: medium dense - No Recovery 10- 20 @11.5' Light brown, fine to medium, slightly moist, medium dense 15- 12 @17.5' Becoming predominantly coarse, moist, medium dense 20- 25 @25' SILTY SAND: blue -gray, fine to coarse, moist 30 18 @29.5' SAND: yellowish brown, coarse, thinly laminated, moist, occasional coarse gravel, medium dense Total Depth = 30.5' 35 No Groundwater Encountered DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan W L o a > a. a W_ o$ a LOG OF BORING 2• W LL Lz In o LL W N a H= U>. Sheet I of I SOIL TEST in -i in WU m ¢ 7 E o = Z DESCRIPTION O N W U M O 0 ALLUVIUM SANDY SILT: medium brown, dry, 9 98 trace coarse gravel @2' Grading into a fine sand, moist, medium dense 5- 10 105 @6' Denser 10 @9' SILTY SAND: medium grayish brown, moist @11.5' SAND: light gray, fine to coarse, moist, loose 15— @17.5' SANDY SILT: dark grayish brown, very fine to fine, moist, 20 medium dense 25- 30— @29.5' SAND: light brown coarse, slightly moist, medium dense @30' SANDY SILT: dark greenish gray, very moist to damp, medium dense Total Depth = 30.5' 35 No Groundwater Encountered [1 I I 11 I I I I I DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan w U o a IL mj r o� a LOG OF BORING 3* W ao N aw O F E of M N i r Sheet 1 of 2 SOIL TEST v" 1 aLU a d w0 m a j o E Z DESCRIPTION N m U H w 0 ALLUVIUM SANDY SILT: dark brown to brown, slightly moist 5 26Sli 8 110 Slightly 5' @ g y porous, occasional ?very 9 104 white caliche veinlets, medium 23 dense @6' SILTY SAND: medium brown slightly moist, medium dense 10 @8' Light brown to orangish brown, fine, trace coarse 16 @11.5' SAND; light gray dry to slightly moist, medium dense 15- 27 3 100 @16' SAND: light yellowish brown, coarse, medium dense 20 @19' Becoming brown, fine to coarse 21 @21.5' Becoming orangish brown and coarse to gravelly, slightly moist, medium dense 25 14 @26' SANDY SILT: light grayish green, moist, medium dense 30- 8 @31.5' Light gray coarse moist, loose 35— @37' GRAVELLY SAND: light gray, increasingly more difficult DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan . o a r 0. a W j o a LOG OF BORING 3' LW W az ai o U. a i Sheet 2 OL 2 Q a� W J uai W Q> F SOIL TEST WU J a j L a Z Z DESCRIPTION D N m O yO 40 moist, medium dense Total Depth = 40.5' No Groundwater Encountered 45—+ 50- 55- 60- 65- 70- 75— 7 I 1 I� 7 1 J I I 1 I DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan W o a � w� oIL a LOG OF BORING 4• w ao m F o LL F w E m rc � Z U y Sheet I of I SOIL TEST tllQ N J Nw QF WU m Q j E o = Z DESCRIPTION o N m U Hw 0 ALLUVIUM SANDY SILT: light brown, slightly moist, trace coarse, dense 5 47 5 118 @4' SILTY SAND: medium orangish brown, dry to slightly moist, dense 18 4 101 @7' SAND: light brown very fine, slightly moist 10 @10.5' SANDY SILT: medium to dark, 8 moist, loose @12.5' SAND: light brown, fine, slightly moist 15- 10 @17.5' Loose to medium dense 20- 25 ----------------------------- @25' SANDY CLAY: bluish gray, moist, stiff -------------------------- @27' SAND: dark brown, fine, medium dense 30 20 @29.5' Tan, coarse, slightly moist, gravelly in part, medium dense Total Depth = 30.5' No Grounwater Encountered 35— I JOB .. I I FIGURE. DATE OBSERVED: 9-21-88 METHOD OF DRILLING• 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan W o a } a W a r IL o a LOG OF BORING 5* w U. aZ to F o LL W N H= U y Sheet 1 Of I SOIL TEST EL a 4 U J m ¢ j E p Z DESCRIPTION 0 N m U H W o 0 ALLUVIUM SILTY SAND: light brown, dry, trace gravel, medium dense @3' SANDY SILT: orangish brown, 32 11 121 very fine to coarse, moist, dense 5 21 5 105 @6.5' SAND: light orangish brown, fine to coarse, slightly moist, medium dense 10 25 @11.5' GRAVELLY SAND: becoming tan to white, coarse, moist, medium dense 15- 21 @17.5' SILTY SAND: light gray, fine to coarse, moist, medium dense 20— 0----------------------------- - ------------------------------ @23' @23' CLAYEY SILT: light brownish 25 green, wet, stiff to dense - ------------------------------ @28.5' SAND: medium, very fine, 20 30 moist, medium dense Total Depth = 30.5' No Groundwater Encountered 35 7 I I I I I Ll DATE OBSERVED: 9-21-88 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: DRS GROUND ELEVATION: LOCATION: See Plot Plan W o a a. w o U. n LOG OF BORING 6' w WQ u" o a f L ¢ U a � z Uj 0 v Sheet 1 of 2 SOIL TEST N Q N j N W ¢ F WU "' 0 a j E o == DESCRIPTION O N m U 'W ° 0 ALLUVIUM SANDY SILT: light brown, dry, medium Maximum Density/ dense Optimum Moisture @1' Becoming slightly clayey Direct shear 5— 13 6 106 @4' SILTY SAND: dark brown, fine to Expansion coarse, slightly moist, medium dense Sand Equivalent Sieve 11 12 109 @° 7' Moist, medium dense 10- 14 @11.5' SAND: medium brown, dry, coarse to gravelly, medium dense 15- -10 @18.5' Black to dark gray, coarse 20—gravelly, dry @19' SILTY SAND: dark grayish brown, fine, very moist, medium dense 21 @22.5' SAND: light gray fine to coarse, trace gravel, dry, slightly 25—moist, medium dense 30 14 @29.5' SANDY SILT. dark greenish brown, very moist, medium dense 35 .. •ww �uwwww�a��swa. . DATE OBSERVED: 9-21-88 METHOD OF DRILLING: g" Hollow Stem Auger LOGGED By. DRS GROUND ELEVATION: LOCATION: See Plot Plan W i Z o a > I a W- o IL a LOG OF BORING 6' IL NLL W N N z ay Sheet 2 of 2 SOIL TEST L WU m a j p Z Z DESCRIPTION O d m U , 0_ 40- 45— 20 @44.5' SAND: dark brown, very fine, very moist to damp, highly micacious, medium dense Total Depth = 45.5' No Groundwater Encountered 50- 55- 60- 65- 70- 75— I I I I G I I 11 I DATE OBSERVED: 1-10-89 METHOD OF DRILLING: 8" Hollow Stem Aueer LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical Mao W o a > � a W j o a. a LOG OF BORING 1 W U- a= o N a mZ Q>. Sheet 1 Of I a W SOIL TEST WU i 2 j E 0 = Z DESCRIPTION O N m U HO 0 ALLUVIUM SILTY SAND: yellowish brown, slightly moist, loose to medium dense 27 7 122 5 _ . ------------------------------ SILTY SAND light yellowish brown, 16 7 106 slightly moist, medium dense ------------------------------ - SAND: gray, slightly moist, trace 10 12 9 113 silt, slightly moist, medium dense ----------------------------- SILTY SAND: yellowish brown, 15 moist, medium dense 15— ------------------------------ SILTY SAND: dark gray, moist, loose 5 PAUBA FORMATION 20 CLAYEY SILT: greenish gray, moist to wet, medium stiff SANDY SILT: yellowish brown, moist, dense 32 25- 30— ----------------------------- SAND: gray, wet, saturated, trace silt, dense 50 35 Total Depth = 35' Groundwater Encountered @33' DATE OBSERVED: 1-10-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical May w'Z ° Q. a a W j ° LOG OF BORING 2 LILI L LL � i a> Sheet I of 1 in w as SOIL TEST E W m a D D Z= DESCRIPTION O N m U t+ O 0 ALLUVIUM SILTY SAND: dark brown, moist, loose to medium dense 27 7 116 5 ----------------------------- SAND: yellowish brown, slightly' 32 7 114 moist, trace silt, dense ---- --------- ---- - ----- - - - - - - SILTY SAND: dark gray, moist, 10 15 20 medium dense ------- ---------------- SILTY SAND: brown, moist, medium 22 13 106 dense 15 -------gray--, -moist, oist, medium dense 19 20 PAUBA FORMATION SILTY SAND: yellowish gray, 55 moist, very dense 25 ----------------------------- SILTY SAND: yellowish brown, moist 40 30 Total Depth = 29.5' No Groundwater Encountered 35 I 1 [1 I DATE OBSERVED: 1-12-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical Map w z ~°o a s W. y o a LOG OF BORING 3 LL LL N~ N W N N Z Lu UQ y Sheet I of 2 SOIL TEST d U LU E R= W -i m ¢ 0 7 DESCRIPTION N m U H W ALLUVIUM SILTY SAND: brown, moist, loose Particle Size Analysis Sand Equivalent SILTY SAND yellowish brown, slightly 36 5 118 moist, dense Maximum Density Expansion 5 _ _ SAND: yellowish brown, slightly 19 .3 101 moist, medium dense 20 6 107 10 19 12 15 SAND: yellowish brown, moist, trace silt, medium dense 21 20 ----------------------------- SAND: yellowish gray, moist, trace gravels, medium dense 27 25— ------------------------------ SILTY SAND: brownish gray, moist, 24 medium dense 30— ------------------------------ SANDY SILT: yellowish brown, moist, — medium dense 27 35 SILTY SAND: brownish gray, moist, DATE OBSERVED: 1-12-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical Mao W U o a W'•� lox m LOG OF BORING 3 U LL U.z q m= a'' Sheet 2 of 2 N m SOIL TEST H jU 30 m Y O~ -j a. LL WO U J m Q j E p Z DESCRIPTION N m U H WO 40- 21 Total Depth = 42' No Groundwater Encountered 45- 50- 55- 60- 65- 70- 75— 11 I 'I r L I I DATE OBSERVED: 1-12-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical Mar) W a= 0. a a- r °a LOG OF BORING 4 IL o � N U) Z } Sheet 1 of 1 W SOIL TEST U~ E 1LL m 0 C Z 7 Z DESCRIPTION 0 N m- U H W 0 ALLUVIUM SILTY SAND: light brown, moist ----------------------------- SILTY SAND: dark brown, moist, 14 8 110 slightly porous, medium dense 5— ------------------------ SILTY SAND: light brown, moist, 13 10 115 slightly porous, medium dense 11 16 110 Consolidation 10 14 PAUBA FORMATION 15 SANDY SILT: yellowish brown, medium dense to dense 34 20 Total Depth = 19.5' No Groundwater Encountered 25- 30- 35— DATE OBSERVED: 1-12-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED BY: RCM GROUND ELEVATION: LOCATION: See Geotechnical Map W _O 0. s —r W` LOG OF BORING 7W LL " LL O y F U.EF N Qoa N Z _ a r Sheet I Of 2 W SOIL TEST WU m C 7 E D Z Z DESCRIPTION O N W U �+ ui O 0 ALLUVIUM SILTY SAND: dark brown, moist, loose I1 3 102 SAND: gray, fine to medium, 5 slightly moist, loose ------------------------------- 11 11 92 SILTY SAND: dark gray, moist, loose - ----------------------------- SAND: gray, fine to coarse, moist, 10 7 loose ----------------------------- SAND: gray, fine to medium, 15 7 96 moist, loose 15— ------------------------------ SANDY SILT: dark gray, wet, loose 6 20— ------------------------------ SAND: gray, fine to coarse, moist, 16 medium dense 25— ------------------ SANDY SILT: black, moist 23 ----------------------------- 30 SAND: gray, fine to coarse, moist, medium dense @30 Gravels 35 ----------------------------- 31 SILTY SAND: yellowish brown, moist, dense r n J I I LI [1 I I 1 1 DATE OBSERVED: 1-12-89 METHOD OF DRILLING: 8" Hollow Stem Auger LOGGED By: RCM GROUND ELEVATION: LOCATION: See Geotechnical Mal) wz o a s W o a LOG OF BORING 7 U.N a N= a� Sheet 2 of 2 _ W U) SOIL TEST U E IL Uj m a j p Z Z DESCRIPTION D N m U pq 0 40 Total Depth = 40.5' Groundwater Encountered @38' 45- 5505560657075 50- 55- 60- 65- 70- 75— , DEFINITION OF TERMS PRIMARY DIVISIONS SYMBOLS SECONDARY DIVISIONS GRAINED GRAVELS ORE THAN MORE HALF OF COARSE CLEAN GRAVELS (LESS THAN 5% FINES) SOME GW Well graded gravels, gravel -sand mixtures, little or no fines. 36 - 50 GP Poorly graded gravels, gravel -sand mixtures, little or no fines. GRAVEL 1 - 2 GM fines with ls, gravel -sand -silt mixtures, non -plastic fines or plasticity. SOILS FRACTION IS LARGER THAN MORE THAN NO. 4 SIEVE WITH FINES GC Clayey gravels, gravel -sand -day mixtures, plastic fines. HALF OF MATERIAL IS LARGER THAN NO. 200 SIEVE SANDS MORE THAN HALF OF COARSE FRACTION IS SMALLER THAN CLEAN SANDS (LESS THAN 5°b FINES) SW Well graded sands, gravelly sands, little or no fines. SP Poorly graded sands, gravelly sands, little or no fines. SAND SM Silty sands, sand -silt mixtures, non-pleatic fines or fines with low plasticity. NO. 4 SIEVE WITH FINES SC Clayey Bands, sand -clay mixtures, plastic tinea. FINE GRAINED SOILS SILTS AND CLAYS LIQUID LIMIT IS L Q S THAN 50% ML Inorganic silts and very fine sands, rock flour, silty or clayey fine sands or clayey silts with slight plasticity. CL Inorganic clays of low to medium plasticity, gravelly clays, sandy clays, silty clays, lean clays. OL Organic silts and organic silty clays of low plasticity. MORE THAN HALF OF MATERIAL SILTS AND CLAYS MH silts oils, si(tmicaceous or diatomaceous fine sandy or silty s. CH Inorganic clays of high plasticity, fat clays. IS SMALLER THAN NO. LIQUID LIMIT IS GREATER THAN 50% 200 ,SIEVE OH Organic clays of medium to high plasticity, organic silts. HIGHLY ORGANIC SOILS PI Peat and other highly organic soils. GRAIN SIZES BOULDERS COBBLES 'GRAVEL SAND SILTS B CLAYS COARSE I FINE COARSE I MEDIUM FINE 12" 3" 3/4" #4 #10 #40 #200 U.S. STANDARD SIEVE SIZES OR NUMBERS RELATIVE PROPORTIONS RELATIVE DENSITY CONSISTENCY DESCRIPTIVE TERM PERCENT TRACE 1 - 10 LITTLE 11- 20 SOME 21- 35 AND 36 - 50 SANDS, GRAVELS AND NON -PLASTIC SILTS BLOWS/FOOT VERY LOOSE 0 - 4 LOOSE 4 -10 MEDIUM DENSE 10 - 30 DENSE 30 - 50 VERY DENSE OVER 50 CLAYS AND PLASTIC SILTS STRENGTH** BLOWS/FOOT VERY SOFT 0 - 1/4 0 - 2 SOFT 1/4 - 1/2 2 - 4 FIRM 1/2 - 1 4 - 8 STIFF 1 - 2 8 - 16 VERY STIFF 2 - 4 16 - 32 HARD OVER 4 OVER 32 *:Number of blows of 140 pound hammer falling 30 -in to drive a 2 -in O.D. (1 -3/8 -in I.D.) Split -Spoon Sample (ASTM D 1586). Unconfined compressive strength in tons/ft as determined by laboratory testing or approximated by the Standard Penetration Test (ASTM D 1586), Pocket Penetrometer, Torvane, or visual observation. DRILLING NOTES: 1. ■ RING SAMPLE - Number of blows per foot of a 140 pound hammer falling 30 in. _ 2. STANDARD PENETRATION TEST - Number of blows per foot as; above*. 3. ® SHELBY TUBE - 3 in nominal diameter tube hydraulically pushed. 4. PP = Pocket Penetrometer (tone/ft2). KEY TO LOGS [] ❑ TIP RESISTANCE (Ton/ft'2) ❑ DEPTH (m) DATE , 01/03/se LOCATION , PC -1 FILE N 1 2 LOCAL FRICTION FRICTION RATIO �I I I i 1 P = O N E E R D R 2 L L S N G INTERPRETED CONE PENETRATION TEST DATA ?ROJECT NAME: HIGHLAND SOIL PROJECT NO. 6574012-0 ' LOCATION PC -1 DATE 01/03/88 AVERAGE UIIT WEIGHT DEPTH TO GROUND OF SOIL .(PCF)-- 125 WATER(FT)---------- 28.7 DEPTH �C FS FR SOI;. 3EHAVIOF. TYPE SPT D50 PHI DR PO SU __. TSF. TSF. N Ni NM DEG TSF TSF ' i 5.7 0.1 0.88 SANDY SILT AND SILT 2 8 0.03 -- --- 0.01 -- ' 0.4 .£ Cl.- =5.0 `_0.3 J.1 0.2 0.48 0.32 SILT? SAND SAND 7 8 20 21 0.09- 1.:3 - --- - 0.03 ).05 1.1 135.1 0.2 0.23 SAND 9 23 1.52 -- --- 0.07 -- 1.4 88.7 0.2 0.24 SAND 12 28 1.68 -- --- +0.09 -- ' 7 1. :36.4 0.4 0.27 SAND 19 41 1.71 -_ 0.11 2.1 194. 5 0.3 0.13 SAND "5 53 1.88 - __- - 0.13 2.4 194.2 0.2 0.0£ SAND 25 50 1.93 -- --- 0.15 -- 2.7 3.1 227.9 255.4 0.3 0.7 0.13 0.2E SAND SAND 29 33 56 62 1.97- 1.91 - --- - 0.17 -- 0.19 3.4 193.4 0.5 0.27 SAND 26 48 1.76 -- --- 0.21 -- 3.7 161.2 0.4 0.27 SAND 22 39 1.73 -- --- 0.23 -- ' 4.0 :28.7 0.5 0.37 SAND 18 32 1.59 48 90 0.25 4.4 _04.6 0.4 0.37 SAND 15 26 1.54 47 31 0.27, 4.7 8. 0.3 ].;_ SAND. :4 _2 1.58 46 78 0.29 -- 5.0 94.: 0.3 0.35 SAND 14 22 1.54 46 76 0.31 ' 1.3 88.2 0.3 0.36 SAND 13 20 1.50 -5 74 0.33 -- 5.7 89.4 0.3 C.36 SAND 13 20 1.51 45 74 0.35 -- 6.0 6.3 97.0 95.6 0.3 0.4 C.31 0.40 SAND SAND 14 14 21 21 1.60 1.48 45 45 76 75 0.38 0.40 6.7 88.1 0.3 0.36 SAND 13 19 1.50 44 72 0.42 -- 7.0 32.4 0.3 0.36 SAND. 12 17 1.48 44 70 0.44 -- ' 7.3 90.2 O.3 0.35 SAND 13 19 1.52 44 72 0.46 7.6 102.6 0.4 0.42 SAND 15 21 1.48 44 74 0.48 3.0 101.2 0.5 0.44 SAND 15 21 1.44 44 74 0.50 -- ' 8.3 8.6 =07.9 87.5 0.5 0.4 0.46 0.43 SAND SAND 16 13 22 13 1.44 1.40 44 43 75 68 0.52 =_ 0.54 8.9 84.E 0.2 0.29 SAND 12 1G 1.59 42 56 0.56 -- 9.3 82.0 0.3 0.30 SAND 12 1-5 1.56 42 65 0.58 - ' 9.6 83.3 0.3 0.36 SAND 12 16 1.49 42 55 0.60 9.9 101.0 0.4 0.38 SAND 15 18 1.53 43 71 0.62 10.2 127.6 0.6 C.44 SAND 18 23 1.52 44 77 0.64 -- 10.6 147.9 0.6 0.42 SAND 21 26 1.57 44 82 0.66 ' 10.9 159.6 0.8 0.47 SAND 23 28 1.54 45 84 0.68 P S O N E E R D R = L L 2 N G 7£PTH .0 FS FT. TSF. TSF 11.2 160.9 0.- .71_.:- 27 1.55 44 11. :-* 155.2 C.i _ 47.5 0.6 12.5 141., 0.7 _2.9 1`3.7 :_.6 I: c SAND 7 26 -_4.6 o. 31 0.74 -- 14.. 55.: 0.9 }.: :,.5 0.5 14.3 16.8 0.2 15.2 46.5 0.5 15.5 79.3 0.8 15.8 97,_ 1.2 16.1 150.2 1.0 16.5 101.1 0.3 13.8 43.4 1.5 17.1 60.4 1.4 17.5 96.7 1.0 _7.850.3 0.aZ :).8 ).48 SAND 0 21 _-.Z O.2 18.c iS.J 0.3 19.1 ;f.F.F 1.0 19.4 115.6 1.3 19.8 99.7 1.5 20.1 109.6 1.5 20.4 116.7 1.4 20.7 101.8 1.3 121.1 38.6 1.7 21.4 27.4 1.1 21.7 29.6 1.1 22.0 67.8 1.5 22.4 70.5 1.8 22.7 84.1 1.4 23.0 30.4 2.2 23.4 92.2 2.1 23.7 92.- 3... 24.0 102.8 4.1 24.3 85.4 4.1 24.7 82.8 4.3 25.0 106.5 5.0 INTERPRETED CONE,PENETRATION TEST DATA FR SOIL BEHAVICR TYPE SPT I5C PHI =P. PO SU , N N1 MM DEG TSF TSF. 0.45 SAND 23 27 1.55 44 34 0.77 -- 0.45 SAND 23 -7 1.56 44 33 n.;2 - - I: c SAND 22 26 1.52 44 31 0.74 -- 51 SAND 22 -5 1.47 44 79 0.76 -- 0.46 SAND 2023 1.52 43 71 0.73 -- 39 SAND 22 24 1.61 44 10 0.80 -- ;.zc SAND 23 __ _.55 44 0 0.aZ -- ).48 SAND 0 21 1.43 43 74 0.84 -- 0.75 SAND 17 13 :.0`_ 41 43 0.87 -- 1.58 SILTY SAND 16 17 0.08 38 42 0.89 -- 2.E7 SANDY SILT AND SILT 7 7 0.02 SI 20 0.91 -- 1.01 SILTY SAND 5 5 0.05 32 20 0.93 -- 1.10 SILTY SAND 13 13 0.09 37 24 0.95 -- 0.95 SAND 16 16 0.61 39 51 0.97 -- 1.26 SAND 22 _2 0.33 40 59 0.99 -- 0.65 SAND 23 23 1.34 42 74 1.01 -- 0.33 SAND 18 18 0.95 40 60 1.03 -- 3.46 SANDY SILT AND SILT 18 17 0.02 36 30 1.05 -- 2.32 SILTY SAND 13 18 0.06 38 39 1.G7 -- 1.32 SAND 19 18 0.68 40 56 1.09 -- 1.49 SILTY SAND 14 14 0.08 37 32 1.11 -- 3.42 CLAYEY SILT AND SILTY CLAY 10 10 --- -- --- 1.13.1:32 ..c'2 SANDY SILT AND SILT - :;,0_ 29 2O 1.15 -- _.:a SANDY SILT AND SILT f, 6 0.02 31 20 1.11 -- 0.33 SAND '.9 iii 0.94 40 58 .,1- 1.13 SAND 23 21 0.68 40 60 1.21 -- 1.47 SAND 26 23 0.13 39 53 1.23 -- 1.35 SAND 25 22 0.38 40 57 1.25 -- 1.17 SAND 23 21 0.65 40 59 1.28 -- 1.29 SAND 23 20 0.39 39 53 1.30 - 4.25 CLAYEY SILT AND SILTY CLAY 19 17 --- -- --- 1.32 2.33 3.98 CLAYEY SILT AND SILTY CLAY 13 12 --- -- --- 1.34 1.63 3.61 CLAYEY SILT AND SILTY CLAY 13 12 --- -- --- 1.36 1.77 2.20 SILTY SAND 20 17 0.06 37 36 1.38 -- 2.57 SILTY SAND 22 18 0.05 37 37 1.40 -- 1.61 SILTY SAND 23 19 0.09 33 43 1.42 -- 2.76 SANDY SILT AND SILT 25 2i 0.05 38 41 1.44 -- 2.27 SILTY SAND 27 22 0.07 38 45 1.46 -- 3.48 SAIIDY SILT AND SILT 33 27 0.03 38 45 1.48 -- 4.01 SANDY SILT AND SILT 42 34 0.02 39 49 1.50 -- 4.78 CLAYEY SILT AND SILTY CLAY 42.34 --- -- --- 1.52 5.24 5.14 CLAYEY SILT AND SILTY CLAY 44 36 --- -- --- 1.54 5.08 4.73 CLAYEY SILT AND SILTY CLAY 51 41 --- -- --- 1.56 6.56 P 2 O N E E R D R M L L Z N G INTERPRETED CONE PENETRATION TEST DATA DEFTH C FS FP, SUIT. BEHAVIOR TYPE SPT D50 FHI DR PO SU ' FT. TSF. TSF. 14 N1 MM DEG TSF TSF. 3_._ 3.90 CLAYEY SILT AND SILTY CLAY 26 21 --- -- --- 1.58 3_50 ?5.: 4C. 9 2.18 SANDY SILT AND SILT 12 10 ').JS 34 30..1.60 9.0 1.5 3.•69 SANDY SILT P.ND SILT 13 14 0.01 ?_ 20 1.62 -- ' =`: IT ?. 54.8 J.3 2.8 3.83 5.18 SANDY SILT AND SILT C:,AYEY SILT AND SILTY CLAY __ 31 17 24 0.01 =5 - 1.64 1.67 -- 3.32 _ 0 _._ ._ 4,27 CLAYEY SILT AND 3ILT7 '.'LAY 3. 'S -_1 - 1.69 '4.43 CLAY 63 53 --- -- --- 1.71 4.17 4.=? SANDY 71L =.i4D SIT' 5° 42 71 t4 1:73 ' c .. _ _.. -.n �0 ILTY SA14D 54 0. C8 42 i2 1.75 -- 2£.3 'S4. 7.1 2.'J1 SAND 74 55 0.56 :4 96 1.77 -- -11.7 "_ 3 6.5 5.0 --.--7 4.32 SAND SANDY SILT 'AND SILT 69 50 52 3'. 0.43 0.01 43 38 91 48 1.79 1.80 =_ 29. -2.3 3.8 5.22 CLAYEY SILT AND SILTY CLAY 39 29 --- -- --- 1.81 4.40 29.0 1"6.1 5.9 5.51 CLAYEY SILT AND SILTY CLAY 59 43 --- -- --- 1.82 6.51 ' 29.9 '3.6 3.4 4.62 CLAYEY SILT AND SILTY CLAY .36 26 --- -- --- 1.83 4_48 30.- 'O.:i 1.4 2.04 SILTY SAND 20 15 0.07 36 30 1.84 30.6 53'.3 Z.2 3.80 SANDY SILT AND SILT 25 18 0.01 35 23 1.85 -- =06.3 1.2 1.08 SAND 21 15 0.68 33 44 1.86 103.z' 4.2 4.02 SANDY SILT AND SILT 42 31 0.02 33 43 1.87 31.6 3S9.= 5.0 _.38 SAND 59 43 1.14 44 95 1.88 -- 3`.=222.3:' 3.59.0 :_ 9 3.25 2.40 SILTY SAND SAND 67 90 48 65 O.OG 0.33 41 4 75 36 1.89 1.90 =_ 4?C., 5.6 .14 SAND '•1 51 1.52 z 500 1.92 -- _.. SAND '6 54 1.53 45 100 1.93 -- _3.- °1i;;'_ =:..1 _,OO SAND 70 50 1.68 45 300 1.94 33.0 "',? 2 4.14 0.85 SAND 64 45 1.78 45 100 1.95 -- 33.9 457.4 0.2 0.04 SAND AND GRAVEL 46 33 4.81 45 100 1.96 -- ' 34.2 34.5 145.6 423.2 3.9 1.5 2.68 0.35 SILTY SAND SAND AND GRAVEL 42 49 30 35 0.07 3.06 39 44 55 100 1.97 1.98 =_ 31.9 236.1 3.', 1.29 SAND 48 34 1.07 42 85 1.99 -- 35.2 413.2 3.4 0.81 SA14D 56 39 1.74 44 100 2.00 -- ' 35.= 323.1 0.1 0.04 SAND AND GRAVEL 34 23 4.64 43 90 2.01 35.? 160.9 3.5 2.19 SILTY SAND 44 30 0.09 39 59 2.02 36.2 331.1 3." 0.98 SAND 49 34 1.45 43 91 2.03 -- 36.5 403.0 1.6 0.39 SAND AND GRAVEL 48 33 2.67 44 99 2.04 ' 26.3 2.4.3 .1 .7 0.65 SAND 37 26 1.60 42 81 2.05 37.2 2£0.5 0.1 0.05 SAND AND GRAVEL 29 20 4.43 42 83 2.06 -- 37.5 163.0 2.9 1.7£ SAND 39 27 0.26 39 59 2.07 -- ' ram (M) DATE 3 01/03/08 LOCATION , PC -2 FILE 0 3 FRICTION RATIO P = O N E E R D R = L L = N G INTERPRETED CONE PENETRATION TEST DATA PROJECT NAME: HIGHLAND SOIL PROJECT :40. 657401_-,i '-C CAT I CN P.--2 2ATE 01/03,188 ' A'IERAG£':NIT WEIGHT OF SOIL (PCF)-- 125 DEP^H TO GROUND WATEP.(FT)---------- 34.; DEP T IC 3CIL BEHAVIOR TYPE SPT --50 rHI ^P, PO .3U '-T. SF. TSF. LEG TSF TSF 0.1 =6.2 J.0 0.18 SILTY SAND 4 17 0.09- 0.01 0.4 25.8 :..2 0 .39 SILTY SAND 7 22 0.07 -- -- - 0.03 -- O.c 2'.1 0.2 0.74 SILTY SAND 8 20 0.38 -- --- 0.05 -- ' 1.1 1.4 40.0 90.2 0.2 0.1 0.45 0.09 SA14D SAND 9 12 23 2', 0.30 1.S8 -- -- --- --- 0.07 0.09 -- 1.7 116.9 0.4 :.34 SAND 16 36 1.30 -- --- 0.11 -- 2.1 105.0 0.6 0.59 SAND 17 35 1.27 -- --- 0.13 -- 2.4 94.4 0.6 0.61 SAND 15 31 1.19 -_ - C.15 2 98.0 0.4 ).40 SAND 14 28 1.49 - - 0.17 _- _.' 92.Y 0.4 C.48 SAPID 14 27 1.37 -- --- 0.19 -- ' 3.4 2.7 82.2 73,4 0.5 0.6 x.63 0.85 SAND SAND 14 14 25 26 1.09 0.67 -_ - - - 0.21 0.23 SAND 15 26 0.56 46 '1 0.25 -- :.: '4. 0.5 J.73 SAND i 24 0.80 -5 - 0.27 -- ' 4.' 71.3 0.7 C.91 SAND 15 23 0.__ 45 70 0.29 5.0 51.6 1.5 2.87 SANDY SILT AND SILT 18 29 0.04 43 51 0.31 -- 5..i �7.4 1.3 3.50 SANDY SILT AND SILT 16 25 0.01 41 51 0.33 -- ' 5.7 6.0 46.3 53.2 1.5 1.5 3.25 2.76 SANDY SILT SANDY SILT AND SILT AND SILT 18 18 28 0.02 42 56 0.35 27 0.04 42 59 0.38 0.3 54.2 1.3 2.43 SANDY SILT AND SILT 17 25 0.05 42 59 0.40 -- 6.7 46.2 1.5 3.31 SANDY SILT AND SILT 18 26 0.02 41 53 0.42 ' 7.0 31.4 1.3 4.14 CLAYEY SILT AND SILTY CLAY 15 22 -- --- 0.44 1.93 7.3 30.5 1.1 2.54 CLAYEY SILT AND SILTY CLAY 14 19 --- - -- --- 0.46 1.88 7.6 33.9 1.3 3.89 CLAYEY SILT AND SILTY CLAY 16 22 --- -- --- 0.48 2.09 8.0 27.1 1.2 4.31 CLAYEY SILT AND SILTY CLAY 14 19 0.50 1.66 ' S.3 21.0 0.7 3.38 CLAYEY SILT AND SILTY CLAY 10 13 --- -- --- - 0.52 1.28 8.6 23.0 0.7 2.99 SANDY SILT AND SILT 10 13 0.02 36 29 0.54 ' 8.9 9.3 43.4 30.0 1.1 1.0 2.53 3.43 SANDY SILT SANDY SILT AND SILT AND SILT 14.19 13 17 0.04 0.01 39 37 46 0.56 -= 35 0.58 3.6 32.6 1.0 3.16 SANDY SILT AND SILT 13 17 0.02 37 36 0.60 -- 9.9 16.2 0.7 3.66 CLAYEY SILT AND SILTY CLAY 9 11 --- -- --- 0.62 1.11 ' 10.2 19.6 0.6 3.00 SANDY SILT AND SILT 8 11 0_01 35 21 0.64 -- 10.6 19.0 0.6 3.11 CLAYEY SILT AND SILTY CLAY 8 10 --- 0.66 1.14 10.9 26.4 0.8 2.95 SANDY SILT AND SILT 11 13 0.02 36 27 0.68 -- P 2 O N E E R D R 1L L L 2 N G INTERPRETED CONE PENETRATION TEST DATA 11 DEPTz kC FS FP. SOIL EEFAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. ;d N1 MM DEG TSF TSF. , 11.1 1E.2 0.6 3.51 CLAYEY SILT AND SILTY CLAY 9 10 --- -- --- 0.70 1.10 11.5 13.7 -.7 1.74 SANDY SILT AND SILT 9 11 0.02 'S -2 C.72 -- , 11.3 l.c l.i 3.58 t-LAYEY SILT AND SILTY CLAY 14 17 --- -- --- 0.74 1.94 ''.8 3.57 CLAYEY SILT AND SILTY CLAY 10 12 --- -- --- 0.75 1.34 i2.. 26.4 1.3 -.7c SANDY SILT AND SZ= 16 18 0.04 38 40 0.78 -- , 12.9 13.9 1.4 1.76 SANDY SILT AND MLT 17 18 0.04 38 41 C.80 -- =_.1 70.C- 1.1 1.50 SILTY SAND i9 21 :.09 40 °•1 --.82 -- -._ ;4•- ..? 2.. SAND': SIL': AND 'SILT _4 15 -.CS - 36 0.84 -- , -. CLAYEY SILT AND SILTY -LAY 3 --- -- --- i.37 0.92 14.1 11._ 0.2 1.33 SANDY SILT AND SILT ; `_ 0.02 30 20 0.89 -- 14.5 18.7 0.5 2.61 SANDY SILT AND SILT 8 8 0.02 3 30 0.91 -- 14.8 12.1 0.4 3.21 ::LAY7_Y SILT AND SILTY CLAY 5 6 --- -- --- 0.93 0.70 ' 15.1 16.2 0.5 2.96 CLAYEY SILT AND SILTY CLAY 7 - --- -- --- 0.95 0.96 15.5 11.5 0.3 2.35 SANDY SILT AND SILT 5 5 0.01 30 20 0.97 -- 15.8 14.5 0.4 2.60 SANDY SILT AND SILT 6' 6 0.01 31 20 0.99 ' 16.1 13.5 0.4 3.03 CLAYEY SILT AND SILTY CLAY 6 6 --- -- --- 1.01 0.78 16.5 22.8 0.7 3..07 SANDY SILT AND SILT 10 10 0.01 33 20 1.03 -- 16.8 99.3 1.2 1.17 SAND 21 21 0.51 40 58 1.05 -- 17.1 93.1 1.3 1.41 SAND 24 23 0.14 40 55 1.07 -- , 17.5 91.8 1.4 1.55 SILTY SAND 24 24 0.10 40 54 1.09 -- 17.3 138.8 1.4 1.00 SAND 25 23 0.94 42 69 1.11 -- 13.1 220.1 1.4 0.61 SAND '2 30 1.51 44 37 1.13 -- , lE.i 23'x.3 1.3 0.53 SAND 33 31 1.64 44 90 1.15 -- :3.0.67 SAND 32 30 1.45 43 85 1.17 -- '9.1 1:14.4 1.4 -).Q-A 3n SAND 31 28 1.24 43 01 19.4 184.9 1.9 1.02 SAND 31 29 1.06 42 78 1.21 -- 19.: 210.1 2.2 1.03 SAND 35 32 1.12 43 83 1.23 -- 20.1 279.4 2.5 0.88 SAND 42 37 1.43 44 94 1.25 -- 20.4 '14.7 2.5 0.78 SAND 44 40 1.59 45 98 1.28 -- ' 20.7 274.0 1.8 0.66 SAND 38 34 1.61 44 92 1.30 -- 21.1 245.9 1.4 0.55 SAND 34 30 1.64 43 88 1.32 -- 21.4 186.2 1.3 0.69 SAND 28 25 1.37 42 76 1.34 -- ' 21.7 70.0 1.7 2.44 SILTY SAND 21 18 0.06 37 38 1.36 -- 22.0 158.4 1.7 1.05 SAND 28 24 0.96 41 69 1.38 -- 22.4 227.2 1.3 0.55 SAND 32 27 1.59 43 83 1.40 -- 22.7 174.9 1.8 1.02 SAND 30 25 1.03 41 72 1.42 -- , 23.0 101.2 2.0 2.01 SILTY SAND 28 24 0.08 39 49 1.44 -- 23.4 221.6 2.1 0.97 SAND 36 30 1.20 42 81 1.46 -- 23.7 227.7 2.5 1.11 SAND 38 32 1.09 43 82 1.48 -- , 24.0 268.4 2.8 1.03 SAND 42 35 1.27 43 89 1.50 -- 24.3 238.4 2.4 0.79 SAND 43 35 1.55 44 92 1.52 -- 24.7 297.3 1.9 0.64 SAND 41 33 1.68 44 92 1.54 -- ' 25.0 314.8 2.1 0.66 SAND 43 35 1.70 44 94 1.56 -- P 2 CD N E E R D R 2 L L = N G I INTERPRETED CONE PENETRATION TEST DATA DEPTH 1C FS ' FT. TSF. TSF 39.1 54.9 2.5 FR -5.3 311.1 1.9 PHI 7 305.. 1.6 25.. 2?1.5 1.6 MM -- 294.6 1.6 ':1, _6.0 .:34. 1.6 34 :".V- 244.0 _._ 1.58 -- 3.52 1.8 •40 32 4.7 1.: 92.1.60 --... _ 8 _;.. 1.5 SAND 2E.= _22.2 1.0 ' 23.5 28.9 1`3.8 ::06.0 0.9 1.0 0:54 29.3 256.= 1.2 1.77 29.5 235.4 1.1 ' 29.9 211.1 1.0 30 30... 215.`_ 1.9 1.67 30.6 209.4 1.0 33 30.9 195.1 2:3 ' 31.3 :29.8 .43 SAND 31.:, 1'_0.7 1.3 4C 119 131.3 1.4 ' SILTY SAND 20 15 C.39 36 34 1.73 -- '_.52 SAND? SILT AND SILT 18 "_3 33.2 213.2 1.0 1.75 X3.6 208.1 1.0 21 33.9 203.9 1.3 51 34.2 34.5 157.3 93.7 3.8 2.0 SAND 34.5 88.2 1.9 40 35.2 121.6 3.2 ' 35.5 143.3 4.8 1.59 35.9 206.1 2.8 -- 36.2 153.8 4.1 25 36.5 74.7 2.5 1.83 36.8 50.9 1.0 32 37.2 62.2 3.1 78 37.5 118.1 4.2 ' 37.5 34.2 4.5 41 38.2 37.3 1.7 0.89 38.5 36.1 1.3 1.26 38.8 43.5 1.4 -- 0.50 SAND 30 39.1 54.9 2.5 FR SOIL BEHAVIOR TYPE SFT D50 PHI DR PO SU N N1 MM DEG 9 TSF TSF. 0.61 SAND 42 34 1.74 44 93 1.58 -- 3.52 SAND •40 32 1:81 44. 92.1.60 --- 0.53 SAND 39 31 1.76 43 901.62 -- 0:54 SAND 39 31 1.77 43 91 1.64 -- 0.56 SAND 38 30 1.72 43 39 1.67 -- 0.48 SAND 33 26 1.70 42 S2 1.69 -- .43 SAND =4 19 1.53 4C 66 1.71 -- :.53 SILTY SAND 20 15 C.39 36 34 1.73 -- '_.52 SAND? SILT AND SILT 18 "_3 i;.02 33 20 1.75 -- 0.84 SAND 21 16 1.06 39 51 1.77 -- 0.54 SAND 23 17 1.47 40 62 1.79 -- 0.48 SAND 29 22 1.59 41 73 1.81 -- 0.46 SAND 34 25 1.75 42 82 1.83 -- 0.47 SAND 32 24 1.69 42 78 1.85 -- 0.49 SAND 30 22 1.60 41 73 1.87 -- 0.89 SAND 34 25 1.26 41 74 1.89 -- 0.50 SAND 30 21 1.59 41 72 1.91 -- :.17 SAND 34 25 0.94 40 69 1.93 -- 1.67 SAND 33 23 0.17 38 51 1.95 -- 1.66 SILTY SAND 29 21 0.10 38 44 1.97 -- 1.06 SAND 24 17 0.85 38 50 2.00 -- 1.23 SAND 21 15 0.35 37 27 2.02 -- 0.83 SAND 16 1.11 38 52 2.04 -- 0.91 SAND 25 17 1.08 39 56 2.06 -- 0.46 SAND 30 2: 1.65 41 72 2.08 -- 0.48 SAND 29 20 1.60 40 69 2.10 -- 0.63 SAND 30 20 1.45 40 68 2.12 -- 2.41 SILTY SAND 44 29 0.08 39 57 2.14 -- 2.11 SILTY SAND 26 18 0.08 36 36 2.16 -- 2.15 SILTY SAND 25 17 0.07 36 34 2.17 -- 2.67 SILTY SAND 36 24 0.06 38 45 2.18 -- 3.36 SANDY SILT AND SILT 46 30 0.04 38 52 2.19 -- 1.37 SAND 39 25 0.80 40 68 2.20 -- 2.50 SILTY SAND 46 30 0.08 39 58 2.21 -- 3.40 SANDY SILT AND SILT 27 18 0.03 35 27 2.22 -- 2.00 SILTY SAND 15 10 0.06 33 20 2.23 -- 4.97 CLAYEY SILT AND SILTY CLAY 33 21 --- -- --- 2.24 3.74 3.55 SANDY SILT AND SILT 41 27 0.04 37 44 2.25 4.74 CLAYEY SILT AND SILTY CLAY 46 29 --- -- --- 2.26 5.74 4.48 CLAYEY SILT AND SILTY CLAY 19 12 --- -- --- 2.27 2.18 3.63 CLAYEY SILT AND SILTY CLAY 16 10 --- -- --- 2.28 2.10 ' 22 SANDY SILT AND SILT 17 11 0.02 32 20 2.29 4.56 CLAYEY SILT AND SILTY CLAY 27 17 --- -- --- 2.30 3.28 P = O N E E R D R 2 L L = N G INTERPRETED CONE PENETRATION TEST DATA DEFTF ?C FS FR SOI! BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF• a N N1 MM LEG TSF TSF. 39.5 '0.0 2.7 3.85 SANDY SILT AND SILT 29 19 0.02 35 24 2.31 -- 39.3 150.1 3.6 2.02 SAND 47 30 0.1l 39 GO 2:32 -- 40.1 195.0 1.7 0.89 SAND 31 20 1.20 40 54 2.33 -- 40.5 L'3.5 3.6 4.30 CLAYEY SILT AND SILTY CLAY 38 24 --- -- --- 2.34 5.06 X0.8 331.1 ?.7 1.40 SAND 56 35 1.06 42 36 2.35 -- 41.1 37'.0 2.4 0.63 SAND 49 31 1.83 43 Z1 2.36 -- 41.4 291.6 3.1 0.-1 SAND 41 2: 1.61 41 2,1 2.37 -- 41., __6.9 SILTY SAND 5- 36 ,.1 ?3 2.38 -- __.: 34.8 4.6 1.51 SAND 54 33 0.78 41 80 2.39 -- 42.1 354.9 2.6 0.74 SAND 48 30 1.71 42 88 2.40 -- 42.' 342.° 2.1 0.60 SAND 45 28 1.81 42 87 2.41 -- 43.1 3'_5.2 1.5 0.44 SAND 43 26 1.94 42 86 2.42 -- 43.4 313.3 1.4 0.44 SAND 41 25 1.91 42 84 2.43 -- 43.7 302.7 11A It 2 UI/Ud/ee ' - LOCATION # PC -3 FILE X 4 LOCAL FRICTION FRICTION RATIO 0 TIP RESISTANCE (Ton/ft-2) 500 O (Ton/ft-2) 5 O (PERCENT) ' O H ' DEPTH CEJ 1 1 p 1 I II 1 P = O N E E R D R 2 L L = N G INTERPRETED CONE PENETRATION TEST DATA PROJECT NAME: HIGHLAND SOIL FROJECT NO. 6574012-0 10CATION PC -3 DATE 01/03/88 .VER:AGE UNIT 7.4EIGHT 0£ SOIL P PCF) -- 125 DEPTH �C FS FR SOIL BEHAVIOR TYPE £T. TSF. TSF. 3.1 0.0 1.92 ' AYEY SILT AND SILTY ;:LAY .4 21,.2 :.0 0.15 SILTY SAID C.8 24.5 0.1 0.20 SILTY SAND 1.: 18.4 0.1 0.44 SILTY SAND 1.4 20.4 0.4 1.76 SA14DY SILT AND SILT 1.7 23.4 0.8 2.29 SANDY SILT AND SILT 2.1 39.1 1.1 2.,1 SANDY SILT AND SILT 2.4 50.6 0.9 1.72 SILTY SAND 2.7 51.0 0.6 1.20 SILTY SAND 3.1 73.1 0.5 0.64 SAND 3.4 53.9 0.7 0.77 SAND 3.7 80.3 i.0 l.;:i SAND 4.0 :58.0 1.3 1.88 SILTY SAND 4.i 44.9 _.2 3.43 SANDY SILT AND SILT 4.7 5_.E 1.:) _.33 SILTY SAND 2.0 _5.a 1.3 2.35 SILTY SAND 5.3 `_2.4 1.2 2.33 SILTY SAND 5.7 70.1 1.2 1.67 SILT? SAND 6.0 72.1 1.3 1.80 SILTY SAND 3.3 31.0 1.0 1.25 SAND 6.7 75.5 1.0 1.35 SILTY SAND 7.0 64.0 1.1 1.70 SILTY SAND 7.3 .18.3 1.6 3.33 SANDY SILT, AND SILT 7.6 94.7 0.9 '0.90 SAND 8.0 89.1 0.7 0.74 SAND 3.3 55.3 0.6 0.90 SAND 8.6 35.1 1.0 2.93 SANDY SILT AND SILT 8.9 40.2 1.0 2.39 SANDY SILT AND SILT 9.3 81.7 0.6 0.70 SAND 9.6 80.3 0.6 0.72 SAND 9.9 72.8 0.7 0.92 SAND 10.2 102.1 0.5 0.52 SAND 10.6 99.3 0.4 0.44 SAND 10.9 98.5 0.4 0.41 SAND SPT D50 PHI DR PO SU I d N1 MM CEG TSF TSF 4 --- -- --- 0.01 0.13 7 22 0.10 -- --- 0.03 -- 7 17 0.09 -- --- 0.05 -- 5 13 0.08 -- --- 0.07 -- 7 16 0.04 -- --- 0.09 -- 11 24 0.04 -- --- 0.11 -- 14 29 0.03 -- --- 0.13 -- 15 30 0.07 -- --- 0.15 -- 14 27 0.09 -- --- 0.17 -- 13 24 0.99 -- --- 0.19 -- 16 30 0.99 -- --- 0.21 -- 20 35 0.24 -- --- 0.23 -- 19 34 0.07 45 70 0.25 -- 18 31 0.02 43 59 0.27 -- 16 2' 0.07 44 63 0.29 -- 17 28 0.05 �3 63 0.31 -- 16 26 0.05 43 60 0.33 -- 19 30 0.08 44 67 0.35 -- 20 31 0.08 44 68 0.38 -- <0 30 0.19 44 70 0.40 -- 20 30 0.10 43 68 0.42 -- 18 26 0.08 42 62 0.44 -- 19 27 0.02 41 53 0.46 -- 18 25 0.82 44 72 0.48 -- 15 21 0.99 43 70 0.50 -- 14 20 0.42 42 60 0.52 -- 13 18 0.03 38 41 0.54 -- 13 17 0.04 39 43 0.56 -- 14 18 1.00 42 65 0.58 -- 14 18 0.95 42 63 0.60 -- 15 19 0.54 41 60 0.62 -- 16 19 1.35 43 70 0.64 -- 15 18 1.44 42 69 0.66 -- 14 17 1.48 42 68 0.68 -- P S O N E E R D R S L L S N G INTERPRETED CONE PENETRATION TEST DATA DEPTH CIC F3 FT. TSF. TSF i1.2 96.0 0.4 D50 75.5 0.6 i. 36._ 0.9 12.2 _0.4 1.0 Ni MM DEG TSF TSF. l3... _3-.4 _.... 14 1?4.. 1.52 - - 36 0.70 :4._ 17.4 1.1 14.5 33.6 0.2 14.8 105.1 0.6 15.2 108.:, 0.6 15.5 114.5 0.7 i5.8 14 0.04 16.1 =00.9 1.5 16.5 211.1 1.3 16.8 194.1 1.0 1;.1 174.1 0.9 17.5 153.0 0.7 17.3 150.3 0.7 18.1 159.3 0.8 13.4 151.c 0.7 18.3 -48.5 C.- C.- 19- 19.1 1:3.3 0.7 19.4 35.2 1.0 19.8 29.3 1.3 20.1 48.3 1.6 20.4 181.4 1.4 20.7 225.9 2.7 21.'_ 219.1 2.8 21.4 161.2 2.4 21.7 142.8 2.3 22.0 66.7 2.3 22.4 83.8 1.9 22.7 210.: 1.6 23.0 257.3 2.5 23.4 240.1 2.0 23.7 246.7 2.3 24.0 236.1 1.5 24.3 230.3 1.4 24.7 223.1 1.7 25.0 224.5 1.5 1 FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU N Ni MM DEG TSF TSF. t G.-7 SAND 14 17 1.52 42 36 0.70 -- 0.77 SAND 14 16 0.32 41 57 0.72 -- 2.53 SANDY SILT AND SILT 12 14 0.04 37 34 0.74 -- 4.70 CLAYEY SILT AND SILTY CLAY 12 13 --- -- --- 0.76 1.23 0.93 SAND 21 24 0.95 43 72 0.78 -- , 0.88 SAND 2'_ 26 1.07 43 76 0.80 -- 0.96SAND 24 26 0.97 43 1 0.82 -- 0.32 SAND _1 2 1.07 =2 '1 0.84 -- ' =G SAND i8 19 0.82 =i 61 0.87 -- 2.88 SANDY SILT AND SIL': 14 15 0.03 36 30 0.89 -- 2.47 SANDY SILT AND .SILT 11 12 0.04 36 26 0.91 -- 0.56 SAND 16 17 1.31 41 03 0.93 -- 0.57 SAND 17 17 1.31 41 64 0.95 -- 0.60 SAND 18 18 1.29 41 65 0.97 -- 0.79 ,SAND 25 25 1.22 43 76 0.99 -- ' 0.74 SAND 31 31 1.34 44 85 1.01 -- 0.60 SAND 31 30 1.50 44 37 1.03 -- 0.54 SAND 28 27 1.52 43 83 1.05 -- 11.54 SAND 25 25 1.49 43 78 1.07 -- 0.48 SAND 22 21 1.51 42 73 1.09 -- 0.46 SAND 22 21 1.53 42 72 1.11 -- 0.49 SAND 23 22 1.52 42 74 1.13 -- , 0.47 SAND 22 20 1.53 42 72 1.15 -- -45 SAND 21 20 1.54 42 70 1.17 -- 3.50 SAND 20 19 1.47 41 67 1.19 -- 1.13 SAND 19 17 0.42 39 48 1.21 -- , 4.54 CLAYEY SILT AND SILTY CLAY 15 14 --- -- --- 1.23 1.75 . 3.36 SANDY SILT AND SILT 19 17 0.02 26 28 1.25 -- 0.78 SAND 28 25 1.27 42 76 1.28 -- ' 1.20 SAND 39 35 1.01 43 35 1.30 -- 1.28 SAND 39 34 0.92 43 83 1.32 -- 1.48 SAND 34 29 0.54 41 70 1.34 -- ' 1.62 SAND 33 29 0.31 41 65 1.36 -- 3.48 SANDY SILT AND SILT 25 22 0.03 37 36 1.38 -- 2.30 SILTY SAND 24 21 0.07 38 43 1.40 -- 0.75 SAND 32 27 1.36 42 80 1.42 -- ' 0.99 SAND 40 34 1.28 43 88 1.44 -- 0.85 0.95 SAND SAND 36 38 30 32 1.36 1.29 43 43 84 85 1.46 1.48 -- -- ' 0.61 SAND 34 28 1.56 43 83 1.50 -- 0.62 SAND 33 27 1.54 42 82 1.52 -- 0.78 SAND 34 27 1.37 42 80 1.54 -- 0.68 SAND 33 27 1.47 42 80 1.56 -- ' I P = O N E E R D R 2 L L 2 N G 1 INTERPRETED CONE PENETRATION TEST DATA DEPTH tC FS FT. TSF. TSF ' 29.9 136.7 4.3 30.2 159.6 3.4 -'0.5 388.4 ...6 35.3 339.3 2.5 ' 25. 289.7 2.4 SU 36.0 325.8 2.1 ' 28.9 356.1 2.0 0.5 ' `6.3 .:6.G 366.4 `.1 .3 SAND '7.0 --58.. 2.7 1.43 3..- -=9.7 3.5 ' 29.9 136.7 4.3 30.2 159.6 3.4 -'0.5 388.4 ...6 30.9 259.0 2.2 ' 33.0 .42.4 1.5 SU 2€. 191.3 1.9 ' 28.9 140.2 227,.6 2.0 0.5 ' 29.3 151.3 2.2 SAND 29.6 68.0 2.7 ' 29.9 136.7 4.3 30.2 159.6 3.4 -'0.5 388.4 ...6 C.7 30.9 259.0 2.2 ' 31.3 157.1 r SU 31.6 ^01.9 ...3 ' 31.9 ;8.0 2.6 ' 3 139.6 3.4 SAND '2.6 51.7 1.3 C.7 35.5 55.1 2.2 35.9 104.1 3.5 36.3 80.8 2.3 .:3. z.2.^ 1:6 ' 33.6 31.7 1.1 SU 33.9 38.1 1.1 ' 34.2 34.5 78.6 28.6 2.1 1.5 ' 34.9 25.1 0.8 SAND 35.2 30.7 1.0 35.5 55.1 2.2 35.9 104.1 3.5 36.3 80.8 2.3 ' 38.8 193.8 3.4 39.1 56.1 2.3 TR 36.5 86.3 2.7 D50 36.8 .3.04.0 3.0 SU 27.3 346.0 3.7 N 37.5 384.0 3.9 ' 37.8 373.4 4.6 SAND 38.2 356.7 4.2 1.43 38.5 317.1 3.1 ' 38.8 193.8 3.4 39.1 56.1 2.3 TR SOIL BEHAVIOR TYPE SPT D50 ?HI DR PO SU N N1 MM DEG TSF TSF. 0.90 SAND 43 34 1.43 43 91 1.58 -- 0.82 - SAND 42 33 1.50 43 90 1.60 -- 0.69 SAND 41 33 1.63 43 91 1.62 -- 0.73 SAND 40 32 1.58 43 89 1.64 -- 0.86 SAND 40 31 1.41 43 86 1.67 -- =.91 SAND 39 30 1.35 43 84 1.69 -- 1.97 SAND 40 31 _.30 42 34 1.71 -- _.91 SAND -37 28 1.27 42 80 1.73 -- 1.76 :AND 36 27 0.1G 39 SS 1.75 -- J.97 SAND 32 34 1.12 41 70 1.77 -- 1.41 SAND 30 22 0.52 39 57 1.79 -- 0.41 SAND 31 23 1.71 42 77 1.81 -- 1.47 SAND 32 24 0.51 39 60 1.83 -- 3.92 SANDY SILT AND SILT 29 21 0.01 36 29 1.85 -- 3.17 SANDY SILT AND SILT 42 31 0.05 39 54 1.87 -- _.13 SILTY SAND 43 31 0.09 40 61 1.89 -- 0.88 SAND 43 31 1.44 42 86 1.91 -- 0.85 SAND 39 28 1.41 42 81 1.93 -- 1.39 SAND 32 23 0.61 39 59 1.95 -- 3.43 SANDY SILT AND SILT 30 21 0.03 36 34 1.97 -- 3.81 SANDY SILT AND SILT 28 20 0.02 -27 2.00 -- 2.42 SILTY SAND 39 37 0.08 39 53 2.02 -- 3.40 SANDY SILT AND SILT 20 14 0.02 34 20 2.04 -- 1.93 SILTY SAND 11 7 0.05 _2 30 2.06 -- '-.61 SANDY SILT AMD SILT 19 13 0.=5 - -' 2.08 3.53 CLAYEY SILT AND SILTY CLAY 14 10 --- -- --- 2.10 1.85 2.81 SANDY SILT AND SILT 14 9 0.03 32 20 2.12 -- 2.68 SILTY SAND 24 16 0.05 36 30 2.14 -- 5.07 CLAY 29 19 --- -- --- 2.16 1.65 3.07 SANDY SILT AND SILT 10 7 0.02 30 20 2.18 -- 3.16 SANDY SILT AND SILT 12 8 0.02 31 20 2.20 -- 3.90 SANDY SILT AND SILT 24 16 0.01 34 20 2.22 -- 3.31 SANDY SILT AND SILT 35 23 0.04 37 39 2.24 -- 2.89 SA14DY SILT AND SILT 26 17 0.05 35 30 2.26 -- 3.10 SANDY SILT AND SILT 28 18 0.04 36 32 2.28 -- 3.98 SAND 46 29 1.39 42 83 2.30 -- 1.08 SAND 52 33 1.39 42 88 2.32 -- 1.02 SAND 56 35 1.51 43 92 2.34 -- 1.24 SAND 58 36 1.29 43 91 2.36 -- 1.16 SAND 55 34 1.33 42 89 2.38 -- 0.97 SAND 47 29 1.43 42 84 2.41 -- 1.77 SAND 43 27 0.40 39 62 2.43 4.08 CLAYEY SILT AND SILTY CLAY 25 16 --- -- --- 2.45 3.35 P = O N E E P- D R S L L 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. :I N1 MM DEG 0 TSF TSF 39.5 -5.4 1.5 '-.60 SANDY STILT AND SILT 18 11 C.05 33 =0 2.47 -- 9.2 :9.9 Z.7 4.46 CLAYEY SILT AND SILTY CLAY 29 17 --- -- --- 2.49 3.59 40.: `_7.� unI. . uu.1.. LOCATION PC -4 FILE N 5 LOCAL FRICTION FRICTION RATIO 2) SDD D (Ton/ft-2) 5 O (PERCENT) u D ' DEPTH W 1 1 1 I I E P 2 (D N E E R D R 2 L L 2 N G INTERPRETED CONE PENETRATION TEST DATA PROJECT NAME: HIGHLAND SOIL PROJECT_ 140. = 6574012-0 LOCATION PC -4 DATE 01/03/88 AVERAGE UNIT WEIGHT OF SOIL PPCF)-- 125 ' DEPTH QC FS FP. SOIL BEHAVIOR. TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. ?I N1 MM DEG TSF TSF 1.0 0.0 4.00 CLAY 1 4 --- -- --- 0.01 0.06 1.4 _0.5 0.0 0.20 SILTY SAND 6 16 0.09 -- --- 0.03 -- 0.8 18.5 0.1 0.32 SILTY SAND 5 13 0.09 -_ - 0.05 1.1 47.0 0.1 0.19 SAND 7 17 1.48 - - C.07 1,4 106.2 0.2 0.17 SAND 14 33 1.79 -- --- 0.09 -- 1.7 110.9 1.2 1.04 SAND 21 46 0.76 -_ - 0.11 ' 2.1 58.4 2.5 2.79 SILTY SAND 27 57 0.05 - - =_ 0.13 2.4 81.7 1.4 1.66 SILTY SAND 22 45 0.09 -- --- 0.15 -- ' =.7 3.1 90.5 96.9 1.8 2.0 1.99 2.03 SILTY SAND SILTY SAND 25 27 50 51 0.08 0.08 -_ - - - 0.17 =_ 0.19 3.4 103.5 1.4 1.30 SAND 23 43 0.38 - - 0.21 ].7 99.4 0.9 0.91 SAND IS 33 0.85 -- --- 0.23 -- 4.0 81.'. 0.6 0.75 SAND 15 250.92 46 74 0.25 ' 4.4 4.' 0.4 0.62 SAND 12 20 0.91 45 58 0.27 4.7 -0.6 0.`- 0.65 SAND 12 21 0.95 45 70 C.29 -- ' 5.3 g7,8 84.3 0.6 1.0 0.71S 1.22 AND SAND :5 20 C3 32 1.03 0.28-45 45 75 73 0.31 -- 0.33 5.7 88.5 1.2 1.39 SAND 23 36 0.10 45 74 0.35 -- 6.0 99.4 1.2 1.23 SAND 22 33 0.44 45 76 0.38 -- 6.3 103.5 1.3 1.29 SAND 23 35 0.40 45 77 0.40 6.7 109.3 1.4 1.26 SAND 24 35 0.48 45 78 =_ 0.42 7.0 107.5 1.3 1.21 SAND 23 33 0.53 45 77 0.44 -- 7.3 102.1 1.3 1.23 SAND 22 32 0.46 44 75 0.46 ' 7.6 99.4 1.3 1.27 SAND 22 31 0.39 44 74 0.48 8.0 97.3 1.2 1.21 SAND 21 29 0.45 44 73 0.50 -- 9.3 101.6 1.2 1.22 SAND 22 30 0.47 44 73 0.52 8.6 105.3 1.3 1.21 SAND 22 30 0.52 44 74 0.54 =_ 8.9 122.4 1.4 1.14 SAND 24 31 0.71 44 78 0.56 9.3 126.6 1.5 1.17 SAND 25 32 0.70 44 78 0.58 -- 9.6 124.6 1.4 1.10 SAND 24 30 0.77 44 77 0.60 ' 9.9 111.1 1.1 1.03 SAND 21 26 0.78 43 73 0.62 10.2 96.7 1.1 1.14 SAND 20 25 0.53 42 68 0.64 -- 10.6 73.7 1.0 1.37 SILTY SAND 20 24 0.09 41 59 0.66 10.9 33.5 1.1 3.34 SANDY SILT AND SILT 14 17 0.02 37 34 0.68 INTERPRETED CONE PENETRATION TEST DATA LEPT_F. FT. C'C TSF. FS TSF. FR % SOIL BEHAVIOR TYPE SPT N N1 D50 MY. PHI DEG DR PO TSF SU TSF, , 11.'2 15.1 0.5 3.04 CLAYEY SILT AND SILTY CLAY 7 8 --- -- --- 0.70 0.90 11.5 2.6 D.3 2.46 SANDY SILT AND SILT 5 6 0.01 32 20 0.72 -- t 11.9 14.4 0.4 2.50 SANDY SILT A14D SILT 6 7 0.02 32 20 0.74 -- 12.2 16.4 0.5 3.17 CLAYEY SILT AND SILTY CLAY 3 S- --- -- --- 0.76 0.98 12.= 14.1 C.4 2.84 CLAYEY SILT AND SILTY CLAY 6 7 --- -- --- C.. 78 0.83 ' 12.= 13.0 0.4 2.92 CLAYEY SILT AND SILTY CLAY 6 7 --- -- --- 0.80 0.76 C.2 2.10 SANDY SILT AND SILT 5 5 0.02 ;1 20 0.82 -- _.: _ 0.2 2.6 SANDY SILT AND SILT - C.02 3C 20 O.S4 -- , ._.3 C:.3 2.43 SANDY SILT AND SILT 5 5 0.0- 30 20 0.87 -- 14.2 ?.6 0.2 2.08 SANDY SILT AND SILT 4 4 0.02 30 20 0.89 -- 14.`_ 10.3 0.2 2.33 SANDY SILT AND SILT 4 5 0.01 30 20 0.91 -- 14.6 42.3 0.5 1.12 SILTY SAND 12 12 0.08 37 33 0.93 -- ' 15.2 28.7 0.9 3.18 SAND? SILT AND SILT i2 12 0.02 35 20 0.95 -- 15.5 23.2 0.7 2.97 SANDY SILT AND SILT 10 10 0.02 33 20 0.97 -- 15.8 26.6 0.8 2.89 SANDY SILT AND SILT 10 11 0.02 34 20 0.99 ' 16.1 10.3 0.5 4.76 CLAY 10 10 --- -- --- 1.01 0.58 16.5 7.7 0.2 2.86 CLAYEY SILT AND SILTY CLAY 4 4 --- -- --- 1.03 0.42 16.8 8.3 0.2 2.06 SANDY SILT AND SILT 4 3 0.01 28 20 1.05 -- -17.1 17 . 1 7.6 C.1 1.85 SANDY SILT AND SILT 3 3 0.02 27 20 1.07 -- 17.5 9.6 0.2 1.98 SANDY SILT AND SILT 4 4 0.02 28 20 1.09 -- 17.3 10.0 0.2 2.19 SANDY SILT AND SILT 4 4 0.01 29 20 1.11 -- 18.1 11.0 0.2 1.91 SANDY SILT AND SILT 4 4 0.02 29 20 1.13 -- ' 12.4 13.c C.3 2.2S SANDY SILT AND SILT 6 5 0.02 30 20 1.15 -- 18.3 =9.9 0.7 2.37 SANDY SILT AND SILT 10 10 0.04 34 20 1.17 -- 19.'_ '3.5 C.9 1.21 SAND 19 18 0.10 33 43 1.19 -- ' 19.4 50.4 0.8 1.49 SILTY SAND 14 13 0.08 36 30 1.21 -- 19.5 26.5 1.0 3.92 CLAYEY SILT AND SILTY CLAY 13 12 --- -- --- 1.23 1.58 20.1 13.4 0.8 4.35 CLAYEY SILT AND SILTY CLAY 10 9 --- -- --- 1.25 1.07 20.4 57.8 0.8 1.35 SILTY SAND 16 14 0.09 37 33 1.28 -- ' 20.7 48.9 0.8 1.57 SILTY SAND 14 12 0.07 36 27 1.30 -- 21.1 34.1 1.1 3.14 SANDY SILT AND SILT 14 12 0.02 34 20 1.32 -- 21.4 11.7 0.5 4.12 CLAYEY SILT AND SILTY CLAY 6 6 --- -- --- 1.34 0.64 t 21.7 8.9 0.2 2.13 SANDY SILT AND SILT 4 3 0.01 27 20 1.36 -- 22.0 10.3 0.2 2.24 SANDY SILT AND SILT 4 4 0.01 28 20 1.38 -- 22.4 11.6 0.3 2.67 CLAYEY SILT AND SILTY CLAY 5 4 --- -- --- 1.40 0.64 22.7 10.8 0.3 2.60 CLAYEY SILT AND SILTY CLAY 5 4 --- -- --- 1.42 0.58 ' 23.0 31.3 0.6 1.98 SANDY SILT AND SILT 10 8 0.05 33 20 1.44 -- 23.4 15.2 0.6 4.09 CLAYEY SILT AND SILTY CLAY 8 7 --- -- --- 1.46 0.86 23.7 24.6 0.7 2.89 SANDY SILT AND SILT 10 8 0.02 32 20 1.48 -- , 24.0 13.1 0.4 2.76 CLAYEY SILT AND SILTY CLAY 6 5 --- -- --- 1.50 0.72 24.3 15.4 0.8 4.75 CLAY 16 13 --- -- --- 1.52 0.93 24.7 69.9 1.1 1.52. SILTY SAND 19 15 0.09 37 34 1.54 -- 25.0 268.0 1.7 0.63 SAND 37 30 1.63 43 88 1.56 -- I I I I 1 I I I H I P = O N E E R D R = L L 2C N G INTERPRETED CONE PENETRATION TEST DATA EPTH ''C FS FR SOIL 3EF3AVICR TYPE SPT 050 PHI ;:R PO SU FT. TSF. TSF. ,. N N1 MM DEG , TSF TSF. 25.3 310.2 2.4 0.76 SAND 44 35 1.60 44 93 1.58 -- 25.7 255.:; 1.7 0.67 SAND 36 29 1.55 43 85 1.60 -- 36.031 .9 2.2 0.70 SAND 43 34 1.66 44 33 1.62 -- 26.3 294.4 1.9 0.63 SAND 40 32 1.69 43 =0 1.64 -- 26.6 303.1 1.7 C.56 SAND 41 32 i.77 43 '?1 1.67 -- _,. 327.9 2.1 0.63 SAND 44 34 1.75 44 94 1.69 -- _-. 235.E _.. J.70 SAND 41 32 1.02 .3>0 1.71 -- 2-.6 1.7 0.67 SAND 37 28 1.57 42 c4 1.73 -- 'S.0 2=7.;; 1.5 0.57 SAND 36 27 1.66 42 33 1.75 -- 28.3 245.7 1.4 C.56 SAND 34 26 1.63 42 81 1.77 -- 23.6 190.5 1.1 0.58 SAND 28 21 1.47 41 70 1.79 -- 28.5 113.3 1.0 0.92 SAND 20 15 0.92 38 47 1.81 29.3 31.2 1..2 3.91 CLAYEY SILT AND SILTY CLAY 15 11 --- -- --- 1:83 1.84 29.6 22.5 1.0 4.26 CLAYEY SILT AND SILTY CLAY 12 9 --- -- --- 1.85 1.29 29.9 55.2 1.5 2.74 SANDY SILT AND SILT 18 13 0.04 34 21 1.87 -- 30.2 16.4 O.i 4.20 CLAYEY SILT AND SILTY CLAY 9 6 --- -- --- 1.89 0.91 30.6 47.3 0.6 1.32 SILTY SAND 13 10 0.08 34 20 1.91 -- 30.9 227.9 1.4 0.62 SAND 33 23 1.53 41 75 1.93 -- 31.3 276.9 1.6 0.58 SAND 38 27 1.69 42 34 1.95 -- 31.6 268.0 1.7 0.62 SAND 37 26 1.64 42 82 1.97 -- 31.9 242.1 1.9 0.78 SAND 36 25 1.42 41 77 2.00 -- 32.3 246.3 2.4 0.99 SAND 39 27 1.25 41 78 2.02 -- _'2.: 153.4 1.2 0.30 SAND 25 17 1 l 39 E7 �.04 -- �2.9 45.; 1.2 2.71 SANDY SILT AND SILT 15 10 0.04 33 20 2.06 -- 33.2 30.1 1.2 3.32 CLAYEY 3I7 -T AND SILTY CLAY 14 10 --- -- --- 1.08 1.75 33.6 54.5 0.7 1.27 SILTY SAND 15 10 0.09 34 20 2.10 -- 33.9 28.0 0.8 2.72 SANDY SILT AND SILT 10 7 0.03 30 20 2.12 -- 34.2 13.2 0.5 3.63 CLAYEY SILT AND SILTY CLAY 7 4 --- -- --- 2.14 0.69 34.5 15.1 0.4 2.66 SANDY SILT AND SILT 6 4 0.01 27 20 2.16 -- 34.9 9.6 0.2 2.08 SANDY SILT AND SILT 4 3 0.02 25 20 2.18 -- 35.2 8.9 0.2 2.13 SANDY SILT AND SILT 4 3 0.01 25 20 2.20 -- 35.5 11.7 0.3 2.40 SANDY SILT AND SILT 5 3 0.01 26 20 2.22 -- 35.9 17.3 0.6 3.21 CLAYEY SILT AND SILTY CLAY 8 5 --- -- --- 2.24 0.97 36.2 11.7 0.4 3.69 CLAYEY SILT AND SILTY CLAY 6 4 --- -- --- 2.26 0.59 36.5 93.0 0.8 0.88 SAND 17 11 0.83 36 35 2.28 -- 36.8 212.3 1.2 0.56 SAND 30 19 1.54 40 68 2.30 -- 37.2 240.8 1.2 0.48 SAND 33 21 1.69 41 73 2.32 -- 37.5 251.8 1.3 0.52 SAND 34 22 1.69 41 75 2.34 -- 37.3 253.1 1.3 0.51 SAND 35 22 1.70 41 75 2.36 -- 38.2 264.2 1.3 0.51 SAND 36 22 1.73 41 76 2.38 -- 38.5 266.7 1.5 0.56 SAND 36 23 1.69 41 77 2.41 -- 38.8 237.4 1.5 0.61 SAND 34 21 1.56 40 71 2.43 -- 39.1 201.4 1.1 0.55 SAND 29 18 1.51 39 64 2.45 -- P 2 O N E E R D R 2 L L 2 w G INTERPRETED CONE PENETRATION TEST DATA DEFTH OC FS TR FT. TSF. '_'SF. 39.5 148.4 1.1 0.71- 3).2 .713).2 142.2 1.2 0.82 40.1 156.0 SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU N N1 `4M DEG TSF TSF SAND 23 14 1.28 38 50 2.47 -- SAND 23 14 1.14 .'.3 =8 2.49 -- wc I w•wioo t LOCATION PC -5 FILE Y 8 0 TIP RESISTANCE (TAM/ft'Z) 500 0 �CToFPt IDN S a FRICTION RATIO ' 0 I I 1 u I (M) I I 1 P S O N E E R D R S L L S N G INTERPRETED CONE PENETRATION TEST DATA v - PROJECT NAME: HIGHLAND SOIL PROJECT NO. 6574012-0 LOCATION PC -5 DATE 01/03/88 AVERAGE UNIT WEIGHT CF SCIL \PCF)-- 125 DEPTH OC FS 77. TSF. TSF U. 6.o ' 7.3 176.9 2.3 7.6 157.2 1.7 8.0 144.1 1.6 C.4 13.6 0.1 ' 0.z 7.7 0.2 1.1 12.2 0.4 1.4 15.0 0.6 1.7 28.6 0.7 2.1 38.3 0.5 2.4 62.6 0.9 ' 7.3 176.9 2.3 7.6 157.2 1.7 8.0 144.1 1.6 2.7 =,0.4 1.2 ' 3.1 d8.4 1.3 3.4 110." 1.5 3.7 142. 1:7 4. 75.4 2 1 _.4 _TO.0 2.3 4." .83.1 2.3 V 174.3 2.2 5.3 180.1 2.3 5.7 131.2 2.5 ,. 6.0 6.3 205.4 213.8 3.2 3.2 6.7 205.1 3.2 7.0 189.1 2.9 ' 7.3 176.9 2.3 7.6 157.2 1.7 8.0 144.1 1.6 10.6 170.6 Z.2- 10.9 .210.9 184.1'1.0' FR SOIL BEHAVIOR TYPE 1.03 SANDY SILT AND SILT 1.03 SANDY SILT AND SILT 2.60 CLAYEY SILT AND SILTY CLAY 3.59 CLAYEY SILT AND SILTY CLAY 4.21 CLAYEY SILT AND SILTY CLAY 2.59 SANDY SILT AND SILT 1.Z6 SILTY SAND 1.41 SILTY SAND 1.36 SAND 1.44 SILTY SAND 1.40 SAND 1.21 SAND 1.17 SAND 1.19 SAND _. SAND 1.28 SAND 1.29 SAND 1.37 SAND 1.56 SAND 1.51 SAND 1.54 SAND 1.51 SAND 1.30 SAND 1.11 SAND 1.10 SAND 1.07 SAND 0'.93 SAND 0.74 SAND 0.71 SAND 0.74 SAND 1.07 SAND i.32 SAND 1.29 SAND 0.88 SAND SPT D50 PHI DR PO SU N N1 MM D£G 1, TSF TSF 2 9 0.03 -- --- 0.01 -- 4 13 0.04 -- --- 0.03 -- 4 10 --- -- --- 0.05 0.48 6 15 --- -- --- 0.07 0.76 8 19 --- -- --- 0.09 0.93 10 23 0.03 -- --- 0.11 -- 11 23 0.07 -- --- 0.13 -- 17 35 0.09 -- --- 0.15 -- 23 45 0.17 -- --- 0.17 -- 23 44 0.10 -- --- 0.19 -- 26 47 0.33 -- --- 0.21 -- 27 49 0.74 -- --- 0.23 -- 32 55 0.90 48 99 0.25 -- 35 59 C.93 48 100 0.27 -- 34 56 0.83 48 99 0.29 -- 23 53 0.7,9 48 D7 0.31 -- 34 54 0.79 48 97 0.33 -- 35 55 0.72 48 97 0.35 -- 41 63 0.63 48 100 0.38 -- 42 63 0.69 48 100 0.40 -- 41 61 0.64 48 99 0.42 -- 38 55 0.62 48 96 0.44 -- 33 48 0.78 47 93 0.46 -- 28,40 0.90 46 89 0.48 -- 26 36 0.86 46 85 0.50 -- 25 33 0.84 45 82 0.52 -- 23 31 1.00 45 81 0.54 -- 23 30 1.24 45 84 0.56 -- 24 31 1.28 45 85 0.58 -- 26 33 1.27 45 87 0.60 -- 30 38 0.98 45 88 0.62 -- 32 40 0.73 45 87 0.64 -- 32 40 0.77 45 87 0.66 -- 30 36 1.19 45 90 0.68 -- 8.3 134.0 1.4 ' 8.6 134.0 1.3 8.9 145.9 1.1 3.3 151.5 1.1 9.6 164.0 1.2 9.9 172.4 1.8 10.2 168.1 2.2 10.6 170.6 Z.2- 10.9 .210.9 184.1'1.0' FR SOIL BEHAVIOR TYPE 1.03 SANDY SILT AND SILT 1.03 SANDY SILT AND SILT 2.60 CLAYEY SILT AND SILTY CLAY 3.59 CLAYEY SILT AND SILTY CLAY 4.21 CLAYEY SILT AND SILTY CLAY 2.59 SANDY SILT AND SILT 1.Z6 SILTY SAND 1.41 SILTY SAND 1.36 SAND 1.44 SILTY SAND 1.40 SAND 1.21 SAND 1.17 SAND 1.19 SAND _. SAND 1.28 SAND 1.29 SAND 1.37 SAND 1.56 SAND 1.51 SAND 1.54 SAND 1.51 SAND 1.30 SAND 1.11 SAND 1.10 SAND 1.07 SAND 0'.93 SAND 0.74 SAND 0.71 SAND 0.74 SAND 1.07 SAND i.32 SAND 1.29 SAND 0.88 SAND SPT D50 PHI DR PO SU N N1 MM D£G 1, TSF TSF 2 9 0.03 -- --- 0.01 -- 4 13 0.04 -- --- 0.03 -- 4 10 --- -- --- 0.05 0.48 6 15 --- -- --- 0.07 0.76 8 19 --- -- --- 0.09 0.93 10 23 0.03 -- --- 0.11 -- 11 23 0.07 -- --- 0.13 -- 17 35 0.09 -- --- 0.15 -- 23 45 0.17 -- --- 0.17 -- 23 44 0.10 -- --- 0.19 -- 26 47 0.33 -- --- 0.21 -- 27 49 0.74 -- --- 0.23 -- 32 55 0.90 48 99 0.25 -- 35 59 C.93 48 100 0.27 -- 34 56 0.83 48 99 0.29 -- 23 53 0.7,9 48 D7 0.31 -- 34 54 0.79 48 97 0.33 -- 35 55 0.72 48 97 0.35 -- 41 63 0.63 48 100 0.38 -- 42 63 0.69 48 100 0.40 -- 41 61 0.64 48 99 0.42 -- 38 55 0.62 48 96 0.44 -- 33 48 0.78 47 93 0.46 -- 28,40 0.90 46 89 0.48 -- 26 36 0.86 46 85 0.50 -- 25 33 0.84 45 82 0.52 -- 23 31 1.00 45 81 0.54 -- 23 30 1.24 45 84 0.56 -- 24 31 1.28 45 85 0.58 -- 26 33 1.27 45 87 0.60 -- 30 38 0.98 45 88 0.62 -- 32 40 0.73 45 87 0.64 -- 32 40 0.77 45 87 0.66 -- 30 36 1.19 45 90 0.68 -- 1 P 2 O N E E R D R 2 L L 2 N G i INTERPRETED CONE PENETRATION TEST DATA DEPTH �C FS FR `OIL 3EHAV=CR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. N N1 :SIM DEG TSF TSF. 11.2 1; 0 . -1 0.9 7.55 SAND 25 30 1.47 45 86 0.70 -- 11.5 166.0 1.0 0.61 SAND 25 29 1.41 45 84 0.72 -- _1.3 142.E 0.8 ).55 SAND 21 25 1.43 44 78 0.74 -- 12.2 143.`_ 0.5 0.43 SAND 20 23 1.55 44 78 0.76 -- i' S 140.3 0.9 O.o-` SAND 22 25 1.32 43 77 0.78 -- 12.9 133.7 1.1 0.69 SAND 24 27 1.31 44 30 0.80 -- 13.2 0.9 0.61 SAND 23 25 1.33 43 79 0.82 -- -.- C.E 0.4`_ SAND 24 :6 1.37 44 2 0.84 -- _._ C.? .55 SAND 24 25 1.46 43 S0 0.87 -- 14.2 163.9 1.3 0.77 SAND 27 28 1.26 44 31 0.89 -- 114.5 159.2 2.0 0.98 SA14D 33 35 1.12 44 87 0.91 -- 14.8 175.8 2.0 :.14 SAND 31 33 0.92 44 82 0.93 -- 15.2 158.8 1.6 1.01 SAND 27 28 1.00 43 77 0.95 -- 15.5 152.6 1.0 0.68 SA14D 23 24 1.32 43 75 0.97 -- 15.8 133.5 0.9 0.64 SA14D 21 21 1.31 42 70 0.99 -- 16.1 114.7 1.3 1.09 SAND 22 22 0.72 41 64 1.01 -- 16.5 158.4 1.6 1.00 SAND 27 27 1.01 43 75 1.03 -- 16.3 166.6 1.7 0.99 SAND 28 28 1.04 43 77 1.05 -- 17.1 146.3 1.6 1.07 SAND 26 26 0.90 42 72 1.07 -- 17.5 164.1 1.7 1.02 SAND 28 27 1.01 42 76 1.09 -- 17.8 163.3 2.2 1.34 SAND 32 30 0.70 42 75 1.11 -- 18.1 225.0 3.7 1.66 SAND 46 44 0.59 44 88 1.13 -- 12.4 252.1 2.9 1.09 SAND 42 39 1.20 44 93 1.15 -- 18.:' 240.3 1.9 0.78 SA14D 26 33 i.42 44 30 1.17 -- 19.1 189.5 1.3 C.68 SAND 2S 26 1.38 43 79 1.19 -- 19.4 196.4 1.2 0.62 SAND 29 27 1.45 43 31 1.21 -- 19.8 215.0 1.6 0.73 SAND 32 29 1.39 43 84 1.23 -- 20.1 221.0 1.5 0.70 SAND 33 29 1.44 43 84 1.25 -- 20.4 225.0 1.8 0.80 SAND 34 31 1.36 43 85 1.28 -- 20.7 262.6 2.2 0.83 SAND 39 35 1.43 44 91 1.30 -- 21.1 230.4 2.0 0.72 SAND 40 35 1.58 44 93 1.32 -- 21.4 253.0 1.5 0.60 SAND 35 31 1.62 44 39 1.34 -- 21.7 211.5 1.1 0.53 SAND 30 26 1.56 43 81 1.36 -- 22.0 157.1 0.8 0.48 SAND 23 19 1.52 41 69 1.38 -- 22.4 97.6 0.5 0.51 SAND 15 13 1.34 39 49 1.40 -- 22.7 43.6 1.0 2.29 SANDY SILT AND SILT 14 12 0.05 35 21 1.42 -- ' 23.0 37.4 0.9 2.49 SANDY SILT AND SILT 13 11 0.04 34 20 1.44 -- 23.4 60.5 0.6 1.06 SILTY SAND 16 13 0:10 36 31 1.46 -- 23.7 74.1 0.6 0.85 SAND 15 12 0.68 37 37 1.48 -- ' 24.0 98.6 0.9 0.94 SAND 18 15 0.80 38 47 1.50 -- 24.3 111.5 1.0 0.92 SAND 20 16 0.90 39 51 1.52 -- 24.7 139.4 1.4 1.00 SAND 25 20 0.95 40 61 1.54 -- 25.0 147.1 1.2 0.78 SAND 24 19 1.20 40 63 1.56 -- n P = O N E E R max LL 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH �C FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. ., N N1 MM DEG TSF TSF. 25.3 173.; 1.2 0.70 SAND 27 21 1.33 41 69 1.58 ' `_ '' 207.4 0.0 0.00 SAND AND GRAVEL 22 17 4.45 42 76 1.60 26.i -4.5 3.4 7-.64 CLAY 45 35 --- -- --- 1.62 2.68 20.3 '-6.60 216.9 _31_.7 3.5 1.5 1.13 0.63 SAND SAND 37 33 29 26 1.04 1.53 42 42 77 30 1.64 -- 1.67 -- 27.0 272.7 2.2 0.80 SAND 40 31 1.48 43 87 1.69 27.3 272.7 1.9 .69 SAND 39 30 1.59 42 ;6 1.71 -- _7.0 2_3.G 1.1 0.50 SAND 31 24 1.62 42 78 1.73 22.0 207.8 '_ 0.55 SAND 30 23 1.54 41 '4 1.75 28.3 ::09.4 1.1 0.51 SAND 30 22 1.58 41 74 1.77 -- 28.6 207.1 1.'. 0.54 SAND 30 22 1.54 41 73 1.79 28.9 189.3 1.0 0.52 SAND 27 20 1.53 41 69 1.81 23.3 153.6 0.7 0.48 SAND 22 16 1.52 40 60 1.83 -- 29.6 187.8 1.1 0.61 SAND 28 20 1.44 40 68 1.85 -- 29.9 185.6 1.0 0.52 SAND 27 19 1.52 40 67 1.87 30.2 204.3 1.2 0.58 SAND 30 21 1.50 41 71 1.89 30.6 2_5.9 1.2 0.54 SAND 32 23 1.60 41 75 1.91 -- ,� 30.9 219.2 1.2 0.53 SAND 31 22 1.58 41 74 1.93 31.3 209.5 1.3 0.61 SAND 30 22 1.49 41 71 1.95 31.6 188.3 1.4 0.74 SAND 29 20 1.32 40 67 1.97 -- 31.9 189.7 1.2 0.62 SAND 28 20 1.44 40 :i7 2.00 -- 32.3 204.0 1.1 0.51 SAND 29 20 1.55 40 70 2.02 32.6 211.5 1.1 0.50 SAND 30 21 "_.59 41 71 _- 2.04 - 32.9 _35.4 1.5 0.65 SAND 34 23 1.53 41 75 2.06 -- 33.2 ?50.n 7.0 0.80 SAND 37 25 1.43 41 7$ 2.08 33.6 304.9 1.9 0.61 SAND 41 28 1.73 42 86 2.10 -- 33.9 303.0 2.2 0.73 SAND 42 29 1.62 42 85 2.12 -- ' 34.2 34.5 293.5 300.5 2.5 2.3 0.86 0.76 SAND SAND 43 42 29 28 1.48 1.58 42 42 84 84 2.14 2.16 34.9 323.6 3.2 0.99 SAND 48 32 1.42 42 87 2.18 -- 35.2 311.4 4.1 1.30 SAND 52 34 1.11 42 85 2.20 -- ' 35.5 245.4.2.5 1.01 SAND 39 25 1.23 41 75 2.22 35.9 237.2 2.2 0.94 SAND 37 24 1.27 41 73 2.24 36.2 265.9 1.9 0.71 SAND 38 25 1.55 41 78 2.26 -- 36.5 304.3 3.0 0.98 SAND 46 29 1.39 42 83 2.28 36.8 258.5 1.6 0.60 SAND 36 23 1.63 41 76 2.30 37.2 275.8 1.4 0.50 SAND 37 23 1.76 41 79 2.32 -- 37.5 274.0 1.2 0.42 SAND 36 23 1.82 41 79 2.34 37.8 276.8 1.5 0.54 SAND 37 23 1.72 41 79 2.36 38.2 269.8 1.6 0.60 SAND 37 23 1.65 41 77 2.38 -- 38.5 228.2 1.5 0.66 SAND 33 20 1.50 40 70 2.41 -- 38.8 252.3 1.3 0.53 SAND 35 21 1.68 41 74 2.43 39.1 227.8 1.1 0.49 SAND 32 19 1.65 40 69 2.45 P = O N E E R D R = L L Z N G DEPTH ZC FS FR FT. TSF. TSF. INTERPRETED CONE PENETRATION TEST DATA SOIL BEHAVIOR TYPE SPT 050 PHI DR PO SU N N1 MM DEG TSF TSF 19.5 223.E =.1 0.51 SAND 31 19 1.62 40 06 2.47 -- 29.3 219.3 LOCATION P[-9 • VV FILE M 9 O I I DUTN I I 7 P 2 O N E E R D R 2 L L 2 N G INTERPRETED CONE PENETRATION TEST DATA PRCJECT NAME: HIGHLAND SOIL FROJECT NO. 6574012-0 LOCATION PC -6 DATE 01/03/88 AVERAGE UNIT WEIGHT OF SOIL (PCF)-- 125 DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU 'T. 73F. T-zF. N N1 MM DEG TSF TSF 9.4 0.0 0.42 SANDY SILT AND SILT 3 11 0.04 -- --- 0.01 -- 0.4 0.8 =3.0 16.2 0.2 0.1 0.78 0.49 SILTY SAND SILTY SAND 1 5 19 12 0.07 0.07 -_ - - - 0.03 =_ 0.05 1.1 39.8 0.1 0.40 SILTY SAND 8 20 0.09 - - 0.07 1.4 77.4 0.3 0.40 SA14D 12 27 1.40 -- --- 0.09 -- 1.7 73.4 0.3 0.42 SAND 11 25 1.34-_ 0.11 2.1 71.4 0.3 0.45 SAND 11 24 1.28 - __- - 0.13 2.4 69.3 0.4 0.51 SAND 11 23 1.17 -- --- 0.15 -- �, 2.7 3.1 69.8 70.6 0.4 0.4 0.50 0.50 SAND SAND 11 11 22 22 1.18 1.20 -- -_ --- - 0.17 -- 0.19 3.4 113.1 1.0 0.86 SAND 20 36 0.99 - - 0.21 3.7 145.4 1.2 0.81 SAND 24 42 1.16 -- --- 0.23 -- 4.0 155.8 1.5 0.88 SAND 27 47 1.15 48 97 0.25 4.4 175.1 1.8 1.02 SAND 30 51 1.04 48 98 0.27 4.; 178.: 2.0 i.10 SAND 31 52 0.97 48 98 0.29 -- 5.0 165.2 1.9 1.14 SAND 30 49 0.89 48 95 0.31 5.3 156.3 1.7 1.10 SAND 28 45 0.91 48 93 0.33 5.7 181.0 1.9 1.06 SAND 31 49 1.01 48 97 0.35 -- 6.0 163.5 1.8 1.11 SAND 29 45 0.92 48 93 0.38 6.3 135.3 1.5 1.13 SAND 25 38 0.79 46 86 0.40 =_ 6.7 117.8 1.1 0.94 SAND 21 31 0.91 46 80 0.42 7.0 99.8 0.8 0.78 SAND 17 25 1.01 44 75 0.44 -- 7.3 115.0 0.8 0.72 SAND 19 27 1.16 45 78 0.46 7.6 139.3 1.1 0.78 SAND 23 32 1.17 46 84 0.48 8.0 132.5 1.1 0.86 SAND 22 31 1.07 45 82 0.50 -- 8.3 8.6 62.7 27.8 1.0 0.8 1.52 2.84 SILTY SAND SANDY SILT AND SILT 17 11 23 14 0.08 0.02 41 37 58 34 0.52 == 0.54 8.9 47.6 0.8 1.77 SILTY SAND 14 18 0.07 40 48 0.56 9.3 58.3 1.6 2.68 SANDY SILT AND SILT 19 24 0.04 40 54 0.58 -- 9.6 51.9 1.8 3.37 SANDY SILT AND SILT 20 26 0.02 40 49 0.60 9.9 57.1 1.0 1.80 SILTY SAND 16 21 0.07 40 51 =_ 0.62 10.2 53.0 0.8 1.51 SILTY SAND 15 18 0.08 39 48 0.64 -- `' 10.6 10.9 39.4 29.3 1.2 1.1 2.92 3.72 SANDY SILT AND SILT CLAYEY SILT AND SILTY CLAY 14 14 18 16 0.03 --- 38 -- 39 --- 0.66 0.68 1.79 P = O N E E R D R 2 L L = N G INTERPRETED CONE PENETRATION TEST DATA I DEPTH �C FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR. PO SU FT. TSF. TSF. N N1 MM DEG °; TSF TSF. 11.2 45.6 1.0 -.26 SILTY SAND 14 17 0.05 33 42 0.70 -- 11.5 51.6 1.1 2.21 SILTY SAND 16 18 0.06 39 45 0.72 -- 1.9 - .5 '0 i.0 1.32 SILTY SAND 20 24 0.10 41 57 0.74 -- 1:..2 1_41.1 1.5 1.08 SAND 26 29 0.86 43 77 0.76 -- 12.5 198., 1.1 0.56 SAND 29 33 1.50 45 90 0.78 -- 12.9 103.3 0.7 0.69 SAND 17 19 1.15 42 66 0.80 -- - 7.5 1.._ 2.35 SILTY SAND 1`- 16 0.05 38 39 0.82 -- 12.32.39 SANDY SILT A14D SILT 12 14 0.04 _6 "2 0.84 -- 13.3 _i.: 0.7 3.10 SANDY SILT AND 3ILT 9 10 0.01 33 20 0.87 -- 14.2 35.9 1.1 2.98 SANDY SILT AND SILT 14 14 0.03 36 29 0.89 -- 14._ 33.9 1.3 3,33 .CLAYEY SILT AND SILTY CLAY 16 17 --- -- --- 0.91 2.06 14.8 35.3 1.3 3.68 CLAYEY SILT AND SILTY CLAY 16 17 --- -- --- 0.93 2.15 15.2 28.7 1.0 3.59 CLAYEY SILT AND SILTY CLAY 13 13 --- -- --- 0.95 1.73 15.5 29.6 1.1 3.61 CLAYEY SILT AND SILTY CLAY 13 14 --- -- --- 0.97 1.79 ;5.8 27.1 1.1 3.87 CLAYEY SILT AND SILTY CLAY 13 13 --- -- --- 0.99 1.63 16.1 16.2 0.6 3.72 CLAYEY SILT AND SILTY CLAY 8 8 --- -- --- 1.01 0.95 --i 6-. 5a25,.�9-1,.,0=-3:.-6.7-2MAYEY=SILT=A14D-S-11 TY- CLAY -1=2=�2-----------=I 03'=1 16.8 87.6 1.2 1.41 SILTY SAND 23 23 0.10 40 53 1.05 -- 17.1 152.2 1.8 1.19 SAND 28 28 0.80 42 73 1.07 -- 17.5 223.0 2.2 0.99 SAND 36 35 1.18 44 38 1.09 -- 17.8 174.0 2.3 1.32 SAND 33 32 0.75 43 78 1.11 -- 18.1 136.4 2.6 1.92 SILTY SAND 36 34 0.09 41 68 1.13 -- 18.4 126.4 1.- -.20 SAND 25 23 0.67 41 05 1.15 -- 13.8 S2.'- 1.6 2.49 SILTY SAND 19 1S 0.05 37 38 1.17 -- 19.1 J4.5 1.4 3.92 CLAYEY SILT AND SILTY CLA7 ;6 '_ --- -- --- 1.19 2.08 19.4 31.2 0.9 2.82 SANDY SILT AND SILT 12 11 0.03 34 20 1.21 -- 19.5 16.2 0.7 4.25 CLAYEY SILT AND SILTY CLAY 9 8 --- -- --- 1.23 0.94 20.1 14.3 0.3 2.31 SANDY SILT AND SILT 6 5 0.02 30 20 1.25 -- 20.4 15.0 0.4 2.61 SANDY SILT AND SILT 6 6 0.01 30 20 1.28 -- 20.7 12.2 0.3 2.38 SANDY SILT AND SILT 5 5 0.01 29 20 1.30 -- 21.1 10.8 0.2 2.04 SANDY SILT AND SILT 4 4 0.02 28 20 1.32 -- 21.4 10.8 0.3 2.42 SANDY SILT AND SILT 5 4 0.01 28 20 1.34 -- ' 21.7 10.8 0.3 2.31 SANDY SILT AND SILT 5 4 0.01 28 20 1.36 -- 22.0 16.9 0.5 2.96 SANDY SILT AND SILT 7 6 0.01 30 20 1.38 -- 22.4 16.2 0.6 3.45 CLAYEY SILT AND SILTY CLAY 8 7 --- -- --- 1.40 0.93 22.7 38.6 1.2 3.14 SANDY SILT AND SILT 15 13 0.02 34 20 1.42 -- 23.0 38.3 1.5 1.66 SILTY SAND 24 20 0.09 38 44 1.44 -- 23.4 187.6 1.6 0.86 SAND 30 25 1.21 42 74 1.46 -- 23.7 239.5 2.2 0.93 SAND 37 31 1.28 43 84 1.48 -- 24.0 268.3 2.5 0.94 SAND 41 34 1.35 43 39 1.50 -- 24.3 240.7 1.9 0.80 SAND 36 29 1.41 43 84 1.52 -- 24.7 220.9 1.3 0.60 SAND 32 26 1.53 42 80 1.54 -- 25.0 253.5 1.4 0.56 SAND 35 28 1.65 43 85 1.56 -- P = O N E E R max LL 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH 2C FS FR SOIL BEHAVICR TYPE SPT D50 PHI OR PO SU FT TSF. TSF. N N1 MM DEG % TSF TSF. I =5 :3 'S =47.4 =28.1 1:4 ' 0.58 0.56 SAND SAND 35_8 1.62 43 00^4 1.58 32 26 1.58 42 80 1.60 26.0 206.? 1.2 0.59 SAND 30 24 1.50 42 76 1.62 -- 26.3 210.1 1.1- 0.53 SAND 30 23 1.56 42 76 1.64 -6.6 209.9 1.0 C.48 SAND 29 23 1.60 42 76 1.67 -- 27.0 219.0_ 1.1 0.51 SAND 31 24 1.60 42 7,7 1.69 -- 27.3 :34.7 1.4 :.59 SAND 33 26 1.58 42 80 1.71 -- ' :' :23.4 1.4 3.58 SAND 34 26 1.60 42 °1 1.73 23.6 133.7 1.2 0.50 SAND 29 22 1.47 41 72 1.75 -- 28.3 74.7 2.0 2.69 SANDY SILT AND SILT 23 17 0.05 36 33 1.77 -- 28.6 35.2 1.7 4.83 CLAYEY SILT AND SILTY CLAY 19 14 --- -- --- 1.79 2.09 28.9 118.8 2.1 1.79 SILTY SAND 32 24 0.10 38 49 1.81 29.3 229.8 1.2 0.51 SAND 32 24 1.63 42 77 1.83 -- 29.6 167.3 2.0 1.19 SAND 31 22 0.85 40 63 1.85 29.9 313.7 1.9 0.61 SAND 42 31 1.74 43 90 1.87 -- 30.2 295.6 1.6 0.55 SAND 40 29 1.76 43 87 1.89 -- 30.6 305.3 1.5 0.48 SAND 40 29 1.84 43 89 1.91 -- 30.9 326.9 1.9 0.58 SAND 43 31 1.80 43 91 1.93 31.3 330.4 1.9 0.59 SAND 44 31 1.80 43 91 1.95 31.6 330.9 2.0 0.60 SAND 44 31 1.79 43 91 1.97 -- 21.9 32.3 343.0 338.3 2.5 2.6 0.71 0.76 SAND SAND 47 47 33 33 1.71 1.65 43 43 92 92 2.00 2.02 2.0 -88.6 :.0 0.68 SAND 40 28 1.63 42 84 2.04 -- 32 0 =73.3 1.8 0.66 SAND 38 26 1.61 42 82 2.06 - 33.2 264.2 1.8 0.59 SAND 38 26 1.56 42 80 G.Oa 33,6 268.5 1.8 0.69 SAND 38 26 1.58 42 81 2.10 -- 33.9 264.2 1.4 0.54 SAND 36 24 1.70 42 80 2.12 -- ' 34.2 34.5 231.8 202.3 1.1 0.9 0.49 0.44 SAND=_ SAND 32 28 21 1.66 41 73 2.14 19 1.61 40 67 2.16 34.9 175.0 0.7 0.41 SAND 24 16 1.62 39 61 2.18 -- 35.2 238.0 1.0 0.42 SAND 32 21 1.74 41 74 2.20 ' 35.5 365.2 6.0 1.64 SAND 65 43 0.91 43 92 2.22 35.9 301.5 2.8 0.94 SAND 45 29 1.42 42 84 2.24 36.2 266.5 1.7 0.64 SAND 37 24 1.61 41 78 2.26 -- 36.5 275.3 2.4 0.85 SAND 41 26 1.44 41 80 2.28 36.8 252.4 1.7 0.68 SAND 36 23 1.54 41 75 2.30 37.2 251.0 1.2 0.48 SAND 34 22 1.7,1 41 75 2.32 -- 37.5 252.5 I I WTN W. LOCATION a PC -7 ' FILE • c IO LOCAL FRICTION FRICTION RATIO u iar nwulAnct "On/ft-Z7 600 O (Tom/ft-2) S O (PERCENT) B I i 10 I I I P = O N E E R D R = L L = N G ' INTERPRETED CONE PENETRATION TEST DATA I. 1 I 0 I 1 I C I ?ROJECT :LAME. HIGHLAND SOIL PROJECT NO. 6574012-0 LOCATION PC -7 DATE 01/03/88 .OVERAGE UNIT WEIGHT OF SOIL (PCF)-- 125 DEPTH QC FS ,T. TSF. TSF. 0.1 2.6 0.1 0.4 30.1 0.0 0.3 31.2 0.1 1.1 100.6 0.1 1.4 144.0 0.4 1.7 129.8 0.4 2.i 112.8 0.1 2.4 123.3 0.0 2.7 153.8 0.1 3.1 165.8 0.5 3.4 169.4 0.3 3.7 168.9 0.8 4.0 182.5 0.8 4.4 183.2 0.9 4.7, 169.9 0.3 5.0 150.9 0.7 5.3 153.1 0.7 5.7 156.3 0.8 6.0 125.4 0.7 6.3 89.7 0.4 6.7 87.0 0.4 7.0 80.4 0.4 7.3 82.7 0.4 7.6 101.0 0.5 3.0 101.2 0.6 8.3 101.9 0.7 3.6 100.1 1.5 8.9 83.3 2.3 9.3 71.3 3.1 9.6 69.3 2.4 9.9 90.8 3.3 10.2 84.2 3.6 10.6 81.5 3.3 10.9 77.4 3.1 FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU °.; N N1 MM LEG TSF TSF 2.27 CLAYEY SILT AND SILTY CLAY 1 5 --- -- --- 0.01 0.16 0.13 SILTY SAND 8 24 0.10 -- --- 0.03 -- 0.38 SILTY SAND 8 22 0.09 -- --- 0.05 -- 0.11 SAND 13 32 1.86 -- --- 0.07 -- 0.27 SAND 20 45 1.72 -- --- 0.09 -- 0.27 SAND 18 39 1.71 -- --- 0.11 -- 0.10 SAND 15 31 1.88.-- --- 0.13 -- 0.03 SAND 16 33 1.97 -- --- 0.15 -- 0.08 SAND 20 39 1.92 -- --- 0.17 -- 0.28 SAND 22 43 1.73 -- --- 0.19 -- 0.47 SAND 24 45 1.55 -- --- 0.21 -- 0.48 SAND 24 43 1.54 -- --- 0.23 -- 0.46 SAND 26 45 1.57 48 100 0.25 -- 0.46 SAND 26 44 1.57 48 99 0.27 -- 0.49 SAND 24 41 1.53 48 96 0.29 -- 0.46 SAND 22 35 1.53 48 92 0.31 -- 0.44 SAND 22 35 1.56 48 92 0.33 -- 0.50 SAND 23 35 1.50 48 92 0.35 -- 0.54 SAND 19 29 1.40 46 34 0.38 -- 0.45 SAND 13 20 1.40 44 73 0.40 -- 0.47 SAND 13 20 1.35 44 72 0.42 -- 0.46 SAND 12 18 1.33 43 69 0.44 -- 0.42 SAND 12 18 1.39 43 69 0.46 -- 0.51 SAND 15 21 1.36 44 74 0.48 -- 0.56 SAND 16 22 1.29 44 74 0.50 -- 0.64 SAND 16 22 1.20 44 73 0.52 -- 1.53 SILTY SAND 26 35 0.10 43 72 0.54 -- 3.40 SANDY SILT AND SILT 30 39 0.03 42 66 0.56 -- 4.35 CLAYEY SILT AND SILTY CLAY 33 43 --- -- --- 0.58 4.42 3.52 SANDY SILT AND SILT 26 34 0.03 41 59 0.60 -- 3.65 SANDY SILT AND SILT 34 43 0.03 42 67 0.62 -- 4.30 CLAYEY SILT AND SILTY CLAY 38 47 --- -- --- 0.64 5.23 4.08 SANDY SILT AND SILT 35 43 0.01 41 62 0.66 -- 4.03 SANDY SILT AND SILT 33 40 0.01 41 60 0.68 -- P = O N E E R D R 2 L L 2 N G ' INTERPRETED CONE PENETRATION TEST DATA I DEPTH FT. QC TSF. FS :'SF. FR 0. SOIL FEHAVIOR TYPE SPT N N1 D50 MM PHI DEG DR PO TSF SU TSF. , 11.2 74.0 3.0 4.11 SANDY SILT AND SILT 33 39 O.CI 41 57 0.70 -- 11.5 93.3 3.7 3.90 SANDY SILT AND SILT 37 44 0.02 42 65 0.72 -- 11.9 130.1 4.2 4.18 SANDY SILT AND SILT 43 50 0.01 42 66 0.74 -- 12.2 97.3 4.0 4.08 SANDY SILT AND SILT 41 47 0.02 42 65 0.76 -- 2.5 82.9 3.7 4.51 CLAYEY SILT AND SILTY CLAY 39 44 --- -- --- 0.78 5.13 , 12.9 101.5 3.2 3.14 SANDY SILT AND SILT 33 37 0.04 42 65 0..80 -- _' 109.42.6 2.37 SILTY SAND 31 35 0.07 42 67 0.82 -- _3.: _13.- 1.6 1.23 SAND '-6 Z9 0.41 4Z 70 0.34 -- -3.8 104.0 2.6 2.50 SILTY SAND 30 33 0.07 41 54 0.87 -- 14.2 62.4 3.0 4.81 CLAYEY SILT AND SILTY CLAY 32 34 --- -- --- 0.89 3.84 14.5 67.9 2.9 4.33 =LAYE': SILT AND SILTY CLAY 32 33 --- -- --- 0.91 4.19 14.8 35.7 Z.6 4.58 CLAYEY SILT AND SILTY CLAY 28 29 --- -- --- 0.93 3.42 15.2 59.7 2.4 4.07 CLAYEY SILT AND SILTY CLAY Z7 28 --- -- --- 0.95 3.67 15.5 63.8 2.9 4.50 CLAYEY SILT AND SILTY CLAY 31 31 --- -- --- 0.97 3.93 15.8 75.4 3.0 4.02 SANDY SILT AND SILT 32 33 0.01 39 49 0.99 -- 16.1 64.5 2.9 4.47 CLAYEY SILT AND SILTY CLAY 31 31 --- -- --- 1.01 3.97 --16:..5-55:.=6-2..:6=4:,=59-CLAYEY-SZ=LT=--AND=SILTY-CLAY=2827===---= --==1:03-3 4'lc- 16.8 52.5 2.2 4.23 CLAYEY SILT AND SILTY CLAY 25 24 --- -- --- 1.05 3.21 17.1 63.8 2.4 3.79 SANDY SILT AND SILT 26 Z6 0.02 38 41 1.07 -- 17.5 X62.5 2.7 4.35 CLAYEY SILT'AND SILTY CLAY 29 28 --- -- --- 1.09 3.84 17.8 47.5 2.3 4.90 CLAYEY SILT AND SILTY CLAY 25 24 --- -- --- 1.11 2.90 18.1 35.3 1.3 3.71 CLAYEY SILT AND SILTY CLAY 16 15 --- -- --- 1.13 2.14 18.4 33.8 "..2 3.67 CLAYEY SILT AND SILTY CLAY 15 14 --- -- --- 1.15 2.04 18.8 74.7 1.2 1.55 SILTY SAND 20 19 0.09 38 44 1.17 -- 19.1 89.9 0.9 1.03 SAND i8 11 0.60 =7 -U 1.1 -- ' 19.4 88.3 0.9 1.04 SAND 18 17 0.57 39 49 1.21 -- 19.8 65.2 1.1 1.66 SILTY SAND 18 17 0.08 37 38 1.23 -- 20.1 63.0 2.2 3.56 SANDY SILT AND SILT 25 22 0.02 37 36 1.25 -- 20.4 36.6 1.8 4.95 CLAYEY SILT AND SILTY CLAY 20 18 --- -- --- 1.28 2.20 20.7 37.4 1.4 3.61 SANDY SILT AND SILT 16 15 0.01 34 20 1.30 -- 21.1 46.8 1.5 3.18 SANDY SILT AND SILT 18 15 0.03 35 25 1.32 -- 21.4 40.7 1.3 3.19 SANDY SILT AND SILT 16 14 0.02 35 Z1 1.34 -- 21.7 54.3 0.9 1.73 SILTY SAND 16 13 0.07 36 30 1.36 -- 22.0 52.7 0.7 1.37 SILTY SAND 15 13 0.08 36 28 1.38 -- 22.4 38.0 1.4 3.58 SANDY SILT AND SILT 17 14 0.01 34 20 1.40 -- 22.7 21.Z 1.0 4.53 CLAYEY SILT AND SILTY CLAY 12 10 --- -- --- 1.42 1.23 23.0 14.7 0.6 4.28 CLAYEY SILT AND SILTY CLAY 8 7 --- -- --- 1.44 0.83 23.4 13.5 0.4 3.25 CLAYEY SILT AND SILTY CLAY 6 5 --- -- --- 1.46 0.75 23.7 24.4 1.0 3.89 CLAYEY SILT AND SILTY CLAY 12 10 --- -- --- 1.48 1.43 24.0 33.9 1.6 4.81 CLAYEY SILT AND SILTY CLAY 19 15 --- -- --- 1.50 2.03 24.3 41.8 1.3 3.11 SANDY SILT AND SILT 16 13 0.03 34 20 1.52 -- 24.7 44.9 1.6 3.45 SANDY SILT AND SILT 18 15 0.02 34 20 1.54 -- 25.0 20.3 0.9 4.48 CLAYEY SILT AND SILTY CLAY 11 9 --- -- --- 1.56 1.17 P = O N E E R D R Z L L = N G DEPTH KC FS FR ' FT. TSF. TSF. INTERPRETED CONE PENETRATION TEST DATA SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU N N1 MM DEG TSF TSF. 25.3 28.1 1.0 3 \41 SANDY SILT AND SILT 12 10 0_01 32 1.58 -- ' 25.? 18.7 0.8 4.11 CLAYEY SILT AND SILTY CLAY 10 8 -20 - 1.60 1.07 26.0 11.5 0.5 3.99 CLAYEY SILT AND 'SILTY CLAY 6 5 --- -- --- 1.62 0.62 26.3 21.7 0.8 3.55 CLAYEY SILT AND SILTY CLAY 10 8 --- -- --- 1.64 1.25 26.6 30.9 1.2 3.82 CLAYEY SILT AND SILTY CLAY 14 11 --- -- --- 1.67 1_83 27.0 29.1 C.7 2.34 SANDY SILT AND SILT 10 8 0.04 32 20 1.69 27.L 91.0 2.2 2.42 SILTY SAND 27 20 0.07 37 41 1.71 -- 2?.6 26?.: 3.Y i.23 SAND 46 25 1.04 43 35 1.73 ' 28.0 311.7 3.1 0.99 SAND 47 35 1.40 43 91 1.75 =_ 28.3 312.7 3.3 1.05 SAND 48 36 1.35 43 91 1.77 -- 28.6 28.9 329.0 314.0 3.6 3.1 1.09 0.99 SAND SAND 50 47 38 35 1.34 1.40 43 43 93 91 1.79 1.81 =_ 29.3 179.5 3.3 1.86 SAND 43 32 0.26 40 67 1.83 29.6 92.4 2.3 2.53 SILTY SAND 27 20 0.06 37 40 1.85 -- 29.9 86.4 2.6 3.05 SANDY,SILT AND SILT 28 20 0.04 37 37 1.87 30.2 54.7 2.1 3.80 SANDY SILT AND SILT 23 17 0.01 34 21 1.89 30.5 121.0 3.4 2.84 SILTY SAND 36 26 0.06 38 48 1.91 -- 30.9 44.8 1.9 4.15 CLAYEY SILT AND SILTY CLAY 21 15 --- -- --- 1.93 2_68 31.3 27.1 0.6 2.10 SANDY SILT AND SILT 9 6 0.04 31 20 1.95 31.E 21.7 0.0- 2.72 SANDY SILT AND SILT 9 6 0.02 30 20 1.97 -- 31.9 59.9 2.2 3.09 SANDY SILT AND SILT 24 17 0.04 35 28 2.00 -- 22.3 30.5 0.9 2.98 SANDY SILT AND SILT 12 8 0.02 31 20 2.02 32.6 70.1 'I.=- 3.51 SANDY SILT AND SILT 26 18 0.03 35 27 2.04 32.^- :18.2 2.1 1.78 SILTY SAND 32 22 0.10 3S 46 2.06 -- 33.2 122.3 7.9 2.35 CTT MV SAND 35 24 0.08 _3 47 2.08 -- ' 33.6 51.6 2.4 4.57 CLAYEY SILT AND SILTY CLAY 26 17 --- 2.10 3.09 33.9 47.7 1.4 2.98 SANDY SILT AND SILT 17 11 0.03 33 20 2.12 -- 34,-' 34.5 28.9 21.7 1.0 1.1 3.46 5.03 CLAYEY SILT AND SILTY CLAY CLAY 13 22 9 14 ___ __ __- - 2.14 2.16 167 1.22 34.9 32.6 1.0 2.97 SANDY SILT AND SILT 13 8 0.02 31 20 2.18 35.2 33.9 0.5,, 1.39 SILTY SAND 10 6 0.07 31 20 2.20 -- 35.5 28.5 0.4 1.37 SILTY SAND 8 6 0.06 30 20 2.22 35.9 57.7, 1.5 2.55 SANDY SILT AND SILT 18 12 0.05 34 20 2.24 36.2 84.0 3.4 3.99 SANDY SILT AND SILT 35 23 0.02 36 31 2.26 -- 36.5 67.7 3.3 4.89 CLAYEY SILT AND SILTY CLAY 35 22 --- -- --- 2.28 4_09 36.8 42.2 1.3 3.13 SANDY SILT AND SILT 16 10 0.03 32 20 2.30 37.2 29.8 0.2 0.77 SILTY SAND 8 5 0.08 30 20 2.32 -- 37.5 39.4 0.5 1.19 SILTY SAND 11 7 0.08 32 20 2.34 -- ' 37.3 50.2 1.1 2.13 SILTY SAND 15 9 0.06 33 20 2.36 38.2 53.0 0.9 1.72 SILTY SAND 15 9 0.07 33 20 2.38 38.5 39.4 0.5 1.35 SILTY SAND 11 7 0.07 32 20 2.41 -- 38.6 76.0 1.9 2.45 SILTY SAND 23 14 0_06 35 26 2.43 -- 39.1 79.5 3.8 4.83 CLAYEY SILT AND SILTY CLAY 40 24 --- 2.45 4.81 P = O N E E R D R 2 L L 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF.I N N1 MM DEG 06 TSF TSF 39.5 63.2 2.4 3.85 SANDY SILT AND SILT 27 16 0.01 34 20 2.47 -- 39.3 35.9 1.5 4.15 CLAYEY SILT AND SILTY CLAY 17 10 --- -- --- 2.49 2.09 40.1 52.3 2.8 3.35 SANDY SILT AND SILT 29 19 0.03 35 28 2.51 -- TIP IE DEPTH (m) URIC t U41U.1.0 LOCATION PC -8 FILE M 11 LOCAL FRICTION FRICTION RATIO (PERCENT) B I I L: r I I I P = O N E E R D R S L L 2 N G INTERPRETED CONE PENETRATION TEST DATA PROJECT NAME: HIGHLAND SOIL PROJECT NO. 6574012-0 LOCATION PC -8 DATE 01/03/88 AVERAGE UNIT WEIGHT OF SOIL (PCF)-- 125 DEPTH QC FS FT. TSF. TSF, 0.1 1.4 0.0 0.4 4.8 0.0 0.8 9.5 0.0 1.1 8.6 0.0 1.4 10.9 0.0 1.7 28.1 0.1 2.1 155.7 0.1 2.4 239.3 0.7 2.7 279.7 2.0 3.1 285.6 2.1 3.4 295.2 2.9 3.7 270.9 2.6 4.0 241.2 2.1 4.4 229.8 2.1 4.7 221.3 1.7 5.0 198.6 1.4 5.3 180.4 1.2 5.7 156.5 1.0 6.0 142.8 1.0 6.3 125.5 0.8 6.7 92.5 0.6 7.0 83.0 0.5 7.3 76.2 0.5 7.6 62.8 0.4 8.0 84.4 0.6 8.3 91.6 0.8 8.6 91.3 0.7 8.9 93.2 0.8 9.3 101.9 0.7 9.6 84.2 1.0 9.9 59.8 2.1 10.2 55.8 2.2 10.6 54.4 2.1 10.9 58.5 2.3 FR SOIL BEHAVIOR TYPE 0.74 CLAYEY SILT AND SILTY CLAY 0.42 SANDY SILT AND SILT 0.11 SILTY SAND 0.23 SANDY SILT AND SILT 0.37 SANDY SILT AND SILT 0.29 SILTY SAND 0.04 SAND 0.29 SAND 0.70 SAND 0.75 SAND 0.97 SAND 0.95 SAND 0.86 SAND 0.91 SAND 0.77 SAND 0.72 SAND 0.65 SAND 0.65 SAND 0.67 SAND 0.64 SAND 0.63 SAND 0.60 SAND 0.64 SAND 0.60 SAND 0.72 SAND 0.85 SAND 0.81 SAND 0.80 SAND 0.67 SAND 1.13 SAND 3.51 SANDY SILT AND SILT 3.89 SANDY SILT AND SILT 3.92 SANDY SILT AND SILT 3.95 SANDY SILT AND SILT SPT D50 PHI DR PO SU N N1 MM DEG TSF TSF 1 3 --- -- --- 0.01 0.08 2 5 0.04 -- --- 0.03 -- 3 8 0.05 -- --- 0.05 -- 3 7 0.05 -- --- 0.07 -- 3 8 0.05 -- --- 0.09 -- 8 17 0.09 -- --- 0.11 -- 20 42 1.96 -- --- 0.13 -- 31 63 1.85 -- --- 0.15 -- 39 77 1.59 -- --- 0.17 -- 41 77 1.56 -- --- 0.19 -- 44 82 1.38 -- --- 0.21 -- 41 74 1.34 -- --- 0.23 -- 37 64 1.35 48 100 0.25 -- 36 61 1.27 48 100 0.27 -- 33 56 1.38 48 100 0.29 -- 30 49 1.36 48 100 0.31 -- 27 43 1.39 48 97 0.33 -- 24 37 1.35 48 92 0.35 -- 22 34 1.31 47 89 0.38 -- 20 29 1.29 46 83 0.40 -- 15 22 1.17 44 73 0.42 -- 14 20 1.14 44 70 0.44 -- 13 19 1.02 43 66 0.46 -- 11 16 0.90 42 60 0.48 -- 15 20 0.98 43 68 0.50 -- 17 23 0.86 43 70 0.52 -- 16 22 0.91 43 70 0.54 -- 17 22 0.94 43 70 0.56 -- 17 21 1.16 43 72 0.58 -- 19 24 0.41 42 65 0.60 -- 23 29 0.02 40 53 0.62 -- 24 30 0.01 40 50 0.64 -- 24 30 0.01 39 49 0.66 -- 26 31 0.01 40 50 0.68 -- P = O N E E R D R Z T. L S N G INTERPRETED CONE PENETRATION TEST DATA DEPTH 7C ?S FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. % N N1 MM DEG o TSF TSF. , 11.2 59.8 2.5 4.16 CLAYEY SILT AND SILTY CLAY 27 33 --- -- --- 0.70 3.70 11.5 61.3 2.5 4.10 CLAYEY SILT AND SILTY CLAY 28 33 --- -- --- 0.72 3.79 ' 11.9 58.4 2.5 4.22 CLAYEY SILT AND SILTY CLAY 27 31 --- -- --- 0.74 3.60 12.2 59.7 2.6 4.34 CLAYEY SILT AND SILTY CLAY 28 32 --- -- --- 0.76 3.68 12.5 62.0 2.0 3.29 SANDY SILT AND SILT 23 26 0.03 39 49 0.78 -- 12.9 32.6 1.3 4.07 CLAYEY SILT AND SILTY CLAY 16 18 --- -- --- 0.80 1.99 13.2 47.4 1.3 2.68 SANDY SILT AND SILT 16 17 0.04 38 39 0.82 -- 13.`_ `.1.6 1.6 3.08 SANDY SILT AND SILT 19 20 0.03 38 41 0.84 -- t 13.8 32.6 1.1 3.25 SANDY SILT AND SILT 13 14 0.02 36 26 0.87 -- 14.2 47.6 1.5 3.11 SANDY SILT AND SILT 17 19 0.03 37 37 0.89 -- 14.5 33.9 1.3 3.75 CLAYEY SILT AND SILTY CLAY 15 16 --- -- --- 0.91 2.06 14.3 24.3 0.6 2.35 SANDY SILT AND SILT 9 9 0.03 34 20 0.93 -- 15.2 29.7 1.1 3.64 CLAYEY SILT AND SILTY CLAY 14 14 --- -- --- 0.95 1.80 15.5 77.5 1.2 1.59 SILTY SAND 21 21 0.09 39 51 0.97 -- 15.8 114.2 1.4 1.24 BAND 24 24 0.54 41 65 0.99 -- , 16.1 72.8 2.4 3.31 SANDY SILT AND SILT 26 26 0.03 39 47 1.01 -- 16.5 44.9 1.5 3.38 SANDY SILT AND SILT 18 18 0.02 36 31 1.03 -- 16.8 29.9 0.9 3.07 SANDY SILT AND SILT 12 12 0.02 34 20 1.05 -- 17.1 26.6 0.7 2.63 SANDY SILT AND SILT 10 10 0.03 34 20 1.07 -- , 17.5 31.1 1.0 3.25 SANDY SILT AND SILT 13 12 0.02 34 20 1.09 -- 17.3 18.1 32.0 28.6 1.2 1.0 3.81 3.64 CLAYEY SILT AND SILTY CLAY CLAYEY SILT AND SILTY CLAY 15 13 14 12 --- --- -- -- --- --- 1.11 1.13 1.93 1.71 , 13.4 27.2 1.1 3.86 CLAYEY SILT AND SILTY CLAY 13 12 .--- -- --- 1.15 1.63 18.3 31.3 1.3 4.25 CLAYEY SILT AND SILTY CLAY 16 15 --- -- --- 1.17 1.88 19.1 30.0 1.3 4.40 CLAYEY SILT AP:D SILTY CLAY 15 14 --- -- --- 1.19 1.80 19.4 25.0 0.9 3.48 CLAYEY SILT AND SILTY CLAY 11 10 --- -- --- 1.21 1.49 19.8 23.1 0.9 3.72 CLAYEY SILT AND SILTY CLAY 11 10 --- -- --- 1.23 1.37 20.1 25.2 1.1 4.29 CLAYEY SILT AND SILTY CLAY 13 12 --- -- --- 1.25 1.50 20.4 27.2 1.4 5.07 CLAY 27 24 --- -- --- 1.28 1.62 20.7 49.0 2.2 4.51 CLAYEY SILT AND SILTY CLAY 24 22 --- -- --- 1.30 2.98 21.1 87.5 2.6 2.91 SANDY SILT AND SILT 27 24 0.05 38 46 1.32 -- 21.4 53.0 2.5 4.79 CLAYEY SILT AND SILTY CLAY 27 24 --- -- --- 1.34 3.23 21.7 77.4 3.0 3.81 SANDY SILT AND SILT 31 27 0.02 38 41 1.36 -- 22.0 67.2 3.0 4.48 CLAYEY SILT AND SILTY CLAY 32 28 --- -- --- 1.38 4.11 22.4 57.1 1.6 2.77 SANDY SILT AND SILT 19 16 0.04 36 30 1.40 -- 22.7 49.0 1.2 2.35 SANDY SILT AND SILT 15 13 0.05 35 25 1.42 -- ' 23.0 42.8 1.4 3.27 SANDY SILT AND SILT 17 14 0.02 34 20 1.44 -- 23.4 34.0 1.1 3.24 SANDY SILT AND SILT 14 12 0.02 33 20 1.46 -- 23.7 31.3 0.9 2.78 SANDY SILT AND SILT 12 10 0.03 33 20 1.48 -- ' 24.0 32.0 0.9 2.84 SANDY SILT AND SILT 12 10 0.03 33 20 1.50 -- 24.3 34.0 1.0 2.79 SANDY SILT AND SILT 12 10 0.03 33 20 1.52 -- 24.7 97.9 2.7 2.74 SILTY SAND 30 24 0.06 38 46 1.54 -- 25.0 138.2 3.8 2.76 SILTY SAND 41 33 0.06 40 60 1.56 -- ' P = O N E E R D R = L L 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. % N N1 MM DEG 0 TSF TSF. 25.3 440.6 4.0 0.91 25.7 484.1 5.2 1.07 26.0 485.5 5.8 1.19 -6.3 559.5 3.6 0.64 26.6 418.6 5.7 1.36 27.0 482.7 7.8 1.62 SAND SAND SAND SAND AND GRAVEL SAND SAND 60 48 1.68 45 100 1.58 -- 68 54 1.58 46 100 1.60 -- 71 56 1.47 46 100 1.62 68 54 2.28 46 100 1.64 -- 66 52 1.24 45 100 1.67 -- 81 63 1.07 46 100 1.69 -- unit � wiuoi ou LOCATION PC -9 FILE N 12 LOCAL FRICTION FRICTION RATIO ❑ TIP RESISTANCE (Ton/ft-2) 50D 0 (Ton/ft-2) 5 0 (PERCENT) e £H� 1 11 I i P = O N E E R D R 2 L L S N G INTERPRETED CONE PENETRATION TEST DATA ' FROJECT NAME: HIGHLAND SOIL PRCJECT NO. 6574012-0 LOCATION PC -9 DATE 01/03/88 AVERAGE UNIT WEIGHT OF SOIL (PCF)-- 125 DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 ?HI DR PO SU FT. TSF. TSF. % N N1 MM DEG TSF TSF 0.1 6.8 0.0 0.15 SANDY SILT AND SILT 2 8 0.05 -- --- 0.01 -- 0.4 0.8 44.9 53.3 0.0 0.0 0.02 0.08 SAND SAND 6 7 17 19 1.93 1.83 -_ - - - 0.03 =_ 0.05 1.1 65.3 0.1 0.08 SAND 8 21 1.87 -- --- 0.07 1.4 78.9 0.0 0.03 SAND 10 23 1.96 -- --- 0.09 -- 1.7 112.9 0.0 0.01 SAND 14 31 1.99 -_ - 0.11 2.1 144.8 0.2 0.15 SAND 19 40 1.84 - - 0.13 2.4 149.6 0.5 0.30 SAND 20 41 1.69 -- --- 0.15 -- 2.7 145.5 0.7 0.47 SAND 21 41 1.52-_ __- 0.17 ' 3.1 141.4 0.9 0.64 SAND 22 41 1.33 - - 0.19 3.4 143.1 0.7 0.47 SAND 21 38 1.51 -- --- 0.21 -- 3.7 126.7 0.5 0.39 SAND 18 32 1.56 -- --- 0.23 4.0 106.6 0.4 0.36 SAND 15 26 1.56 47 82 0.25 =_ 4.4 95.2 0.3 0.33 SAND 13 23 1.58 47 78 0.27 4.7 95.2 0.3 0.33 SAND 13 22 1.57 46 77 0.29 -- 5.0 93.9 0.3 0:31 S*P:D 13 22 1.59 46 76 0.31 ' 5.3 97.6 0.3 0.31 SAND 14 22 1.61 46 77 0.33 5.7 100.6 0.3 0.29 SAND 14 22 1.64 46 77 0.35 -- 6.0 6.3 101.0 98.1 0.3 0.3 0.29 0.28 SAND SAND 14 14 21 20 1.64 1.65 45 45 77 75 0.38 =_ 0.40 6.7 96.6 0.3 0.28 SAND 13 20 1.64 45 74 0.42 7.0 102.0 0.3 0.25 SAND 14 20 1.68 45 75 0.44 -- 7.3 102.0 0.2 0.24 SAND 14 20 1.71 44 75 0.46 7.6 96.6 0.3 0.27 SAND 13 19 1.65 44 73 0.48 8.0 98.0 0.3 0.35 SAND 14 19 1.55 44 73 0.50 -- 3.3 110.2 0.4 0.34 SAND 16 21 1.59 44 76 0.52 8.6 117.0 0.4 0.30 SAND 16 22 1.65 44 77 0.54 8.9 121.3 0.3 0.24 SAND 16 22 1.73 44 77 0.56 -- 9.3 125.8 0.3 0.25 SAND 17 22 1.73 44 78 0.58 ' 9.6 134.8 0.4 0.27 SAND 18 23 1.71 44 80 0.60 =_ 9.9 133.3 0.4 0.29 SAND 18 23 1.69 44 79 0.62 10.2 133.3 0.3 0.24 SAND 18 22 1.74 44 79 0.64 -- 10.6 160.5 0.4 0.25 SAND 22 26 1.75 45 85 0.66 ' 10.9 131.9 0.5 0.39 SAND 19 23 1.57 44 77 0.68 P 2 O N E E R Max LL = N G , INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. o N N1 MM DEG % TSF TSF. , 11.2 130.9 0.5 0.38 SAND 18 22 1.58 43 76 0.70 -- ' 11.5 126.5 0.7 0.51 SAND 19 22 1.43 43 75 0.72 -- 11.9 107.4 0.8 0.78 SAND 18 21 1.05 42 69 0.74 -- 12.2 93.6 1.6 1.67 SILTY SAND 25 29 0.09 41 64 0.76 -- 12.5 102.0 1.5 1.44 SAND 25 29 0.20 42 66 0.78 -- 12.9 108.8 1.3 1.17 SAND 22 25 0.59 42 68 0.80 -- 13.2 62.6 2.1 3.32 SANDY SILT AND SILT 23 25 0.03 39 47 0.82 -- 13.5 37.9 1.4 1.38 SAND 24 26 0.23 41 63 0.84 -- 13.3 71.4 1.4 1.96 SILTY SAND 20 22 0.07 39 51 0.87 -- 14.2 57.1 1.8 3.10 SANDY SILT AND SILT 20 22 0.03 38 43 0.89 -- 14.5 77.5 1.9 2.48 SILTY SAND 23 24 0.06 40 52 0.91 -- 14.8 95.7 1.2 1.21 SAND 21 22 0.42 41 60 0.93 -- 15.2 99.3 1.1 1.11 SAND 20 21 0.59 41 61 0.95 -- 15.5 15.8 43.5 68.2 1.5 1.7 3.40 2.48 SANDY SILT AND SILTY SAND SILT 18 21 18 21 0.02 0.05 36 39 32 45 0.97 -- 0.99 -- , 16.1 106.6 0.8 0.75 SAND 18 18 1.09 41 62 1.01 -- 16.5 70.7 1.1 1.61 SILTY SAND 19 19 0.09 39 45 1.03 -- 16.8 35.4 1.3 3.68 CLAYEY SILT AND SILTY CLAY 16 16 --- -- --- 1.05 2.14 17.1 28.6 1.0 3.43 SANDY SILT AND SILT 13 12 0.01 34 20 1.07 -- , 17.5. 82.9 1.9 2.23 SILTY SAND 24 23 0.07 39 50 1.09 -- 17.8 134.6 2.2 1.66 SAND 33 32 0.22 41 68 1.11 -- 18.1 127.8 3.5 2.73 SILTY SAND 38 36 0.06 41 66 1.13 -- 18.4 137.4 2.5 1.79 SILTY SAND 36 34 0.10 41 68 1.15 -- 18.8 193.1 1.6 0.83 SAND 31 28 1.25 43 81 1.17 -- 19.1 198.7 1.9 0.94 SAND 32 30 1.16 43 81 1.19 -- ' 19.4 183.6 1.7 0.90 SAND 30 27 1.16 42 78 1.21 -- 19.8 171.4 1.9 1.08 SAND 30 27 0.97 42 75 1.23 -- 20.1 140.1 1.6 1.17 SAND 27 24 0.77 41 66 1.25 -- 20.4 132.0 1.6 1.23 SAND 26 23 0.67 41 64 1.28 -- , 20.7 108.8 1.0 0.93 SAND 20 17 0.88 40 56 1.30 -- 21.1 122.4 0.5 0.39 SAND 17 15 1.56 40 60 1.32 -- 21.4 155.0 0.7 0.42 SAND 22 19 1.58 41 69 1.34 -- 21.7 148.2 0.8 0.56 SAND 22 19 1.43 41 67 1.36 -- 22.0 142.8 0.8 0.57 SAND 21 18 1.41 41 65 1.38 -- 22.4 124.9 0.6 0.50 SAND 18 16 1.44 40 59 1.40 -- 22.7 93.8 0.8 0.90 SAND 17 15 0.82 38 47 1.42 -- 23.0 55.8 1.6 2.83 SANDY SILT AND SILT 19 16 0.04 36 29 1.44 -- 23.4 73.5 1.7 2.31 SILTY SAND 22 18 0.06 37 38 1.46 -- 23.7 160.7 1.4 0.86 SAND 26 22 1.15 41 68 1.48 -- ' 24.0 185.0 1.4 0.76 SAND 29 24 1.30 41 73 1.50 -- 24.3 214.9 1.6 0.74 SAND 32 26 1.39 42 79 1.52 -- 24.7 257.0 2.0 0.76 SAND 38 30 1.48 43 86 1.54 -- 25.0 274.7 2.2 0.78 SAND 40 32 1.50 43 89 1.56 -- 11 I I 11 I [J I I P 2 O N E E R D R 2 L L 2 N G DEPTH QC FS £T. TSF. TSF 25.3 282.9 1.0 25.7 136.6 1.9 26.0 288.3 1.9 26.3 282.9 1.9 26.6 288.3 1.9 27.0 273.4 1.7 27.3 240.7 2.0 27.5 108.8 2.5 28.0 100.6 3.4 28.3 102.1 3.4 28.6 54.4 1.7 28.9 54.5 1.6 29.3 176.8 3.3 29.6 243.4 3.8 29.9 191.5 3.8 30.2 66.1 2.4 30.6 49.1 1.8 30.9 38.1 1.7 31.3 69.4 2.9 31.6 36.7 1.3 31.9 32.6 0.8 32.3 38.1 0.9 32.6 42.4 1.1 32.9 51.7 2.2 33.2 112.0 4.4 33.6 100.6 4.6 33.9 151.0 5.2 34.2 149.6 4.5 34.5 53.0 2.9 34.9 46.2 2.6 35.2 49.0 2.7 35.5 32.6 2.0 35.9 47.6 1.4 36.2 35.4 1.2 36.5 44.9 2.4 36.8 133.3 4.3 37.2 250.2 3.9 37.5 322.3 4.4 37.8 376.7 5.5 38.2 308.2 4.5 38.5 266.6 4.8 38.8 186.3 5.4 39.1 136.9 6.2 INTERPRETED CONE PENETRATION TEST DATA FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU o N N1 MM DEG a TSF TSF. 0.35 SAND 36 29 1.91 43 90 1.58 -- 1.41 SAND 29 23 0.50 40 59 1.60 -- 0.66 SAND 40 32 1.64 43 90 1.62 -- 0.68 SAND 40 31 1.62 43 89 1.64 -- 0.65 SAND 40 31 1.66 43 89 1.67 -- 0.60 SAND 38 29 1.66 43 87 1.69 -- 0.82 SAND 36 28 1.39 42 81 1.71 -- 2.32 SILTY SAND 31 24 0.07 38 47 1.73 -- 3.37 SANDY SILT AND SILT 34 26 0.04 38 44 1.75 -- 3.33 SANDY SILT AND SILT 34 26 0.04 38 44 1.77 -- 3.18 SANDY SILT AND SILT 20 15 0.03 35 22 1.79 -- 2.97 SANDY SILT AND SILT 19 14 0.04 35 22 1.81 -- 1.88 SAND 43 32 0.23 40 66 1.83 -- 1.56 SAND 47 34 0.73 42 80 1.85 -- 2.00 SAND 48 35 0.19 41 69 1.87 -- 3.59 SANDY SILT AND SILT 26 19 0.02 35 27 1.89 -- 3.71 SANDY SILT AND SILT 21 15 0.01 34 20 1.91 -- 4.52 CLAYEY SILT AND SILTY CLAY 19 14 --- -- --- 1.93 2.26 4.22 CLAYEY SILT AND SILTY CLAY 32 22 --- -- --- 1.95 4.21 3.59 SANDY SILT AND SILT 16 11 0.01 32 20 1.97 -- 2.48 SANDY SILT AND SILT 11 8 0.04 32 20 2.00 -- 2.31 SANDY SILT AND.SILT 12 9 0.04 32 20 2.02 -- 2.50 SANDY SILT AND SILT 14 10 0.04 33 20 2.04 -- 4.20 CLAYEY SILT AND SILTY CLAY 24 17 --- -- --- 2.06 3.10 3.94 SANDY SILT AND SILT 44 30 0.02 37 44 2.O6- -- 4.54 CLAYEY SILT AND SILTY CLAY 47 32 --- -- --- 2.10 6.16 3.43 SANDY SILT AND SILT 49 33 0.04 39 55 2.12 -- 2.97 SILTY SAND 45 30 0.06 39 54 2.14 -- 5.37 CLAY 53 35 --- -- --- 2.16 3.18 5.64 CLAY 46 31 --- -- --- 2.18 2.75 5.56 CLAY 49 32 --- -- --- 2.20 2.92 6.10 CLAY 33 21 --- -- --- 2.22 1.90 2.94 SANDY SILT AND SILT 17 11 0.03 33 20 2.24 -- 3.51 SANDY SILT AND SILT 15 10 0.01 31 20 2.26 -- 5.44 CLAY 45 29 --- -- --- 2.28 2.66 3.20 SANDY SILT AND SILT 42 27 0.05 38 47 2.30 -- 1.56 SAND 48 30 0.75 41 75 2.32 -- 1.37 SAND 54 34 1.08 42 85 2.34 -- 1.47 SAND 63 39 1.08 43 91 2.36 -- 1.44 SAND 54 33 0.98 42 83 2.38 -- 1.82 SAND 55 34 0.56 41 77 2.41 -- 2.91 SILTY SAND 54 33 0.07 39 61 2.43 -- 4.51 CLAYEY SILT AND SILTY CLAY 61 38 --- -- --- 2.45 8.41 P 2 O IV E E R D R S L L = N G DEPTH 2C FS FR FT. TSF. TSF. INTERPRETED CONE PENETRATION TEST DATA SUIT BEHAVIOR TYPE SPT D50 PHI DR PO SU N N1 MM DEG TSF TSF 39.5 257.0 6.0 2.32 SILTY SAND 68 41 0.10 41 74 2.47 -- =9.3 2:0.2 DATE 3 01/03/68 ' LOCATION a PC -10 FILE N 13 LOCAL FRICTION FRI 0 TIP RESISTANCE (Ton/ft'2) SDO D (Ton/ft'Z) 5 0 0 I 1 I 1 [1 ' DEPTH (M) I 1 C L� I P Z O N E E R D R 2 L L 2 N G I INTERPRETED CONE PENETRATION TEST DATA I ' PROJECT NAME: HIGHLAND SOIL PROJECT ?:0. 6574012-0 LOC?.TION PC -10 DATE 01/03/88 AVERAGE UNIT WEIGHT OF SOIL PPCF)-- 125 DEPTH QC FS £R SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU _. "S£. "SF. o N III MM 'EG 'TSF TSF C.1 =0.2 0.0 0.13 SILTY SAND 3 11 0.08 -- --- 0.01 -- 0.4 30.4 0.0 0.05 SILTY SAND 5 16 0.10 -_ - 0.03 0.8 40.8 0.0 0.10 SAND 6 15 1.64 - - 0.05 1.1 69.1 0.0 0.03 SAND 9 22 1.95 -- --- 0.07 -- 1.4 142.8 0.5 0.32 SAND 20 46 1.66 -_ - 0.09 1.7 186.8 0.8 0.44 -SAND 26 58 1.60 - - 0.11 == 2.1 138.0 0.5 0.34 SAND 19 40 1.64 - - 0.13 2.4 133.7 0.6 0.43 SAND 19 39 1.54 -- --- 0.15 -- 2.7 170.6 1.3 0.74 SAND 27 52 1.29 -_ - 0.17 3.1 151.0 0.9 0.58 SAND 23 43 1.41 - - 0.19 3.4 191.7 0.9 0.46 SAND 27 50 1.58 -- --- 0.21 -- 3.7 4.3 194.6 216.9 0.8 0.8 0.43 0.26 SAND SAND 27 29 49 51 1.61 1.73 -- 48 --- 100 0.23 =_ 0.25 4.4 130.9 C.5 0.52 SAND 26 45 1.52 48 99 0.27 4.; 159.0 0.9 0.55 SA11D 23 Z9 1.45 46 94 0.29 -- :.0 153.6 0.3 0.51 SAND 22 36 1.48 46 93 0.31 ' 5.3 148.6 0.7 0.48 SAND 22 34 1.50 48 92 0.33 5.7 149.:. 0.7 0.50 SAND 22 34 1.49 47 91 0.35 -- 6.0 143.1 0.6 0.45 SAND 21 31 1.53 47 89 0.38 =_ ' 6.3 135.3 0.7 0.48 SAND 20 30 1.49 46 86 0.40 6.7 130.4 0.6 0.44 SAND 19 28 1.51 46 84 0.42 -- 7.0 125.1 0.5 0.43 SAND 18 26 1.52 46 82 0.44 -- 7.3 137.5 0.5 0.39 SAND 19 28 1.58 46 84 0.46 7.6 159.8 0.6 0.34 SAND 22 31 1.66 46 90 _= 0.48 8.0 168.1 0.6 0.3.5 SAND 23 32 1.67 46 91 0.50 -- 8.3 178.4 0.7 0.40 SAND 25 34 1.63 46 92 0.52 8.6 126.4 0.7 0.43 SAND 22 30 1.57. 46 87 0.54 8.9 124.6 0.4 0.31 SAND 17 23 1.65 44 78 0.56 -- 9.3 102.8 0.3 0.27 SAND 14 18 1.66 43 72 0.58 9.6 64.1 0.3 0.48 SAND 11 13 1.14 41 56 0.60 == 9.9 62.8 0.3 0.54 SAND 11 14 1.02 40 54 0.62 10.2 59.3 0.3 0.52 SAND 10 13 1.01 40 52 0.64 -- 10.6 49.1 0.6 1.16 SILTY SAND 13 16 0.09 39 45 0.66 10.9 49.0 0.4 0.74 SAND 13 15 0.14 39 45 _= 0.68 P 2 O N E E R D R 2 L I.. S N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR - SOIL EEHAVIOR TYPE SPT D50 PHI DR PO SU .T. TSF. TSF. 11 N1 MM DEG 06 TSF TSF. 11.2 119.1 0.5 0.42 SAND 17 20 1.52 43 73 0.70 -- 11.5 142.8 0.7 0.48 SAND 21 24 1.50 44 79 0.72 -- 11.: 152.3 0.8 0.54 SAND 22 26 1.45 44 81 0.74 -- 2.2 164.1 0.9 0.56 SAND '_4 28 1.45 44 83 0.76 -- 12.5 156.2 0.6 0.36 SAND 22 25 1.64 44 81 0.78 -- 12.9 153.7 0.5 0.34 SAND 21 24 1.66 44 30 0.80 -- _3.2 154.' S 0.3: SAND 21 24 1.65 44 '.9 0.82 -- _70.0 ?.8 0.45 SAND 24 26 1.57 44 32 0.84 -- 13.3 .72.5 G.'o 0.48 SAND 25 27 1.55 44 32 0.87 -- 14.2 206.4 1.20.56 SAND 30 32 1.52 45 89 0.89 -- 14.5 193.8 1.2 0.64 SAND 29 30 1.42 44 86 0.91 -- 14.3 199.6 1.2 0.62 SAND 29 31 1.45 44 87 0.93 -- 15.2 176.4 0.9 0.50 SAND 25 26 1.52 43 81 0.95 -- 15.5 132.8 0.6 0.44 SAND 19 19 1.52 42 71 0.97 -- " 15.8 128.6 0.8 0.60 SAND 20 20 1.34 42 69 0.99 -- 16.1 185.3 1.0 0.55 SAND 27 27 1.49 43 82 1.01 -- 16.5 192.9 0.9 0.45 SAND 27 27 1.59 44 83 1.03 -- 100.3 '_97.1 0.9 0.47 SAND 28 27 1.58 44 84 1.05 -- 17.1 195.9 0.-9 0.43 SAND 27 27 1.61 43 83 1.07 -- 17.5 200.0 0.9 0.43 SAND 28 27 1.62 43 83 1.09 -- 17.8 195.3 0.9 0.45 SAND 27 26 1.60 43 82 1.11 -- 13.1 193.1 0.9 0.47 SAND 27 26 1.57 43 31 1.13 -- 18.4 185.3 0.3 0.42 SAND 26 24 1.61 43 79 1.15 -- 13.3 _55.2 0.6 0.41 SAND 22 20 1.59 42 -2 1.17 -- 19.": 94.0 9 0.9v SAND 18 16 0.81 39 52 1.19 -- 19.4 07.1 1.2 1.32 SAND 22 20 0.18 39 49 1.21 -- _9.8 ?9.6 0.8 1.67 SILTY SAND 14 13 0.07 36 29 1.23 -- 20.1 131.7 1.1 0.80 SAND 22 20 1.13 41 64 1.25 -- 20.4 195.9 1.1 0.54 SAND 28 25 1.52 43 79 1.28 -- 20.7 181.0 0.8 0.46 SAND 26 23 1.57 42 76 1.30 -- 21.1 119.6 0.9 0.71 SAND 19 17 1.19 40 59 1.32 -- 21.4 38.1 0.5 1.34 SILTY SAND 11 10 0.07 34 20 1.34 -- 21.7 24.4 0.2 0.74 SILTY SAND 7 6 0.08 32 20 1.36 -- 22.0 31.3 0.7 2.24 SANDY SILT AND SILT 10 9 0.04 33 20 1.38 -- 22.4 47.6 0.0 0.04 SAND 6 5 1.89 35 24 1.40 -- 22.7 10.8 1.6 14.67 CLAY 11 9 --- -- --- 1.42 0.59 23.0 76.2 2.0 2.59 SILTY SAND 23 19 0._05 37 39 1.44 -- 23.4 88.4 1.4 1.63 SILTY SAND 24 20 0.09 38 44 1.46 -- 23.7 105.8 1.2 1.11 SAND 21 18 0.65 39 50 1.48 -- 24.0 115.6 1.0 0.87 SAND 20 16 0.99 39 53 1.50 -- 24.3 87.2 1.5 1.73 SILTY SAND 24 19 0.09 38 42 1.52 -- 24.7 49.6 1.5 3.00 SANDY SILT AND SILT 18 14 0.03 35 23 1.54 -- 25.0 87.7 1.2 1.39 SILTY SAND 23 19 0.10 38 42 1.56 -- I [1 I I P = O N E E R D R 2 L L S N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FT. TSF. TSF. 25.3109.6 1.2 25.7 035.7 1.9 2.i.0 44.8 2.2 26.3 -2.1 2.3 26.6 133.7 1.4 27.0 150.0 1.9 27.' 157.1 1.9 - -^4 28.0 176.8 1.3 28.3 161.7 0.9 28.6 160.0 1.1 23.9 240.4 3.7 29.2 220.3 2.9 29.6 214.4 1.8 29.9 177.9 0.8 30.2 142.8 0.9 30.6 61.5 0.3 30.9 34.0 0.6 31.3 35.7 0.9 31.6 25.8 0.4 31.9 22.0 0.4 32.2 28.6 0.6 -Z.S 28.6 1.3 3....J 55.0 3.1 33.2 '2.8 2.9 33.6 100.0 3.0 33.9 98.6 3.7 34.2 53.9 2.8 34.5 108.8 4.5 34.9 191.8 3.4 35.2 181.6 5.0 35.5 191.8 5.1 35.9 217.4 3.5 36.2 135.9 4.4 36.5 118.1 4.5 36.6 94.6 4.5 27.270.7 3.7 37.5 154.5 4.1 37.8 233.9 3.6 38.2 170.7 3.9 38.5 106.7 5.3 38.8 126.5 3.3 39.1 126.5 3.2 FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU % N N1 MM DEG TSF TSF. 1.13 SAND 22 18 0.64 29 50 1.58 -- 2.16 SILTY SAND 25 19 0.07 37 41 1.60 -- 4.86 CLAYEY SILT AND SILTY CLAY 24 19 --- -- --- 1.62 2.70 3.25 SANDY SILT AND SILT 25 20 0.03 36 34 1.64 -- 1.05 SAND 24 19 0.86 39 57 1.67 -- '.24 SAND 29 22 0.74 40 62 1.69 -- i.20 SAND 29 23 0.30 40 63 1.71 -- C.95 SAND 23 25 1.17 41 74 1.72 -- 0.74 SAND 27 21 1.30 40 67 1.75 -- 0.55 SAND 24 18 1.46 40 63 1.77 -- 0.66 SAND 24 18 1.35 40 63 1.79 -- ;.52 SAND 46 34 0.76 42 80 1.81 -- 1.31 SAND 40 29 0.89 41 75 1.83 -- 0.86 SAND 33 25 1.28 41 74 1.85 -- 0.45 SAND 25 18 1.58 40 66 1.87 -- 0.63 SAND 22 16 1.34 29 56 1.89 -- 0.44 SAND 10 7 1.19 35 24 1.91 -- 1.71 SILTY SAND 10 7 0.06 32 20 1.93 -- 2.49 SANDY SILT AND SILT 12 9 0.04 32 20 1.95 -- 1.63 SILTY SAND 8 6 0.05 30 20 1.97 -- 1.59 SANDY SILT AND SILT 7 5 0.05 30 20 2.00 -- Z.14 SANDY SILT AND SILT 9 7 0.04 31 20 2.02 -- 5.46 CLAY 29 20 --- -- --- 2.04 1.66 3.64 SANDY SILT AND SILT 32 22 0.03 26 34 2.06 -- 4.01 SANDY SILT AND SILT 31 21 0.01 35 28 2.08 -- 3.03 SANDY SILT AND SILT 31 21 0.05 37 40 2.10 -- 3.75 SANDY SILT AND SILT 37 25 0.03 37 39 2.12 -- 5.10 CLAYEY SILT AND SILTY CLAY 30 20 --- -- --- 2.14 3.23 4.13 SANDY SILT AND SILT 45 30 0.02 37 42 2.16 -- 1.79 SAND 43 29 0.38 40 65 2.18 -- 2.76 SILTY SAND 52 34 0.07 39 62 2.20 -- 2.66 SILTY SAND 54 35 0.08 40 64 2.22 -- 1.61 SAND 44 29 0.62 40 70 2.24 -- 3.22 SANDY SILT AND SILT 42 27 0.05 38 49 2.26 -- 3.84 SANDY SILT AND SILT 44 28 0.03 37 43 2.28 -- 4.72 CLAYEY SILT AND SILTY CLAY 46 29 --- -- --- 2.30 5.77 5.19 CLAYEY SILT AND SILTY CLAY 38 24 --- -- --- 2.32 4.27 2.52 SILTY SAND 44 28 0.07 38 53 2.34 -- 1.53 SAND 45 28 0.74 40 71 2.36 -- 2.31 SILTY SAND 47 29 0.09 39 57 2.38 -- 4.92 CLAYEY SILT AND SILTY CLAY 53 33 --- -- --- 2.41 6.52 2.57 SILTY SAND 37 22 0.07 37 44 2.43 -- 2.51 SILTY SAND 36 22 0.07 37 44 2.45 -- P 2 O N E E R D R S L L 2 N G INTERPRETED CONE PENETRATION TEST DATA DEPTH QC FS FR SOIL BEHAVIOR TYPE SPT D50 PHI DR PO SU FT. TSF. TSF. t N N1 MM DEG TSF TSF 39.5 104.7, -.9 4.72 CLAYEY SILT AND SILTY CLAY 50 30 --- --- 2.47 6.39 39.9 'S.Z DATE . 01/04/89 LOCATION . PC -12 FILE M 18 LOCAL FRICTION FRICTION RATIO 0 TIP RESISTANCE (Ton/ft'Z) 500 0 (Ton/ft'2) 5 0 (PERCENT) B 0 I i I I' i 'I II I I 'i i SII i DEPTH (m) i II 11 [1 I L [J 11 P S O N E E R D R = I.. L = N G INTERPRETED CONE PENETRATION TEST DATA -FO E._. .L,ME . 3IG::LA2iD :OIL.: PFO.iECT NC. 6574=)12-) DATE 1/04;89 AVEFA3E L2:IT WEI_-:HT -. s:I = F' -- --- FS -F SOIL BEHAVIOR TYPE SPT D50 PHI ER PO SU cT. TSF. TSF. N 211 '.MDEG TSF TSF SAND _ 34 0.4 -- --- )5 -- _.- ----- 3.: -._° 7A2ID 42 99 0.34 -- --- ;.07 -- -•- _.32 3AND 36 :34 C.81 -- --- 0.09 -- _.' 3.0 _.80 SAND 40 o3 0.:5 -- --- 0.1 -- 2.1 104.4 2.6 2.47 SILTY SAND 36 =4 0.07 -- --- 0.13 -- ?.} 1.47 SILTY SAND 21 44 0.09 -- --- 0.15 -- :.7 '8.0 1.2 1.47 SILTY SAND 21 41 0.09 -- --- 0.17 -- 3.'. 74.4 3.0 2.67 SILTY SAND 23 43 G.US -- --- 0.19 -- 3.4 125.7 2.3 :.34 SILTY SAND 24 62 0.1 -- --- 0.21 -- 3.7 124.3 ).9 0.72 SAND 20 36 1.19 -- --- 0.23 -- 4.0 1'.2.- 0.71 C.64 SAND 16 29 1.ZC 47 31 0.25 -- 4..1 ?�.8 J.5 :.56 SAND 13 23 _.li -_ 46 74 0.27 -- 4.7 :._ .3 0.42 SAND 12 20 1.:0 45 73 0.23 -- `_.0 ::4.7 ^.5 _ SAND 16 26,:.: .6 Z0 -1.21 -- ,. Ei SAND j7 -' - - 46 30 .._13 -- 5.-48 S 2dD 14 :: 1.37 45 -3 ;.35 -- E SAPID1J 15 1.33 44 -,0 0.33 -- 6.3 :5.9 0.2 0.66 SILTY SAND 7 11 0.08 23 39 0.40 -- 6.71 62.5 0.2 0.35 SAND 10 14 1.36 42 62 0.42 -- 7.0 55.1 0.3 0.45SAND 9 14 1.04 4Z 37 0.44 -- 7.3 58.4 0.3 0.56 SAND 11 15 0.89 42 58 0.46 -- 1.6 31.6 0.4 0.54 SAND 13 18 1.22 43 68 0.48 -- 8.0 .-I 0.5 0.49 SAND 14 20 1.35 44 72 0.50 -- S.3 98.4 0.5 0.54 SAND 15 21 1.31 44 72 0.52 -- 8.6 95.9 0.5 0.51 SAND 15 20 1.34 43 71 0.34 -- 3.9 66.0 0.8 1.20 SILTY SAND 18 23 0.10 41 58 0.56 -- 9.3 33.3 1.0 3.00 SANDY SILT =.ND SILT 13 17 0.02 38 38 0.58 -- 9.6 21.5 0.5 -.3-7 SANDY SILT AND SILT 8 10 0.03 25 25 0.60 -- 9.9 46.7 1.0 2.23 SILTY SAND 14 18 0.05 39 45 0.62 -- 10.2 47.6 1.6 2.32 SANDY SILT AND SILT 18 23 0.02 39 45 0.64 -- 10.2 50.2 1.6 3.19 SANDY SILT AND SILT 19 23 0.03 39 46 0.66 -- 10.9 59.8 1.1 1.717 SILTY SAND 17 Z1 0.07 40 51 0.68 -- E R D R = L L 2 N G P S O N E INTERPRETED CONE PENETRATION TEST DATA S =R 301L to A I :, `:PE SPT Z50 c-_ -.. 30 SJ 'T.. 75F. 75F. .. - .. :Ii :-IM ZcG "SF TSF. - • - : 0 .: _ . _ .. 07 CL'YE" YE'_ ZTL? :-.ND SZLTY =1 AY : i 17 --- -- --- :. 7 ^ 1.. 1 3.13 SANDY JIT, AND SILT '4 .G ? 4 .72 -- SANDY 31-7 .'ND O Ii:T 17 0 0 . 0 3 1 0.74 -- , _.: _ .:3 SZL:_ 3AND 21 _� ,.. '_ _- C.76 -- :.5 SAND 23 26 C.:9 4' :4 0.73 -- __.: u9 SILTY SAND 11 24 " D9 40 _.54 SILTY SEND Z'_ Z6 0.09 41 0 0.82 -- _.: c._ _.74 SILTY SAND Z4 := 0.09 11 x.84 -- -.: SEND -_9 _2 0.5_ __ 4 0.67 -- ;.14 , J 1.7 :.75 SINTI SAND -8 0.C9 -1 :1 0.91 14.3 71.4 i.Z 1.62 SILTY SAND 20 :D 0.08 :: 9 0.93 -- `.: _.0 1.56 SILTY SAND 18 19 0.08 :3 46 0.95 -- I SILTY 3A14D 11 17 0.03 3 41 0.97 -- 15.E 51.7 C.1 0.19 SAND 7 7 1.55 37 '_6 0.99 -- 16.1 11.22 1.1 10.16 CLAY 1: 11 --- -- --- 1.01 0.64 15.5 57.2 0.3 1.33 SILTY SAND 16 15 0.09 33 .9 1.03 -- , .0 1.63 SILTY SAND i6 12 J.OS :_ 1_9 1.C5 -- 17.1 46.5 _._ :.03 SAND ILT AND SILT 15 15 0.03 --5 31 1.07 -- 17.`_ '10.1 1._ 3.04 SANDY SILT AND SILT 15 14 0.03 16 26 1.09 -- , 7.0 -:.S SILTY SAND 19 19 0.10 28 44 i.11 -- :c.l1.3 Z.D 311TY SAND :4 23 0.07 39 49 1.13 -- 13.1 140.6 1.1 0.75 SAND Z2 21 1.21 1 i9 1.15 -- _s.: __5.: 1.5 0.38 ;AND Z7 :5 _._2 _ 74 1.1'. -- ' _._ 3AND __ _9 _.�; ._ >_ ..i9 _- :.: :=). 1.4 V.7i SAND i0 :3 1.77 :3 31 1.21 -- 1a.8 137.J 1.'1 J.. - SAN i o 8 1.23 _- 20.1 196.1 1.Z ).61 SAND 29 26 1.45 43 30 1.25 -- Z0.4 134.4 ":.. 7.57 SAND 27 24 1.47 42 2.7 1.28 -- :0.7 151.9 0.8 C.55 SAND 22 20 1.45 41 69 1.30 -- 21.1 132.1 0.6 :.45 SAND 19 1-'1.52 40 53 1.32 -- , 21.4 _21.7 0.4 0.33 SAND 17 15 1.63 40 60 1.34 -- _1.7 135.6 0.5 ^.40 SAND 18 16 1.56 40 60 1.36 -- 155.0 0.7 0.44 SAND 22 19 1.56 41 68 1.38 -- ' Z2.4 172.3 1.0 0.60 SAND 26 Z2 1.43 41 72 1.40 -- :2.7 177.6 0.9 0.50 SAND 26 ZZ 1.53 42 73 1.42 -- :3.0 -_26.4 1.2 0.51 SAND 32 27 1.62 43 82 1.44 -- ' 23.4 2_2.7 1.2 0.53 SAND 31 Zu 1.60 42 31 1.46 -- _:.7 322.4 1.3 0.60 SAND 32 27 1.53 42 81 1.48 -- 24. 237.7 1.4 0.58 SAND 33 Z3 1.60 43 83 1.50 -- 24.Z 233.2 1.5 0.63 SAND 33 27 1.53 43 82 1.52 -- ' 24.7 213.3 1.4 O.o4 SAND 32 :6 1.48 42 79 1.54 -- Z5.0 198.6 1.2 0.59 SAND 29 23 1.47 42 75 1.56 -- _ P S O N E E R D R S L L rEPT_ cS INTERPRETED CONE PENETRATION TEST DATA S N G -.R '_. TS=. F. 7 H I R ?0 :.0 ?d N1 MM LEG TSF TSF. 5- SAND _°_.45 41-- 4S SAND 23 13 _. _ _. _.60 2... 1C4 �S 20 -7. 197."_ D. _.•42 SAND _2 i7 1.57 40 33 1.64 -- 0.40 SAND __ 13 1.61 40 ;. 1.67 -- ^9 24r. '_1 i6 .9.5 _55.1- 1.3 -- 243.3 1:3 ,_0.2 20 _.51 41 _0 :0.9 -- 37SA?dL 31.3 262.`_ 1.7 ' -1.6 251.4 1.E °= 31.° '5' S 1.4 - -.75 -- ' i3•- ----- - 0 34._ 2110.- 4_ -`- 4.5 110.5 1.4 -SAND 34.9 125.1 3. ' 35._ 35.4 _.0 J.40 25.5 31.3 0.5 1.37 35.9 12.1 0.2 -- 36.2 14.6 0.5 24 36.5 80.3 1.3 1.85 36.8 28.4 1.4 35 37.ZZ r- 42 81 37 '- 158.E 0.O SAND 34 25 1.7 42 38.2 206.c 1.0 ' 38.5 180.5 0.9 1.58 3E.3 147.6 0.8 -- 0.59 132... 0.7 '39.: 1.66 42 ;2 INTERPRETED CONE PENETRATION TEST DATA S N G -.R SOIL c'cH .VI R TYPE SPT :�`_ 0 7 H I R ?0 :.0 ?d N1 MM LEG TSF TSF. 5- SAND _°_.45 41-- 4S SAND 23 13 _. _ a 75 _.60 -- 44 SAND 20 I 1.54 40 _.•42 SAND _2 i7 1.57 40 33 1.64 -- 0.40 SAND __ 13 1.61 40 ;. 1.67 -- 4? SAND '_1 i6 1.49 40 ?'1.69 -- 0.42 SAND 26 20 _.51 41 _0 1.71 -- 37SA?dL 27 r_ 1.67 :1 -2 1.73 -- °= SAND - -- - -.75 -- 40 SAND 0 -- _. 0 4_ -`- :.79 -- 0.43 -SAND 32 '_4 1.67 :2 -3 1.31 -- J.40 SAND "8 1 1.37 41 -'_ 1.83 -- 4.44 SAND 33 24 1.74 42 30 1.85 -- 0.50 SAND 35 25 1.71 42 81 1.87 -- 0.57 SAND 34 25 1.61 42 79 1.89 -- ^..62 SAND 35 25 1.58 42 79 1.91 -- 0.59 SAND 37 ^_6 1.66 42 ;2 1.93 -- 0.66 SAND 37 26 1.5'? 42 81 1.95 -- 0.63 SAND 36 25 1.58 42 79 1-.97 -- 0.54 SAND 35 25 1.68 42 30 2.00 -- ^.59 SAND 32 i.55 41 74 2.02 -- _.71 SILTY SAND 26 13 ;.0`_ 1:- '5 2.04 -- 6S SAND 27 18 .4 A Y') 3 .06 -- 54 SAND -- :.45 SAND __ i.60 -10 E 2.10 -- 1.27 SAND 32 i 1.7' 2.i2 -- :._ SILTY SAND 58 39 0.09 40 `9 2.14 -- 1.22 SAND 23 15 0.55 37 42 r.16 -- _ - SILTY SAND 35 23 C.)S 3°. 6 2.18 -- 2.74 SANDY SILT AND SILT 13 3 0.03 31 20 2.20 -- 1.69 SILTY SAND e 6 0.06 31 20 2.22 -- 1.91 SANDY SILT AND SILT 5 3 0.02 ,5 20 2.24 -- 3.35 CLAYEY SILT AND SILTY CLAY 7 5 --- -- --- 2.26 0.77 1.57 SILTY SAND 22 14 0.09 35 29 2.28 -- 4.93 CLAYEY SILT AND SILTY CLAY 16 10 --- -- --- 2.30 1.63 3.70 C'-AYEY SILT AND SILTY CLAY 12 7 --- -- --- 2.32 1.43 4.72 SAND 25 16 1.29 36 54 2.34 -- _.05 SAND 29 13 0.38 39 56 2.36 -- J.47 SAND 29 18 1.60 40 65 2.38 -- 0.48 SAND 26 16 1.55 29 60 2.41 -- ..5i SAND 22 13 1.48 38 50 2.43 -- 0.51 SAND 20 12 1.45 37 46 2.45 -- P = O N E E R D R = L L = N G INTERPRETED CONE PENETRATION TEST DATA .:OI- =E3A I0R -•Pr ADT IS'J i JI t:P. PO JU N N1 14M LEC TSF TSF. SANC _'f a_ a V :n _ J ... 4 i GATE 31/04/89 _ZZATION PC -i7 FILEL 0 22 LOCAL FRICTION (Tom/f6-2) E it II i (M) FRICTION RATIO (PERCENT) P S (D N E E R D R S L L S N G ' INTERPRETED CONE PENETRATION TEST DATA ?RO:E__ NAME: HIGHLAND SOILS :ATE 01%04 b9 -NIT WEIGHT --F SJIL PPCF)-- 125 ;•C cS cR .`'.-OIL ZEHAVIOR TYFE SPT L50 PHi 2R ?0 SU =T. TSF TSF. N t71 'MM DEG TSF TSF ;.1 ).78 SAND'I SILT AND-- J.� SAND 13 54 1 --- _- -- --- 0.03 .__.- 1.5 0.47 SAND 41 99 :.39 -- --- 0.05 -- ' 471.4 2.7 :.57 SAND AND GRAVEL 58 99 2.15 -- 0.07 `_C6.3 3.5 0.68 SAND u4 ?9 1.96 - --- - 0.09 -- 1.7 483.5 3.0 0.62 SAND 61 99 1.99 -- --- 0.11 -- ;73.8 2.7 0.72 SAND 51 99 1.7' -- 0.13 ' =.1 _.4 `_-0.7 3.3 1.32 SAND 44 69 0.97 -- -- 0.15 -- _._29.' 4.0 2.07 SILTY SAND 40 73 0.05 -- --- 0.17 -- 1.4 0.93 SAND 25 48 1:05 -_ 0.19 ' - 'J .9 ' .E9 SAN D 21 33 25 - --- - 0.21 =_ - 155.0 1.0 2.64 SAND 24 42 1.36 - - 0.23 4.. =40.3 1.1 C.75 SAND 22 29 1.22 48 ?2 9.25 -- =_2.V0.3 62 SAND 19 33 1.30 46 38 0.27 ^.5 48 SAND _5 _ 1 47 30 0.29 1i4 J.4 _.29 SAND _° 24 ___ 4J -? 0.31 -- ' -1.4 ).4 ".40 SAND SAND :_ 13 _: 21 '_.SC 1.4G 40 45 -3 75 0.23 0.35 u 34.9 0.4 42 SAND 13 19 1.40 44 72 0.38 -- 76.2 0.4 0.47 SAND 12 18 1.28 44 59 0.40 -- 71.4 0.2 J.42 SAND 11 16 1.32 43 66 0.42 ' _.7 0.3 0.98 SAND 11 16 1.39 43 65 0.44 _ 75.2 0.3 0.40 SAND 11 16 1.39 43 66 0.46 -- 7.6 37.7 3.0 77.4 0.4 1.1 0.40 1.43 SAND SILTY SAND 13 21 18 29 1.45 0.09 43 43 70 55 0.48 0.50 8.2 47.E 1.1 2.21 SILTY SAND 15 20 0.05 40 50 0.52 -- 3.6 56.0 1.3 1.99 SILTY SAND 19 25 0.07 41 59 0.54 ' _4.4 2.1 3.36 SANDY SILT AND SILT 24 31 0.01 40 52 0.56 =_ r 3 57.7 2.1 3.55 SANDY SILT AND SILT 23 30 0.02 40 53 0.58 ?.E ?5.1 1.9 1.98 SILTY SAND 26 34 0.08 43 69 0.60 -- 9.9 38.4 2.8 3.21 SANDY SILT AND SILT 30 37 0.04 42 66 0.62 t i0._ i5`_.1 3.4 -.20 SILTY SAND 42 52 0.09 45 84 0.64 '_07.4 2.7 0.88 SAND 45 55 i.48 18 100 0.66 -- iC.9 362.6 2.' 0.75 SAND 49 60 1.71 48 100 0.68 -- ' P 2 O N E E R D R S L L S N G ' INTERPRETED CONE PENETRATION TEST DATA ' 3C-:. .E:d: .'..2r. -=?I -PT Z10 c I =>. =C CU , c _ TSF. 'SF. N Ni .:M 22.2. TSF TSF. ' ;5 SAND ;3 - - - 18 ::0 :.70 -- 19' SAND 45 2_ _.__ .- ::;0 0.72 -- _.: SAND 54 e3 1.33 48 1'0 ^..74 -- , _.42 SA1d7 53 c1 1. DC - .00 0.76 -- --.__.21 SAND =7 '5 0.73 -- __.: 2== 1.7'- SAND 57 '64 0.71 17 :00 :J.80 -- _ 237.2 4.3 -.92 SAND 84 ? .'0 48 :-iC-- ' .13 AIM 84 i4._ _^ .: _.c ;.65 SAND 2- _4 _.ot 'S l.' : -- 14._ SAND AND GRAVEL 39 41 _.36 47 _C0 0.93 -- :5 : 30.2 2.9 2.53 SA14DY SILT AND SILT 30 21 0.03 10 =2 0.95 -- ..7' SAND 48 49 1.73 47 100 0.97 -- ' 15.3 _33.: 2.0 -.60 SAND 44 44 1.79 46 100 0.99 -- 16.1 329.1 C.2 J. C'S SAND AND :,RAVEL 34 34 4.62 46 100 1.01 -- iu.= 112.; 2.0 3.211 SANDY SILT AND SILT 22 22 0.03 8 41 1.03 -- ' :6.= X64.= 2.: =7 SAND 47 46 1.38 4', '_00 1.05 -- :7.1 :84.2 2.4 0.63 ;AND 50 49 i.E6 -7 :00 1.07 -- . 7.= :42.3 2.2 O.cS SAND 46 44 1.75 46 100 1.09 -- ' _- 3 251.: 1.3 0.52 SAND 25 33 _.68 44 92 1.11 -- lE.: c2.= 1.4 :.-2 SILTY SAND 23 21 0.09 39 =8 1.13 -- _c. _ _5.a ;.3 2.91 SANDY SANDY :;ZLT =-i1D ILT GILT AND SILT 10 '�•^. 6 0.C2 0.04 2.. -- 20 _0 1.15 _•.7 -- -- ' -.: LAYEY 3::.T "ND1.20 SANDY SANDY 'T AND SILT iT Al 1D SILT 26 20 24 18 0.02 0.02 3 :' -0 i.23 -- 0.1 2.2 1._ 2 2.96 SANDY _L_ AND SILT 115 14 0.03 35 23 1.25 -- 20.4 __.: 7 3.19 SANDY SILT AND SILT 10 9 0.01 22 20 1.28 -- 20.7 117.= 2.3 3.46 SANDY SILT AND SILT 25 22 0.03 3', 38 1.30 -- 21.1 8. 1.5 3.80 CLAYEY SILT AND SILTY CLAY 17 15 --- -- --- 1.32 2.32 , 21.4 29.2 0.7 2.26 SANDY SILT AND SILT 10 9 0.04 33 20 1.34 -- 21.7 _2.0 23.2 23.8 0.6 0.6 2.46 2.54 SANDT SANDY SILT AND SILT SILT AND SILT 9 9 7 8 0.02 0.02 32 32 20 20 1.36 1.38 -- -- ' _2.: 25.3 0.7 2.59 SANDY SILT AND SILT 10 8 0.03 32 20 1.40 -- 22.7 21.1 C.6 2.66 SANDY SILT AND SILT 8 7 0.02 31 20 1.42 -- "' "2 2 0.8 3.37 CLAYEY SILT AND SILTY CLAY 10 3 --- -- --- 11.44 1.30 , 23.4 27.: 1.1 2.83 CLAYEY SILT AND SILTY CLAY 13 .1 --- -- --- 1.46 1.65 23.7 1:7. 2.1 :.79SILTY SAND -T1 26 0.099 54 1.48 -- _4.0 L7.2 2.8 11.31 SAND 39 32 0.20 41 66 1.50 -- 24.2 122.4 ..2 3.40 SANDY SILT AND SILT 41 23 0.04 39 55 1.52 -- ' 24.7, 63.9 2.° 3.91 SANDY SILT AND SILT 27 22 0.01 36 31 1.54 -- __. 173.4 3.11 _... SILTY SAND 46 37 0.10 41 69 1.56 -- ' ' P S CD N E E R D R S L L S N G FT. TSF. TSF. 1 1 1 CJI II 7 Li INTERPRETED CONE PENETRATION TEST DATA =OIL BEHA"IIOF TYPE SPT D50 PHI PO SJ N Ni 7M :EG b TSF TSF. 06 SAND 2.9 43 _T _.-4 9J 34.3 2.6 '- 65.9 1.5 -5 36 _.. .'3.6 4.O _7._ _52. _.6 SANDY SILT AND SILT 28 22 0.04 J6 4O 1.62 -- _?. =32.1 3.3 2_.5' _50._ 5.5 30._ 406.4 5.1 3C. 449.6 5.i SIL': 27 21 31. 1 5 1 . 2 .5 3:.6 239.= 1.5 '1 =02.0 4.0 2.= 113_ 5.1 32. 58.a _ :.69 SAND 36 26 0.30 40 .52 1.71 34.2 147.8 3.3 34.- i07.a 3.4 4.9 6.6 2.7 __._ _6.6 1.3 35.3 34.0 1.2 35.3 43.5 1.4 36.2 29.5 0.8 36.5 35.4 1.0 36.5 40.7 1.3 17.2 26.7 0.8 37.- 27.3 1.2 37.- 55.6 1.E 33.Z 31.2 1.3 38.5 57._ 1.8 38.03 45.6 1.8 29.1 54.4 1.2 INTERPRETED CONE PENETRATION TEST DATA =OIL BEHA"IIOF TYPE SPT D50 PHI PO SJ N Ni 7M :EG b TSF TSF. 06 SAND 43 _T _.-4 9J Gs a.JS '- 1.31 SAND -5 36 1.00 43 36 i.60 -- 2.03 SANDY SILT AND SILT 28 22 0.04 37 4O 1.62 -- 2.28 SILTY SAND d ) 15 O.C6 =5 21 1.64 -- _._0 SANDY SILT F.ND SIL': 27 21 0.01 36 30 1.07 -- 4.01 SANDY SILT AND SILT 40 31 0.02 33 44 1.69 -- :.69 SAND 36 26 0.30 40 .52 1.71 -- a4 SANDY ZILT =.114D __L _2 24 =.02 35 5 1.73. -- _.-_ SANDY SILT AND 9ZLT :2 9 ..03 °2 _'O -.'.5 -- -•-- SANDY SILT AND SILT -- =.6a SILTY SAND 22 16 0.'3^• -16 35 1.79 -- i.52 SILTY SAND 11 3 0.07 =3 20 1.81 -- 3.37 SA17DY SILT AND SILT 28 21 0.03 36 35 1.83 -- 1.35 SAND 49 36 1.01 42 86 1.35 -- i.55 SAND 62 45 0.96 44 95 1.87 -- =.24 SAND 62 45 1.34 44 100 1.89 -- 1.13 'SAND 65 47 1.49 45 100 1.91 -- 0.98 SAND 60 43 1.60 44 100 1.93 -- O.E9 SAND 48 34 1.76 43 95 1.95 -- 0.52 SAND 40 28 1.30 42 37 1.97 -- 1.96 SAND 49 34 C.26 40 69 2.00 -- 4.52 CLAYEY SILT AND SILTY :.LAY 52 36 --- -- --- 2.C2 6.93 5.20 ZlAYE." SILT AND SILTY CLAY 33 23 --- -- --- 2.04 3.55 2.04 SILTY =AND 41 _3 ).c9 39 56 2.06 -- SANDY ---LT AND ST 41 Y1 -3 C.05 --a Y^- -. 8 4._„ S;UNDI SILT AND Sl:,. YJ .._ 'J. D1 3" =9 _.10 -- 5 =A14LY IL'1' AND SILT 33 22 0.03 36 36 2.12 -- '.23 SILT? SAND 41 27 0.09 39 54 2.14 -- 3.12 SANDY SILT AND SILT 34 23 0.05 37 41 2.16 -- 4.79 CLAYEY SILT AND SILTY CLAY 29 19 --- -- --- 2.18 3.40 3.53 SANDY SILT AND SILT 16 10 0.01 32 20 2.20 -- 3.56 SANDY SILT AND SILT 15 10 0.01 31 20 2.22 -- 3.29 SANDY SILT AND SILT 17 11 0.02 32 20 2.24 -- 2.57 SANDY SILT AND SILT 11 t 0.03 20 20 2.26 -- 2.77 SANDY SILT AND SILT 13 8 0.03 31 20 2.28 -- 3.10 SANDY SILT AND SILT 15 1C 0.03 32 20 2.30 -- 3.14 SANDY SILT AND SILT 11 7 0.02 30 20 2.32 - 4.14 CLAYEY SILT AND SILTY CLAY 14 9 --- -- --- 2.34 1.59 2.84 SANDY SILT AND SILT 19 12 0.0.1 33 20 2.36 -- 4.19 CLAYEY SILT AND °SILTY CLAY 15 10 --- -- --- 2.38 1.80 3.06 SANDY SILT AND SILT 20 12 0.03 33 20 2.41 -- 4.04 CLAYEY SILT AND SILTY CLAY 21 13 --- -- --- 2.43 2.70 2.15 SILTY SAND 16 10 0.06 3.; 20 2.45 -- P S O N E E R D R = L L = N G INTERPRETED CONE PENETRATION TEST DATA SOIL F-E3Aw'1--R -YPE SPT --SO :R ?0 SU t; t11 M DEG TSF TSF. =o.- -.o =.i' :LAY :7 =1 --- -- --- ...?' 4.01 _ _ . b L % . uAIt Ul/uaiea LOCATION PC -18 FILE a 21 LOCAL FRICTION FRICTION RATI❑ 0 TIP RESISTANCE (Ton/ft"2) 5❑❑ ❑ (Ton/ft"2) 5 O (PERCENT) 8 0 P (D N E E R D R S L L S N G INTERPRETED CONE PENETRATION TEST DATA ?RG:E::T 'TAME: HIGHLAND SOILS .3C.,'^ION ?C-:8 01/04/39 AVERAGE -_..IT ';EIGHT JF SCIL ?CF)-- 125 3EF^_E <c =S =R SOIL BEHAV13r- TYFE SPT D50 F__ -- F ?0 SU ' �T. TSF. TSF. N N1 _!M ..v TSF TSF ?0 SILTY -AND-- _ SILTY SAND __ - -- --- 0.03 -- 0. SANDY SILT A,4D -LT'2 32 O.CS -- --- 0.05 -- i.i 3.5 _.46 SAND 10 39 :5 0.07 ' 1.4 =07.; 31.: "1.3 :.09 SAND 2 8 64 =. 3 6 -- --- •0.09 -- 1.7 184.= 1.6 3.95 SAND 29 1i5 1.2_ -- --- 0.11 -- `:: =20.4 2.3 _.93 SILTY SAND 33 69 0.09 - 0.13 ' :6.- 1.3 3.44 SANDY SILT AND SILT 22 44 0.02 =_ - =_ 0.15 _.- 1111.� 2.'_ 1.86 SILTY :AND 30 59 0.09 -- --- 0.17 -- 3.1 a5,2 .3 9 n,92 SAND 18 34 0.7? -- --- 0.19 -- ' 73.3 1.4 _.£0 SILTY SAND 22 40 0.08 0.21 .4 74.6 2 .0 2.08 SILTY SAND 23 41 0.05 __ ___ ^,.2_^ 4.0 58.5 =. 3.66 SANDY SILT AND SILT 24 41 0.02 45 66 0.25 -- 4.4 06.:_ 1:9 SA14DY SILT AND SILT 22 37 3.3 4=' :9 '?.27 4.7 :o._ _ y.35 20 _ANDY SILT AND .--LT 25 4-- 3 =5 �9 0.29 4.5- -2Ti �z ,, 'J _-- _- _--' :i._ 1.1 :.=4 SANDY SILT AND CT SAND .-__T ? 24 .0 33 :-.0i 0.10 5 74 0.35 6.0 63.2 2.4 3.73 SANDY SILT AND SIL^. 26 39 0.02 43 64 0.38 - 6.3 71.4 2.1 2.87 SANDY SILT AND SIi,T 23 35 0.04 43 57 0.40 -- 6.7 iE2.5 1.3 0.7; SAND 26 -3 8 1.25 47 92 0.42 ' 7.0 134.' 1.0 0.74 SAND ^2 31 1.21 46 34 0.44 7.3 89.0 .7 0.82 SAND 16 23 0.88 44 71 0.46 -- 7.6 74.2 0.6 0.73 SAND 14 20 0.77 43 65 0.48 8.0 78. 0.6 0.60 SAND 15 20 0.81 43 66 0.50 -- 8.3 56.5 0.4 ,.76 SAND 12 17 0.44 41 55 0.52 -- 8.6 135.5 3.9 0.66 SAND 21 28 1.30 45 ,82 0.54 -- 8.9 150.1 0.3 0.52 SAND 22 29 1.47 45 35 0.56 9.-- 127.3 0.6 0.47 SAND 19 24 1.48 44 79 0.58 -- 3.6 110.2 0.3 0.30 SAND 15 20 1.64 43 73 0.60 -- 9.9 51.3 0. 2 0.28 SAND 11 14 1.59 42 63 0.62 ' 10.2 84.7 0.2 0.20 SAND 11 14 1.72 42 64 =_ 0.64 10.0 73.4 0.3 0.38 SAND 11 13 1.40 41 59 0.66 -- i0.9 63.2 0.2 0.33 SAND 10 12 1.32 40 53 0.68 -- ' P S O N E E R D R = L L S N G INTERPRETED CCNE PENETRATION TEST DATA _- . _ iL F. SOI AL1. . - _.. 7'E _'? SAND SAND SAND SAND SAND ANDY SILT AND SILT SILTY SAND SAND SAND SAND SAND 3AP'ID SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SA14D SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SPT 350 P11 =. PO STJ 1� _= 1.46 41 - 0 -- 16 iS _. ._ 4 _ ..4_- 14 1E 1.5-- 42 35 C.74 -- 15 17 :.53 42 :7 ;.76 -- 13 -4._ 36.3 0.2 0.20 :5.:. 303.Y' 0.3 3.34 15.5 57.4 0.3 0.59 15.5 71.- 0.6 0.86 :5.1 :10.3 0.3 C.44 1.-.5 '_27.8 C.6 0.44 11S.3 0.6 'J.48 17.1 109.2 0.5 0.44 17.5 115.o 0.4 ..35 17.0 97.9 0.3 1.32 18.1 94.6 0.3 C.26 40 =b 0.93 _- 0.24 :3.3 36.. 0.5 0.59 0.95 -- 11 11 0.81 33 40 0.97 -- 14 -3. 14G.c 0.5 6 20.1 159.0 ^.5 0.30 20.4 '64.. 0.6 i.38 20.7 192.0 0.9 0.45 ..1.1 189.9 0.7 0.35 21.4 207.; 0.8 0.39 21.7 212.0, 0.8 0.39 _2.0 197.2 C.8 C.41 41 1'5.3 0.6 0.33 22.1 173.4 0.5 C.29 -2.3 17.;.0 0.5 2..1 23.4 163.0 0.5 0.31 23.7 145.1 C.5 0.32 -4.3 141.5 0.5 0.33 _4.s 139._ 0.3 J.-1 24.7 152.2 3.4 0.28 25.0, 199.9 0.8 0.42 SOI AL1. . - _.. 7'E _'? SAND SAND SAND SAND SAND ANDY SILT AND SILT SILTY SAND SAND SAND SAND SAND 3AP'ID SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SA14D SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SAND SPT 350 P11 =. PO STJ 1� _= 1.46 41 - 0 -- 16 iS _. ._ 4 _ ..4_- 14 1E 1.5-- 42 35 C.74 -- 15 17 _.=9 42 :7 ;.76 -- 13 -- :.74 4C =_ _.78 -- 9 10 :.02 34 :0 ^.30 -- :0 __ 0,.05 33 29 0.82 -- :3 14 :.:7 -1 34 -- 7 13 --4 1.56 so 0.-- 12 13 :.58 40 =b 0.93 _- 12 13 1.53 40 '-5 0.95 -- 11 11 0.81 33 40 0.97 -- 14 14 0.61 39 47 0.99 -- 16 16 1.47 41 63 1.01 -- 18 18 1.52 41 68 1.03 -- 18 17 1.45 41 55 1.05 -- 16 16 1.47 41 61 1.07 -- 16 16 1.59 41 i3 1.09 -- 14 13 1.59 40 56 1.11 -- 13 12 1.65 40 74 1.13 -- 11 11 1.65 �-9 48 1.15 -- 1413 1.18 3: :9 1.17 -- 16 :_ 1.5_ YJ 0 _._9 D9 _.-1 20 13 1.62 41 67 1.23 -- 22 20 1.70 42 -1 1.25 -- 23 21 1.63 42 72 1.28 -- 27 24 1.59 42 78 1.30 -- 26 23 1.68 42 77 1.32 -- 28 25 1.68 43 31 1.34 -- 29 25 1.69 43 81 1.36 -- 27 24 1.63 42 78 1.38 -- 24 20 1.69 42 72 1.40 -- 23 20 1.73 41 72 1.42 -- 24 20 1.71 41 71 1.44 -- 22 19 1.70 41 59 1.46 -- 20 17 1.67 40 63 1.48 -- 20 16 1.66 40 62 1.50 -- 19 15 1.78 40 61 1.52 -- 21 17 1.72 40 64 1.54 -- 28 22 1.63 42 75 1.56 -- P S CD w E E R D R = L L = N G ' INTERPRETED CONE PENETRATION TEST DATA =EHnv--t YPn PT. _50 .I _3 ?0 U i . rSF• -3F. ;i `il MM DEG TSF TSF. -'•- ---•- 1.7 ..7 `.AND 33 26 1.34 42 '3-- _5.i SAND 30 2 9 1.31 =' dl 1.60 -- ' -6.J _51 . 1.5 '.58 SAND _5 _8 1.63 43 54 :.32 _43.c _.o 0.E7 SAND ;5 27 1.52 42. 32 1.64 36.0 246.7 _.� ='.55 .SAND 35 24 1.01 42 33 1.67 -- =_.__.-6 SAND 39 31 1.74 43 =0 1.69 -�• SAND _ 3' 1.77 =4 .71 -- 1.0 :..3 SAND_.o' 43 :9 :.i3 -- ' ._ 7.. _AND AND _ - - =. --36.7 '_.9 SAND 30 __ _0 1.56 42 -4 :.73 -- 23.5 154.2 2.0 21 SAND 30 23 0.83 40 :'_3 1.81 -- 9.3 = 92.5 3.1 :.22 3ANDY SILT AND SILT 32 23 0,04 37 40 1.33 .e u0.5 2 3.30 SANDY SILT AND SILT 25 19 0.02 35 25 .85 29.5 48.2 1.5 3.15 SANDY SILT AND SILT 18 13 0.03 34 20 1.87 -- ' 30.2 _O.6 69.4 i08. c 3.1 4.5 4.50 4.:s CLAYEY SILT AND SILTY `LAY -SANDY SILT AND SILT 33 46 24 33 --- 0.02 -- 38 --- 44 1.89 1.91 4_22 30.- -57.- `_.0 19 SILTY SAND 48 34 0.05 39 50 1.93 -- 31.3 2'34.7 5.1 2._1 SILTY SAND 50 40 0.09 41 '.1 1.95 -- ' 31.6 232.1 2.: =.07 SAND 45 32 1.29 42 36 1.97 31.9 236.4 2.8 D.98 SAND 44 31 1.35 42 35 2.00 -- �58.0 I- _.-/ SAND 47 33 0.84 42 SO _.02 32.= 275.= 3.7 1.3` SAND 47 33 1.01 42 82 2.04 ' 1 .£ SAND 50 34 1.19 42 37 2.06 .3.. 337.3 ;.:_2 SAND _ 36 1.24 43 '..08 -- _ c -19.]_. 3 _ 17 �.-'d SAND SAND 50 5C :.4 .25 ? 2 38 ?.10 Z.1 -- 4.Z 417.9 3.7 0 E SAND 57 31 38 •.Yu 1.67 -2 44 :'V 99 - 2.14 -- 24.5 414.E 3.2 0.78 SAND 55 37 1.77 44 ?8 2.16 -- ' 34.9 408.7 2.0 3.73 SAND 54_36 1.80 44 97 2.18 35.2 371.5 2.4 0.65 SAND --4-9 2Z 1.82 43 93 2.20 35.5.371.6 2.3 0.62 SAND 49 32 1.84 43 93 2.22 -- 35.3 36.2 338.1 2^c5.6 2.5 1 0.75 0.63 SAND SAND 47 39 30 25 1.67 1.66 42 42 88 81 2.24 2.26 3'0,.5 309.4 1.8 0.58 SAND 41 27 1.77 42 34 2.28 -- 36.0 193.6 2.1 _.13 SAND 32 21 0.95 39 61 2.30 -- ' 37.2 48.2 1.9 3.90 CLAYEY SILT AND SILTY CLAY 22 14 --- -- --- 2.32 2_86 37.3 46.2 1.1 2.44 SANDY SILT AND SILT 15 9 0.05 32 20 2.34 37.:. 104.7 1.7 1.58 SILTY SAND 28 17 0.10 36 38 2.36 -- 38.2 55.8 1.4 2.56 SANDY SILT AND SILT 18 11 0.05 33 20 2.38 ' 38.5 30.6 0.5 _.63 SILTY SAND 9 6 0.06 30 20 2.41 =_ 33.3 36.7 0.6 1.50 SILTY SAND it 7 0.07 31 20 2.43 -- 39.1 42.8 1.5 3.55 SANDY SILT AND SILT 38 11 0.02 32 20 2.45 -- P S O N E E R D R J L L 2 N G INTERPRETED CONE PENETRATION TEST DATA SPT .:Su F??I ::P np SU :l 1I1. Am _7-: 1,TSF TSF. 3.1i SAND:' SILT AND SILT 30 i9 O.C4 .0 33-.47 -- _29.7 4.0 =.05 31LTY SAND 40 `_4 :.u5 27 45 2.49 -- 11 1 1 APPENDIX C LABORATORY TEST RESULTS 1 LABORATORY TESTING ' A. Classification ' Soils were classified visually according to the Unified Soil Classification System. Classification was supplemented by ' index tests, such as Particle Size Analyses. Moisture contents and dry densities were determined from relatively ' undisturbed samples. B. Particle Size Analyses Particle size analyses, consisting of mechanical analyses ' using sieves, were performed on representative samples of on-site soils in accordance with ASTM D 422. Test results are shown on Figures C-1 and C-2. ' C. Sand Eouivalent A sand equivalent test was performed on a representative ' sample of subsurface soils to supplement visual classifications and mechanical analyses. The laboratory ' standard used was ASTM D 2419. This test result is presented on Figure C-3, Table I. ' D. Maximum Density/Optimum Moisture Relationship ' A maximum dry density/optimum moisture relationship was determined for a representative sample of on-site soils. ' The laboratory standard used was ASTM D 1557 (Five -Layer Method). This test result is summarized on Figure C-3, Table II. LABORATORY TESTING - Continued E F. Expansion An expansion test was performed on a representative sample of the upper 10 ft of on-site soils. The sample was remolded and tested under a surcharge of 144 lb/ft2 in accordance with the Uniform Code Standard No. 29-2. This test result is presented on Figure C-3, Table III. Direct Shear A direct shear strength test'was performed on a bulk sample considered representative of on-site soils. The sample was remolded to 90% relative compaction, saturated and tested in accordance with ASTM D 3080. This test result is presented on Figure C-4. H. Consolidation A consolidation test was performed on an undisturbed sample representative of the soils underlying the project site to determine the compressibility characteristics of on-site soils. The sample was saturated part-way through the test to simulate possible adverse field conditions. This test result is presented on Figure C-5. Test Location B-3 @ 0-5' TABLE I RESULT OF SAND EQUIVALENT TEST (ASTM D 2419) TABLE II Sand Equivalent 20 MAXIMUM DENSITY/OPTIMUM MOISTURE RELATIONSHIP (ASTM D 1557) Optimum Maximum Moisture Test Dry Density Content Location (pcf) A) B-3 @ 0-5' 129.9 8.3 TABLE III RESULT OF EXPANSION TEST (UBC STANDARD 29-2) Test Expansion Expansion Location Index Potential B-3 @ 0-5' 0 Very Low Job No: 08-6574-012-01-00 Figure C-3 400< 3001 W N a x r 0 z W cr 2001 m ovn✓cr,n vv("P �a.) v.. FRI NO.. (FEET) (PSFCTIONS •••••• ••+•• � Silty SAND B-15 0-5 30 i SAMPLE DESCRIPTION 1100, 1 1000 2000 3000 4000 5000 8000 NORMAL LOAD (PSF) 4000 3000 LL N r S r O Z W 2000 N 4 2 ¢ W x OJ 100( BORING NO. I EPTH - (FEET) COHESION. (PSF) ANGLE OF FRICTION° SAMPLE DESCRIPTION 00 1000 2000 3000 4000 5000 8000 NORMAL LOAD (PSF) w_mo_m-nn SHEARING STRENGTH TEST I .1 r I I I I M z O Fa z CL x W c BORING NO. DEPTH (FEET) SYMBOL EXPLANATION B-4 9-10 FIELD MOISTURE — — — — — — — — — — SAMPLE SATURATED REBOUND 3.0 2.0 1.0 . 0 1.0 2.D 3.0 4.0 5.0 I e.D1 Z.0 8.0 0.0 DDo 0 0 0 0 0 0 0 0 0 N W♦ n 0 0 o 0 0 0 N 0 0 0 0 0 pp 0 O O /7 ♦ tl 0 0 o O 0 0 0 0 O 0 O O N W 0 o 0 O v 0 c 0 c 0 C 0 n NORMAL LOAD (PSF) 74-012-01-001 LOAD CONSOLIDATION TEST IFIGURE C -s I I 1 I 1 I I I I 11 n U I APPENDIX D STANDARD DETAILS ' STANDARD GUIDELINES FOR GRADING PROJECT TABLE OF CONTENTS PAGE 1. GENERAL 1 ' 2. DEFINITION OF TERMS 1 3. OBLIGATIONS OF PARTIES . . . . . . . . . . . . . . . . 5 4. SITE PREPARATION . . . . . . . . . . . . . . . . . . . 6 5. SITE PROTECTION . . . . . . . . . . . . . . . . . . . . 6 6. EXCAVATIONS . . . . . . . . . . . . . . . . . . . . . . 8 6.1 UNSUITABLE MATERIALS . . . . . . . . . . . . . . 8 L 6.2 CUT SLOPES . . . . . . . . . . . . . . . . . . . 9 6.3 PAD AREAS . . . 9 7. COMPACTED FILL . . . . . . . . . . . . . 10 ' . . . . . 7.1 PLACEMENT . . 10 7.2 MOISTURE . . . . . . . . . . . . . . . . . . . . 12 7.3 FILL MATERIAL . . . . . . . . . . . . . . . . . . 12 7.4 FILL SLOPES . . . . . . . . . . . . . . . . . . . 14 7.5 OFF-SITE FILL . . . . . . . . . . . . . . . . . . 16 8. DRAINAGE . . . . . . . . . . . . . . . . . . . . . . 16 9. STAKING . . . . . 17 10. SLOPE MAINTENANCE . . . . . . . . . . . . . . . . . . . 17 10.1 LANDSCAPE PLANTS . . . . . . . . . . . . . . . . 17 ' 10.2 IRRIGATION 18 10.3 MAINTENANCE . . . . . . . . . . . . . . . . 18 10.4 REPAIRS . . . . . . . . . . . . . . . . . . . . . 19 11. TRENCH BACKFILL . . . . . . . . . . . . . . . . . . . . 19 12. STATUS OF GRADING . . . . . . . . . . . . . . . . . . 20 ISTANDARD GUIDELINES FOR GRADING PROJECT 1. GENERAL 1.1 The guidelines contained herein and the standard ' details attached hereto represent this firm's standard recommendations for grading and other associated operations on construction projects. These guidelines ' should be considered a portion of the project specifications. 1.2 All plates attached hereto shall be considered as part of these guidelines. 1.3 The Contractor should not vary from these guidelines without prior recommendation by the Geotechnical Consultant and the approval of the Client or his authorized representative. Recommendations by the Geotechnical Consultant and/or Client should not be the controlling agency prior to the execution of any changes. 1.4 These Standard Grading Guidelines and Standard Details may be modified and/or superseded by recommendations contained in the text of the preliminary geotechnical report and/or subsequent reports. 1.5 If disputes arise out of the interpretation of these grading guidelines or standard details, the Geotechnical Consultant shall provide the governing interpretation. 2. DEFINITION OF TERMS 2.1 ALLUVIUM - unconsolidated detrial deposits resulting from flow of water, including sediments deposited in river beds, canyons, flood plains, lakes, fans at the foot of slopes and estuaries. ' 2.2 AS -GRADED (AS -BUILT) - the surface and subsurface conditions at completion of grading. 2.3 BACKCUT - a temporary construction slope at the rear of earth retaining structures such as buttresses, shear keys, stabilization fills or retaining walls. ' 2.4 BACKDRAIN - generally a pipe and gravel or similar drainage system placed behind earth retaining structures such as buttresses, stabilization fills and ' retaining walls. 2.5 BEDROCK - a more or less solid, relatively undisturbed rock in place either at the surface or beneath superficial deposits of soil. 2.6 BENCH - a relatively level step and near vertical rise excavated into sloping ground on which fill is to be placed. 2.7 BORROW (Import) - any fill material hauled to the project site from off-site areas. 2.8 BUTTRESS FILL - a fill mass, the configuration of which is designed by engineering calculations to stabilize a slope exhibiting adverse geologic features. A buttress is generally specified by minimum key width and depth and by maximum backcut angle. A buttress normally contains a backdrainage system. 2.9 CIVIL ENGINEER - the Registered Civil Engineer or consulting firm responsible for preparation of the grading plans, surveying and verifying as -graded topographic conditions. 2.10 CLIENT - the Developer or his authorized representative who is chiefly in charge of the project. He shall have the responsibility of reviewing the findings and recommendations made by the Geotechnical Consultant and shall authorize'the Contractor and/or other consultants to perform work and/or provide services. 2.11 COLLUVIUM - generally loose deposits usually found near the base of slopes and brought there chiefly by gravity through slow continuous downhill creep (also see Slope Wash). 2.12 COMPACTION - is the densification of a fill by mechanical means. 2.13 CONTRACTOR - a person or company under contract or otherwise retained by the Client to perform demolition, grading and other site improvements. 2.14 DEBRIS - all products of clearing, grubbing, demolition, contaminated soil material unsuitable for reuse as compacted fill and/or any other material so designated by the Geotechnical Consultant. 2.15 ENGINEERING GEOLOGIST - a Geologist holding a valid certificate of registration in the specialty of Engineering Geology. dM 2.16 ENGINEERED FILL - a fill of which the Geotechnical Consultant or his representative, during grading, has made sufficient tests to enable him to conclude that the fill has been placed in substantial compliance with the recommendations of the Geotechnical Consultant and the governing agency requirements. 2.17 EROSION - the wearing away of the ground surface as a result of the movement of wind, water and/or ice. 2.18 EXCAVATION - the mechanical removal of earth materials. 2.19 EXISTING GRADING - the ground surface configuration prior to grading. ' 2.20 FILL - any deposits of soil, rock, soil -rock blends or other similar materials placed by man. 2.21 FINISH GRADE - the ground surface configuration at which time the surface elevations conform to the approved plan. 2.22 GEOFABRIC - any engineering textile utilized in ' geotechnical applications including subgrade stabilization and filtering. 2.23 GEOLOGIST - a representative of the Geotechnical Consultant educated and trained in the field of geology. 2.24 GEOTECHNICAL CONSULTANT - the Geotechnical Engineering and Engineering Geology consulting firm retained to provide technical services for the project. For the ' purpose of these guidelines, observations by the Geotechnical Consultant include observations by the Soils Engineer, Geotechnical Engineer, Engineering Geologist and those performed by persons employed by and responsible to the Geotechnical Consultants. 2.25 GEOTECHNICAL ENGINEER - a licensed Civil Engineer who applies scientific methods, engineering principles and professional experience to the acquisition, interpretation and use of knowledge of materials of the earth's crust for the evaluation of engineering problems. Geotechnical Engineering encompasses many of the engineering aspects of soil mechanics, rock mechanics, geology, geophysics, hydrology and related sciences. 2.26 GRADING any operation consisting of excavation, filling or combinations thereof and associates operations. 2.27 LANDSLIDE DEBRIS - material, generally porous and of low density, produced from instability of natural or man-made slopes. 2.28 MAXIMUM DENSITY - standard laboratory test for maximum dry unit weight. Unless otherwise specified, the maximum dry unit weight shall be determined in accordance with ASTM Method of Test D 1557-78. 2.29 OPTIMUM MOISTURE - test moisture content at the maximum density. 2.30 RELATIVE COMPACTION - the degree of compaction (expressed as a percentage) of dry unit weight of a material as compared to the maximum dry unit weight of the material. 2.31 ROUGH GRADE - the ground surface configuration at which time the surface elevations approximately conform to the approved plan. 2.32 SITE - the particular parcel of land where grading is being performed. 2.33 SHEAR KEY - similar to buttress, however, it is generally constructed by excavating a slot within a natural slope in order to stabilize the upper portion of the slope without grading encroaching into the lower portion of the slope. 2.34 SLOPE - is an inclined ground surface the steepness of which is generally specified as a ratio of horizontal:vertical (e.g., 2:1). 2.35 SLOPE WASH - soil and/or rock material that has been transported down a slope by mass wasting assisted by run-off water not confined by channels (also see Colluvium). 2.36 SOIL - naturally occurring deposits of sand, silt, clay, etc., or combinations thereof. 2.37 SOIL ENGINEER - licensed Civil Engineer experienced in soil mechanics (also see Geotechnical Engineer). 2.38 STABILIZATION FILL - a fill mass, the configuration of which is typically related to slope height and is specified by the standards of practice for enhancing the stability of locally adverse conditions. A stabilization fill is normally specified by minimum key width and depth and by maximum backcut angle. A stabilization fill may or may not have a backdrainage system specified. ' 3.3 The Contractor should be responsible for the safety of the project and satisfactory completion of all grading and other associated operations on construction projects, including, but not limited to, earth work in ' accordance with the project plans, specifications and controlling agency requirements. During grading, the Contractor or his authorized representative should ' remain on-site. Overnight and on days off; the Contractor should remain accessible. 1 2.39 SUBDRAIN - generally a pipe and gravel or similar drainage system placed beneath a fill in the alignment ' of canyons or former drainage channels. 2.40 SLOUGH - loose, non -compacted fill material generated ' during grading operations. 2.41 TAILINGS - non -engineered fill which accumulates on or adjacent to equipment haul -roads. 2.42 TERRACE - relatively level step constructed in the face of a graded slope surface for drainage control and ' maintenance purposes. 2.43 TOPSOIL - the presumably fertile upper zone of soil which is usually darker in color and loose. 2.44 WINDROW - a string of large rock buried within engineered fill in accordance with guidelines set forth by the Geotechnical Consultant. 3. OBLIGATIONS OF PARTIES ' 3.1 The Geotechnical Consultant should provide observation and testing services and should make evaluation to ' advise the Client on geotechnical matters. The Geotechnical Consultant should report his findings and recommendations to the Client or his authorized representative. ' 3.2 The Client should be chiefly responsible for all aspects of the project. He or his authorized representative has the responsibility of reviewing the findings and recommendations of the Geotechnical Consultant. He shall authorize or cause to have authorized the Contractor and/or other consultants to ' perform work and/or provide services. During grading the Client or his authorized representative should remain on-site or should remain reasonably accessible to all concerned parties in order to make decisions ' necessary to maintain the flow of the project. ' 3.3 The Contractor should be responsible for the safety of the project and satisfactory completion of all grading and other associated operations on construction projects, including, but not limited to, earth work in ' accordance with the project plans, specifications and controlling agency requirements. During grading, the Contractor or his authorized representative should ' remain on-site. Overnight and on days off; the Contractor should remain accessible. 1 SITE PREPARATION 4.1 The Client, prior to any site preparation or grading, should arrange and attend a meeting among the Grading Contractor, the Design Engineer, the Geotechnical Consultant, representative of the appropriate governing authorities as well as any other concerned parties. All parties should be given at least 48 hours notice. 4.2 Clearing and grubbing should consist of the removal of vegetation such as brush, grass, woods, stumps, trees, roots of trees and otherwise deleterious natural materials from the areas to be graded. Clearing and grubbing should extend to the outside of all proposed excavation and fill areas. 4.3 Demolition should include removal of buildings, structures, foundations, reservoirs, utilities (including underground pipelines, septic tanks, leach fields, seepage pits, cisterns, mining shafts, tunnels, etc.) and other man-made surface and subsurface improvements from the areas to be graded. Demolition of utilities should include proper capping and/or re-routing pipelines at the project perimeter and cut-off and capping of wells in accordance with the requirements of the governing authorities and the recommendations of the Geotechnical Consultant at the time of demolition. 4.4 Trees, plants or man-made improvements not planned to be removed or demolished should be protected by the Contractor from damage or injury. 4.5 Debris generated during clearing, grubbing and/or demolition operations should be wasted from areas to be graded and disposed off-site. Clearing, grubbing and demolition operations should be performed under the observation of the Geotechnical Consultant. 4.6 The Client or Contractor should obtain the required approvals from the controlling authorities for the project prior, during and/or after demolition, site preparation and removals, etc. The appropriate approvals should be obtained prior to proceeding with grading operations. SITE PROTECTION 5.1 Protection of the site during the period of grading should be the responsibility of the Contractor. Unless other provisions are made in writing and agreed upon among the concerned parties, completion of a portion of the project should not be considered to preclude that ' 5.7 Rain -related damage should be considered to include, but may not be limited to, erosion, silting, saturation, swelling, structural distress and other adverse conditions identified by the Geotechnical Consultant. portion or adjacent areas from the requirements for site protection until such time as the entire project 1 is complete as identified by the Geotechnical Consultant, the Client and the regulating agencies. 5.2 The Contractor should be responsible for the stability ' of all temporary excavations. Recommendations by the Geotechnical Consultant pertaining to the temporary excavations (e.g., backcuts) are made in consideration of stability of the completed project and, therefore, should not be considered to preclude the responsibilities of the Contractor. Recommendations by the Geotechnical Consultant should not be considered to preclude more restrictive requirements by the regulating agencies. 5.3 Precautions should be taken during the performance of site clearing, excavations and grading to protect the work site from flooding, ponding or inundation by poor ' or improper surface drainage. Temporary provisions should be made during the rainy season to adequately direct surface drainage away from and off the work site. where low areas cannot be avoided, pumps should ' be kept on hand to continually remove water during periods of rainfall. ' 5.4 During periods of rainfall, plastic sheeting should be kept reasonably accessible to prevent unprotected slopes from becoming saturated. Where necessary during periods of rainfall, the Contractor should install checkdams, desilting basins, rip -rap, sand bags or other devices or methods necessary to control erosion ' and provide safe conditions. 5.5 During periods of rainfall, the Geotechnical Consultant should be kept informed by the Contractor as to.the ' nature of remedial or preventative work being performed (e.g., pumping, placement of sand bags or plastic sheeting, other labor, dozing, etc.). ' 5.6 Following periods of rainfall, the Contractor should contact the Geotechnical Consultant and arrange a walk -over of the site in order to visually assess rain related damage. The Geotechnical Consultant may also recommend excavations and testing in order to aid in his assessments. At the request of the Geotechnical Consultant, the Contractor shall make excavations in ' order to evaluate the extent of rain related -damage. ' 5.7 Rain -related damage should be considered to include, but may not be limited to, erosion, silting, saturation, swelling, structural distress and other adverse conditions identified by the Geotechnical Consultant. 6. Soil adversely affected should be classified as Unsuitable Materials and should be subject to overexcavation and replacement with compacted fill or other remedial grading as recommended by the Geotechnical Consultant. 5.8 Relatively level areas, where saturated soils and/or erosion gullies exist to depths of greater than 1.0 foot, should be overexcavated to unaffected, competent material. Where less than 1.0 foot in depth, unsuitable materials may be processed in -p' --ace to achieve near -optimum moisture conditions, then thoroughly recompacted in accordance with the applicable specifications. If the desired results are not achieved, the affected materials should be overexcavated, then replaced in accordance with the applicable specifications. 5.9 In slope areas, where saturated soil and/or erosion gullies exist to depths of greater than 1.0 foot, they should be overexcavated and replaced as compacted fill in accordance with the applicable specifications. Where affected materials exist to depths of 1.0 foot or less below proposed finished grade, remedial grading by moisture conditioning in-place, followed by thorough recompaction in accordance with the applicable grading guidelines herein may be attempted. If the desired results are not achieved, all affected materials should be overexcavated and replaced as compacted fill in accordance with the slope repair recommendations herein. As field conditions dictate, other slope repair procedures may be recommended by the Geotechnical Consultant. EXCAVATIONS 6.1 UNSUITABLE MATERIALS 6.1.1 Materials which are unsuitable should be excavated under observation and recommendations of the Geotechnical Consultant. Unsuitable materials include; but may not be limited to, dry, loose, soft, wet, organic compressible natural soils and fractured, weathered, soft bedrock and non -engineered -or otherwise deleterious fill materials. 6.1.2 Material identified by the Geotechnical Consultant as unsatisfactory due to its moisture conditions should be overexcavated, watered or dried, as needed, and thoroughly blended to a uniform near optimum moisture condition (as per guidelines, reference 7.2.1) prior to placement as compacted fill. 6.2.4 If, during the course of grading, adverse or potentially adverse geotechnical conditions are encountered, which were not anticipated in the ' preliminary report, the Geotechnical Consultant should explore, analyze and make recommendations to treat these problems. 6.2 CUT SLOPES 6.2.1 Unless otherwise recommended by the Geotechnical Consultant and approved by the regulating agencies, permanent cut slopes should not be steeper than 2:1 (horizontal:vertical). 6.2.2 If excavations for cut slopes expose loose, cohesionless, significantly fractured or otherwise unsuitable material, overexcavation and replacement of the unsuitable materials with a compacted stabilization fill should be ' accomplished as recommended by the Geotechnical Consultant. Unless otherwise specified by the ' Geotechnical Consultant, stabilization fill ' construction should conform to the requirements. 1 of the Standard Details. 6.2.3 The Geotechnical Consultant should review cut slopes during excavation. The Geotechnical Consultant should be notified by the contractor prior to beginning slope excavations. 6.2.4 If, during the course of grading, adverse or potentially adverse geotechnical conditions are encountered, which were not anticipated in the ' preliminary report, the Geotechnical Consultant should explore, analyze and make recommendations to treat these problems. 6.2.5 When cut slopes are made in the direction of the prevailing drainage, a non -erodible diversion swale (brow ditch) should be provided at the top -of -cut. 6.3 PAD AREAS 6.3.1 All lot pad areas, including side yard terraces, above stabilization fill or buttresses should be overexcavated to provide for a minimum of 3 feet (refer to Standard Details) of compacted fill ' over the entire pad area. Pad areas with both fill and cut materials exposed and pad areas containing both very shallow (less than 3 feet) ' and deeper fill should be overexcavated to provide for a uniform compacted fill blanket with a minimum of 3 -feet in thickness (refer to Standard Details). Cut areas exposing significantly varying material types should also be overexcavated to provide for at least a 3 -foot thick compacted fill blanket. Geotechnical conditions may require greater depth of overexcavation. The actual depth should be delineated by the Geotechnical ' Consultant during grading. 7. 6.3.2 For pad areas created above cut or natural slopes, positive drainage should be established away from the top -of -slope. This may be accomplished utilizing a berm and/or an appropriate pad gradient. A gradient in soil areas away from the top -of -slopes of 2 percent , or greater is recommended. COMPACTED FILL 1 All fill materials should be compacted as specified below or by other methods specifically recommended by the Geotechnical , Consultant. Unless otherwise specified, the minimum degree of compaction (relative compaction) should be 90 percent of the laboratory minimum density. 7.1 PLACEMENT 7.1.1 Prior to placement of compacted fill, the Contractor should request a review by the Geotechnical Consultant of the exposed ground surface. Unless otherwise recommended, the exposed ground surface should then be scarified (6 -inches minimum), watered or dried as needed, thoroughly blended to achieve near optimum moisture conditions, then thoroughly compacted to a minimum of 90 percent of the maximum density. The review by the Geotechnical Consultant should not be considered to preclude requirement of inspection and appoval by the governing agency. 7.1.2 Compacted fill should be placed in thin horizontal lifts not exceeding 8 -inches in loose thickness prior to compaction. Each lift should be watered or dried as needed, thoroughly blended to achieve near optimum moisture conditions then thoroughly compacted by mechanical methods to a minimum of 90 percent of laboratory maximum dry density. Each lift should be treated in a like manner until the desired finished grades are achieved. 7.1.3 The Contractor should have suitable and sufficient mechanical compaction equipment and watering apparatus on the job site to handle the amount of fill being placed in consideration of moisture retention properties of the materials. If necessary, excavation equipment should be "shut down" temporarily in order to permit proper compaction of fills. Earth moving equipment should only be considered a supplement and.not substituted for conventional compaction equipment. 7.1.4 when placing fill in horizontal lifts adjacent to areas sloping steeper than 5:1 (horizontal:vertical), horizontal keys and vertical benches should be excavated into the adjacent slope area. Keying and benching should be sufficient to provide at least 6 -foot wide ' benches and a minimum of 4 -feet of vertical bench height within the firm natural ground, ' firm bedrock or engineered compacted fill. No compacted fill should be placed in an area subsequent to keying and benching until the area has been reviewed by the Geotechnical ' Consultant. Material generated by the benching operation, should'be'moved suff-iciently away from the bench area to allow for the recommended review of the horizontal bench prior to ' placement of fill. Typical keying and benching details have been included within the accompanying Standard Details. 7.1.5 within a single fill area where grading procedures dictate two or more separate fills, temporary slopes (false slopes) may be created. When placing fill adjacent to a false slope, benching should be conducted in the same manner ' as described above. At least a 3 -foot vertical bench should be established within the firm core of adjacent approved compacted fill prior to placement of additional fill. Benching should proceed in at least 3 -foot vertical increments ' until the desired finished grades are achieved. ' 7.1.6 Fill should be tested for compliance with the recommended relative compaction and moisture conditions. Field density testing should conform to ASTM Method of Test D 1556-64, D 2922-78 and/or D 2937-71. Test should be provided for about every 2 vertical feet or 1,000 cubic yards of fill placed. Actual test interval may vary as field conditions dictate. ' Fill found not to be in conformance with the grading recommendations should be removed or otherwise handled as recommended by the ' Geotechnical Consultant. 7.1.7 The Contractor should assist the Geotechnical Consultant and/or his representative by digging ' test pits for removal determinations and/or for testing compacted fill. ' 7.1.8 As recommended by the Geotechnical Consultant, the Contractor should "shut down" or remove grading equipment from an area being tested. ' -11- 7.2 7.3 7.1.9 The Geotechnical Consultant should maintain a plan with estimated locations of field tests. Unless the Client provides for actual surveying of test locations, the estimated locations by the Geotechnical Consultant should only be considered rough estimates and should not be utilized for the purposes of preparing cross sections showing test locations or in any case for the purpose of after -the -fact evaluating of the sequence of fill placement. MOISTURE 7.2.1 For field testing purposes, "near optimum" moisture will vary with material type and other factors including compaction procedures. "Near optimum" may be specifically recommended in Preliminary Investigation Reports and/or may be evaluated during grading. 7.2.2 Prior to placement of additional compacted fill following an overnight or other grading delay, the exposed surface or previously compacted fill should be processed by scarification, watered or dried as needed, thoroughly blended to near -optimum moisture conditions, then recompacted to a minimum of 90 percent of laboratory maximum dry density. Where wet or other dry or other unsuitable materials exist to depths of greater than 1 foot, the unsuitable materials should be overexcavated. 7.2.3 Following a period of flooding, rainfall or overwatering by other means, no additional fill should be placed until damage assessments have been made and remedial grading performed as described under Section 5.6, herein. FILL MATERIAL 7.3.1 Excavated on-site materials which are acceptable to the Geotechnical Consultant may be utilized as compacted fill, provided trash, vegetation and other deleterious materials are removed prior to placement. 7.3.2 Where import materials are required for use on-site, the Geotechnical Consultant should be notified at least 72 hours in advance of importing, in order to sample and test materials from proposed borrow sites. No import materials should be delivered for use on-site without prior sampling and testing by the Geotechnical Consultant. ' 7.3.3 Where oversized rock or similar irreducible material is generated during grading, it is ' recommended, where practical, to waste such material off-site or on-site in areas designated as "non-structural rock disposal areas". Rock placed in disposal areas should be placed with sufficient fines to fill voids. The rock should be compacted in lifts to an unyielding ' condition. The disposal area should be covered with at least 3 feet of compacted fill which is free of oversized material. The upper 3 feet should be placed in accordance with the ' guidelines for compacted fill herein. 7.3.4 Rocks 12 -inches in maximum dimension and smaller may be utilized within the compacted fill, ' provided they are placed in such a manner that nesting of the rock is avoided. Fill should be placed and thoroughly compacted over and around ' all rock. The amount of rock should not exceed 40 percent by dry weight passing the 3/4 inch sieve size. The 12 -inch and 40 percent recommendations herein may vary as field ' conditions dictate. 7.3.5 During the course of grading operations, rocks or similar irreducible materials greater than 12 -inches maximum dimension (oversized material), may be generated. These rocks should not be placed within the compacted fill unless ' placed as recommended by the Geotechnical Consultant. ' 7.3.6 Where rocks or similar irreducible materials of greater than 12 -inches but less than 4 feet of maximum dimension are generated during grading, ' or otherwise desired to be placed within an engineered fill, special handling in accordance with the accompanying Standard Details is recommended. Rocks greater than 4 feet should ' be broken down or disposed off-site. Rocks up to 4 feet maximum dimension should be placed below the upper 10 feet of any fill and should ' not be closer.than 20 feet to any slope face. These recommendations could vary as locations of improvements dictate. Where practical, over -sized material should not be placed below ' areas where structures or deep utilities are proposed. oversized material should be placed ' in windrows on a clean, overexcavated or unyielding compacted fill or firm natural ground surface. Select native or imported granular soil (S.E. 30 or higher) should be placed and ' thoroughly flooded over and around all -13- 7.4 windrowed rock, such that voids are filled. Windrows of oversized material should be staggered so that successive strata of oversized material are not in the same vertical plane. The Contractor should be aware that the placement of rock in windrows will significantly slow the grading operation and may require additional equipment and/or special equipment. 7.3.7 It may be possible to dispose of individual larger rock as field conditions dictate and as recommended by the Geotechnical Consultant at the time of placement. 7.3.8 Material that is considered unsuitable by the Geotechnical Consultant should not be utilized in the compacted fill. 7.3.9 During grading operations, placing and mixing the materials from the cut and/or borrow areas may result in soil mixtures which possess unique physical properties. Testing may be required of samples obtained directly from the fill areas in order to verify conformance with the specifications. Processing of these additional samples may take two or more working days. The Contractor may elect to move the operation to other areas within the project, or may continue placing compacted fill pending laboratory and field test results. Should he elect the second alternative, fill placed is done so at the Contractor's risk. 7.3.10 Any fill placed in areas not previously reviewed and evaluated by the Geotechnical Consultant, and/or in other areas, without prior notification to the Geotechnical Consultant may require removal and recompaction at the Contractor's expense. Determination of overexcavations should be made upon review of field conditions by the Geotechnical Consultant. FILL SLOPES 7.4.1 Unless otherwise recommended by the Geotechnical Consultant and approved by the regulating agencies, permanent fill slopes should not be steeper than 2:1 (horizontal:vertical). 7.4.2 Except as specifically recommended otherwise or as otherwise provided for in these grading guidelines (Reference 7.4.3), compacted fill slopes should be overbuilt and cut back to grade, exposing the firm, compacted fill inner core. The actual amount of over -building may vary as field conditions dictate. If the desired results are not achieved, the existing slopes should be overexcavated and reconstructed ' under the guidelines of the Geotechnical Consultant. The degree of overbuilding shall be increased until the desired compacted slope surface condition is achieved. Care should be taken by the Contractor to provide thorough mechanical compaction to the outer edge of the overbuilt slope surface. ' 7.4.3 Although no construction procedures produces a slope free from risk of future movement, overfilling and cutting back of slope to a compacted inner core is, given no other constraints, the most desirable procedure. Other constraints, however, must often be ' considered. These constraints may include property line situations, access, the critical nature of the development and cost. where such ' constraints are identified, slope face compaction may be attempted to conventional construction procedures including backrolling techniques upon specific recommendation by the Geotechnical Consultant. t As a second best alternative for slopes of 2:1 (horizontal: vertical) or flatter, slope construction may be attempted as outlined herein. Fill placement should proceed in thin lifts, i.e., 6 to 8 -inch loose thickness. Each lift should be moisture conditioned and thoroughly compacted. The desired moisture ' condition should be maintained and/or re-established, where necessary, during the period between successive lifts. Selected lifts should be tested to ascertain that desired compaction is being achieved. Care should be ' taken to extend compactive effort to the outer edge of the slope. Each lift should extend horizontally to the desired finished slope ' surface or more as needed to ultimately establish desired grades. Grade during construction should not be allowed to roll off ' at the edge of the slope. It may be helpful to elevate slightly the outer edge of the slope. Slough resulting from the placement of individual lifts should not be allowed to drift ' down over previous lifts. At intervals not exceeding 4 feet in vertical slope height or the capability of available equipment, whichever is ' less, fill slopes should be thoroughly backrolled utilizing a conventional sheepsfoot-type roller. Care should be taken to -15- maintain the desired moisture conditions and/or re-establishing same as needed prior to backrolling. Upon achieving final grade, the slopes should again be moisture conditioned and thoroughly backrolled. The use of a side -boom roller will probably be necessary and vibratory methods are strongly recommended. Without delay, so as to avoid (if possible) further moisture conditioning, the slopes should then be grid -rolled to achieve a relatively smooth surface and uniformly compact condition. In order to monitor slope construction procedures, moisture and density tests will be taken at regular intervals. Failure to achieve the desired results will likely result in a recommendation by the Geotechnical Consultant to overexcavate the slope surfaces followed by reconstruction of the slopes utilizing overfilling and cutting back procedures and/or further attempt at the conventional backrolling approach. Other recommendations may also be provided which would be commensurate with field conditions. 7.4.4 Where placement of fill above a natural slope or above a cut slope is proposed, the fill slope configuration as presented in the accompanying Standard Details should be adopted. 7.4.5 For pad areas above fill slopes, positive drainage should be established away from the top -of -slope. This may be accomplished utilizing a berm and pad gradients of at least 2 percent in soil areas. 7.5 OFF-SITE FILL 7.5.1 Off-site fill should be treated in the same manner as recommended in these specifications for site preparation, excavation, drains, compaction, etc. 7.5.2 Off-site canyon fill should be placed in preparation for future additional fill, as shown in the accompanying Standard Details. 7.5.3 Off-site fill subdrains temporarily terminated (up canyon) should be surveyed for future relocation and connection. 8. DRAINAGE 8.1 Canyon subdrain systems specified by the Geotechnical Consultant should be installed in accordance with the Standard Details. ' 8.2 Typical subdrains for compacted fill buttresses, slope stabilizations or sidehill masses, should be installed in accordance with the specifications of the ' accompanying Standard Details. 8.3 Roof, pad and slope drainage should be directed away from slopes and areas of structures to suitable ' disposal areas via non -erodible devices, i.e., gutters, downspouts, concrete swales. ' 8.4 For drainage over soil areas immediately away from structures, i.e. within 4 feet, a minimum of 4 percent gradient should be maintained. Pad drainage of at least 2 percent should be maintained over soil areas. ' Pad drainage may be reduced to at least 1 percent for projects where no slopes exist, either natural or man-made, of greater than 10 feet in height and where ' no slopes are planned, either natural or man-made, steeper than 2:1 (horizontal:vertical) slope ratio. 8.5 Drainage patterns established at the time of fine ' grading should be maintained throughout the life of the project. Property owners should be made aware that altering drainage patterns can be detrimental to slope ' stability and foundation performance. 9. STAKING 9.1 In all fill areas, the fill should be compacted prior to the placement of the stakes. This, particularly, is important on fill slopes. Slope stakes should not be placed until the slope is thoroughly compacted (back -rolled). If stakes must be placed prior to the completion of compaction procedures, it must be ' recognized that they will be removed and/or demolished at such time as compaction procedures resume. 9.2 In order to allow for remedial grading operations, ' which could include overexcavations or slope stabilization, appropriate staking offsets should be provided. For finished slope and stabilization backcut areas, we recommend at least 10 feet setback from proposed toes and tops -of -cut. ' 10. SLOPE MAINTENANCE 10.1 Landscape Plants In order to enhance surficial slope stability, slope planting should be accomplished at the completion of grading. Slope planting should consist of deep -rooting vegetation requiring little watering. Plants native to the southern California area and plants relative to native plants are generally desirable. Plants native -17- 10.2 10.3 to other semi -arid and arid areas may also be appropriate. A Landscape party to consult regarding planting configuration. Irrigation Architect would be the best actual types of plants and 10.2.1 Irrigation pipes should be anchored to slope faces, not placed in trenches excavated into slope faces. 10.2.2 Slope irrigation should be minimized. If automatic timing devices are utilized on irrigation systems, provisions should be made for interrupting normal irrigation during periods of rainfall. 10.2.3 Though not a requirement, consideration should be given to the installation of near surface moisture monitoring control devices. Such devices can aid in the maintenance of relatively uniform and reasonable constant moisture conditions. 10.2.4 Property owners should be made aware that over -watering of slopes is detrimental to slope stability. Maintenance 10.3.1 Periodic inspections of landscaped slope areas should be planned and appropriate measures should be taken to control weeds and enhance growth of the landscape plants. Some areas may require occasional replanting and/or reseeding. 10.3.2 Terrace drains and downdrains should be periodically inspected and maintained free of debris. Damage to drainage improvements should be repaired immediately. 10.3.3 Property owners should be made aware that burrowing animals can be detrimental to slope stability. A preventative program should be established to control burrowing animals. 10.3.4 As a precautionary measure, plastic sheeting should be readily available, or kept on hand, to protect all slope areas from saturation by periods of heavy or prolonged rainfall. This measure is strongly recommended, beginning with the period of time prior to landscape planting. ' 10.4 Repairs 10.4.1 If slope failures occur, the Geotechnical Consultant should be contacted for a field review of site conditions and development of recommendations for evaluation and repair. 10.4.2 If slope failures occur as a result of exposure ' to periods of heavy rainfall, the failure area and currently unaffected areas should be covered with plastic sheeting to protect against additional saturation. 10.4.3 In the accompanying Standard: Details, appropriate repair procedures are illustrated for superficial slope failures, i.e., occurring ' typically within the outer 1 foot to 3 feet + of a slope face. 11. TRENCH BACKFILL 11.1 Utility trench backfill should, unless otherwise recommended, be compacted by mechanical means. Unless ' otherwise recommended, the degree of compaction should be a minimum of 90 percent of the laboratory maximum ' density. 11.2 As an alternative, granular material (sand equivalent greater than 30) may be thoroughly jetted in-place. Jetting should only be considered to apply to trenches ' no greater than 2 feet in width and 4 feet in depth. Following jetting operations, trench backfill should be thoroughly mechanically compacted and/or wheel -rolled from the surface. 11.3 Backfill of exterior and interior trenches extending ' below a 1:1 projection from the outer edge of foundations should be mechanically compacted to a minimum of 90 percent of the laboratory maximum ' density. 11.4 within slab areas, but outside the influence of foundations, trenches up to 1 foot wide and 2 feet deep ' may be backfilled with sand and consolidated by jetting, flooding or by mechanical means. If on-site materials are utilized, they should be wheel -rolled, tamped or otherwise compacted to a firm condition. For ' minor interior trenches, density testing may be deleted or spot testing may be elected if deemed necessary, ' based on review of backfill operations during construction. 7 12 11.5 If utility contractors indicate that it is undesirable to use compaction equipment in close proximity to a buried conduit, the Contractor may elect the utilization of light weight mechanical compaction equipment and/or shading of the conduit with clean, granular material, which should be thoroughly jetted in-place above the conduit, prior to initiating mechanical compaction procedures. Other methods of -utility trench compaction may also be appropriate-, upon review by the Geotechnical Consultant at the time of construction. 11.6 In cases where clean granular materials are proposed for use in lieu of native materials or where flooding or jetting is proposed, the procedures should be considered subject to review by the Geotechnical Consultant. 11.7 Clean granular backfill and/or bedding are not recommended in slope areas unless provisions are.made for a drainage system to mitigate the potential build-up of seepage forces. STATUS OF GRADING Prior to proceeding with any grading operation, the Geotechnical Consultant should be notified at least two working days in advance in order to schedule the necessary observation and testing services. 12.1 Prior to any significant expansion or cut back in the grading operation, the Geotechnical Consultant should be provided with adequate notice, i.e., two days, in order to make appropriate adjustments in observation and testing services. 12.2 Following completion of grading operations and/or between phases of a grading operation, the Geotechnical Consultant should be provided with at least two working days notice in advance of commencement of additional grading operations. -20- I 1 1 1 SURFACE OF FIRM EARTH MATERIAL \\\ COMPACTED FILL j TYPICAL BENCHING \\\\ / SEE DETAIL BELOW u DETAIL MINIMUM 9 FT PER LINEAR FOC OF APPROVED FILTER MATERIAL FILTER MATERIAL TO MEET FOLLOWING SPECIFICATION OR APPROVED EQUAL: SIEVE SIZE 1' 3/4' 3/S' NO.4 NO.30 NO.50 NO.200 PERCENTAGE 100 90-100 40-100 25-40 5-15 0-7 0-3 REMOVE UNSUITABLE MATERIAL NCLINE-TOWARD- DRAIN MINIMUM 4' DIAMETER APPROVED PERFORATED PIPE (PERFORATIONS DOWN) � I' FILTER MATERIAL BEDDING 14' �1� MINIMUM APPROVED PIPE TO BE SCHEDULE 40 POLY -VINYL -CHLORIDE (P.V.C.) OR APPROVED EQUAL. MINIMUM CRUSH STRENGTH 1000 psi PIPE DIAMETER TO MEET THE FOLLOWING CRITERIA. SUBJECT TO FIELD REVIEW BASED ON ACTUAL GEOTECHNICAL CONDITIONS ENCOUNTERED DURING GRADING LENGTH OF RUN UPPER 500' NEXT 1000' > 1500' ' TYPICAL CANYON SUBDRAIN DETAIL PIPE DIAMETER 4- S. 5' FINAL NATURAL SLOPE. LIMITS OF FINAL EXCAVATION TOE OF SLOPE SHOWN ON GRADING PLAN FILL i tx i�/iMPSEa1p///// VN 10' TYPICAL BENCH L 1 MINIMUM— DOWNSLOPE KEY DEPTH 15' MINIMUM BASE KEY WIDTH A COMPETENT EARTH MATERIAL TYPICAL BENCH HEIGHT PROVIDE BACKDRAIN AS REQUIRED PER RECOM- MENDATIONS OF SOILS ENGINEER DURING GRADING WHERE NATURAL SLOPE GRADIENT IS 5:1 OR LESS, BENCHING IS NOT NECESSARY. HOWEVER, FILL IS NOT TO BE PLACED ON COMPRESSIBLE OR UNSUIT- ABLE MATERIAL. TYPICAL BENCHING - FILL, SLOPE OVER NATURAL GROUND DETAIL - NO.: 08-8574-012-01-00 J DATE: OCTOMER 1989 'FIGURE: 4' DIAMETER PERFORATE PIPE BACKDRAIN 4' DIAMETER NON -PERFORATED PIPE LATERAL DRAIN PROVIDE STRUCTURAL: SETBACK PER GEOTECHNICAL REPORT H12 ED S PROVIDE BACK DRAIN PER GEOTECHNICAL ENGINEER OR ENGINEERING GEOLOGIST. AN ADDITIONAL BACK DRAIN AT MID SLOPE WILL BE REQUIRED FOR SLOPES IN EXCESS OF 40 FT HIGH OR AS OTHERWISE REQUIRED KEY DIMENSION PER GEOTECHNICAL ENGINEER (GENERALLY 114 SLOPE HEIGHT, IS MINIMUM) FILL SLOPE OVER CUT SLOPE MITIGATION DETAIL II NOj ,.n_ecTA_m9_m—ne DATE: OCTOBER 1989 1 FIGURE: D-3 e TLix \lq .2 \ �C swu,.w cwr. mmmu�aaa J sww¢n cVo rm w. n.� UV SOURCE: HIGHLAND GEOTECHNICAL CONSULTANTS KRDC, Inc. 27555 Ynez Road, Suite 202, Temecula, CA 92390 GEOLOGY Legen d TEMECULA REGIONAL CENTER V-15 FIGURE 28 Pauba Formation op8 Sedimentary Bedrock oal Alluvium - ar Artificial Fill Test Borings Cone Penetration Tests Geologic Contact Liquefaction Boundary TEMECULA REGIONAL CENTER V-15 FIGURE 28 I Drainage Plan ' a. Plan Description This site is within the boundaries of the Riverside County Flood Control and Water Conservation District's Murrieta Creek Area Drainage Plan. The subject site is ' exposed to the Santa Gertrudis Channel passing along the northerly boundary of the site, which is being improved under Assessment District 161 (A.D. 161. The proposed drainage plan in Figure 1, utilizes the project streets, parking lots and storm drains to conduct storm water. A storm drain system is proposed to carry storm water that exceeds the street capacity. The actual size and location of the drainage system will be determined at the tract map stage of development per the requirements of the Riverside County Flood Control District. No diversion of drainage is contemplated. The pipe sizes noted on the drainage plan are based upon the hydrologic analysis and are preliminary. b. Development standards 1)Drainage and flood control facilities and improvements, including any necessary channelization, shall be provided in accordance with Riverside County Flood Control and Water Conservation District requirements. 2) it is anticipated that major, backbone drainage and ' flood control facilities will be maintained by the County Flood Control District. ' 3) Based upon the F.E.M.A. maps dated May 1, 1984, the 100 -Year flood plain extends southward from Santa Gertrudis Creek to, and in some areas south, of ' Winchester Road. Upon completion of the AD 161 improvements to Santa Gertrudis Creek, the FEMA maps must be modified to remove these areas from the flood plain. This needs to be evaluated further at a future date. 1 Water and Sewer Plan a. Plan Description ' Eastern Municipal Water District (EMWD) is the governing agency with regard to the sewer services. EMWD has indicated that adequate sewer service can be provided for the proposed project with the existing sewer lines and extension of the sewer facilities. Sewage generated from the Temecula Regional Center Specific Plan area will be treated at the EMWD Temecula Regional Water Reclamation facility. The treatment plant currently has a capacity of 3.4 Mgd with an expansion to 4.2 Mgd currently under construction. The plant is in the planning stages to expand to 6.5 Mgd. The proposed regional wastewater collection facilities which will serve the project area are shown on Figure 2. The proposed facilities are in accord with current EMWD master planning. Proposed on-site facilities are shown on Figure 3. Per the EMWD design guide, the average sewage generated for commercial developments is 3,000 gallons per day per gross acre, with a peaking factor of 2.0. This project will be served by the existing 15" sewers in Winchester Road and Ynez Road, and new 15" sewers in Margarita Road and Apricot Avenue and a new 8" and 10" sewer in Loop Street "B". Rancho California Water District (RCWD) is the governing agency with regard to the water services for the site. RCWD_has indicated that adequate water service can be provided for the proposed project with the existing facilities (wells and storage tanks) and the extension/addition of water mains. The proposed regional water distribution and storage system improvements for the project area are shown on Figure 4. The plan for providing water service to the area is based on RCWD's existing facilities and is compatible with future upgrades/extensions. Figure 5. shows proposed water distribution lines for the project. Eastern Municipal Water District is in the process of Master Planning a District -wide reclaimed water system, although no reclaimed water lines or facilities currently are available in the project area. EMWD will require the project to construct reclaimed water lines on-site so that when the regional system is complete, the project can ultimately utilize reclaimed water for certain types of irrigation;. b. Development Standards 1)All water and sewer lines shall be placed underground. 2) All lines will be designed per the Eastern Municipal Water District's and,Rancho California Water District's requirements. 3) The infrastructural system will be installed to the requirements of the Eastern Municipal Water District and Rancho California Water District. 4) Water and sewerage disposal facilities shall be installed in accordance with the requirements and specifications of the Riverside County Health Department. 5) The project will comply with EMWD requirements for installment of on-site reclaimed water lines. Grading Plan a. Plan Description The Temecula Regional Center Specific Plan grading reflects the mass import necessitated by the two level design of the mall. It is intended that the proposed site slope from the northeast to the southwest to facilitate drainage flows to the double 7' X 5' reinforced concrete box (see Figure 6 Conceptual Grading Plan.) It appears that the project site will require ' approximately 2.2 million -"cubic yards of import. This figure may vary as final grading plans are developed. The Conceptual Grading Plan establishes a basis for ' appropriate treatment of drainage requirements and accommodates a street system that meets County of Riverside standards for acceptable grades. b. Development Standards 1) All grading activities shall be in substantial conformance with the overall Conceptual Grading Plan (Figure 6), and shall implement any grading -related mitigation measures outlined by the preliminary geotechnical investigations. 2) Prior to any development within any area of the Specific Plan, an overall Conceptual Grading Plan for the portion in process shall be submitted for Planning Department approval. The Grading Plan for each area shall be used as a guideline for subsequent detailed grading plans for individual stages of development within that area, and shall include: Techniques employed to prevent erosion and sedimentation during and after the grading process; approximate time frames for grading; identification of areas which may be graded during higher probability rain months (January through March), and preliminary pad and roadway elevations. 3) All streets shall have a gradient not exceeding 15%. 4) Prior to initial grading activities, a soils report; and geotechnical study shall be performed that further analyze on-site soil conditions and slope stability and include appropriate measures to control erosion and dust. 5) Slopes exceeding ten feet in vertical height shall be hydromulched, prior to final acceptance and prior to the beginning of the rain season (October - March). 6) Detailed grading plans shall be prepared prior to any on-site grading for each project or group of projects. 7) Where cut and fill slopes are created higher than ten (10) feet, detailed landscaping and irrigation plans shall be submitted to the Planning Department when grading plans are submitted for approval. The plans shall be reviewed for type and density of ground cover, shrubs and trees. 8) The applicant shall be responsible for maintenance and upkeep of all planting and irrigation systems until those operations are the responsibility of other parties. I 1 9) Graded slopes shall be oriented to minimize visual ' impacts to surrounding areas. 10) The toes and tops of all slopes higher than ten (10) ' feet shall be rounded with curves with radii designed in proportion to the total height of the slope, where drainage and stability permit such rounding. ' 11) Potential brow ditches, terrace drains or other minor swales, determined necessary at future stages of ' project review, shall be lined with concrete. 12) Graded but undeveloped land shall be maintained weed - free and planted with interim landscaping within 90 days of completion of. grading, unless building permits are obtained 13) Unless otherwise approved by the County of Riverside all cut and fill slopes shall be constructed at inclinations of no steeper than two (2) horizontal ' feet to one (1) vertical foot. The Grading Plan will reflect a contouring and landscaping program intended to control slope erosions. 14) A grading permit shall be obtained from the County of ' Riverside, as required by the County Grading Ordinance, to prior grading. 15) If any historic or prehistoric remains are discovered during grading, a qualified archaeologist should be consulted to ascertain their significance. ]obc:cr7 1 ' I 1 1 1 1 1 60 Ac i t0 X 5 RCB o• -f*00 AC J.I. OnvIGwn Y.wcl.tIP,. I.R. ss �i .ncw+[c*un[ PLANNING uADi APE�nc�TECTLAE ice" _._,-• . =. Land Uso Layouts, Circulation Alignments. and Inlraseucturo Layouts"' ConcuptualiActual Layouts and Alignments may chango n No Adopted Specific Plan and in Final Plans. MASTER DRAINAGE PLAN FIGURE 1 EXISTING Illltlllltl CHANNEL EXISTING RCP NETWORK EXISTING RCB . PROPOSED RCP NETWORK PROPOSED RCB 720 100 YR. FLOW RATE (CFS) 48 PIPE DIA. (INCHES) FIGURE 1 I \ 1� I r a 9� �. I I 1 I I � I , I PIMLM uuroMn,� ` 7 \1 I 1 • I I a I 1 1 N NOT TO SCALE F— L SEWER FACILITIES I �•�ie ��'e't �J I ++I I EPENP�yE �.IE��J rcf c`ijP h I I\ 1 3 AUq 4 ItA "rti ` II +srarrox I I ; loo i iP pD I I pN arc S pP co flo ,� EXISTING SEWER LINES �I I I ' I is I s I �•�ie ��'e't �J I ++I I EPENP�yE �.IE��J rcf c`ijP h I I\ 1 3 AUq 4 ItA "rti ` II +srarrox I I ; loo i iP pD I I pN arc S pP co flo ,� EXISTING SEWER LINES % % 4:b % 0 1 2 w, % 0 �cp U) 2 64.82 A(� 'A till, 110111 Y 3 97.80 AC Q NID 10. 0 0 800 A 7.75 AC 15'. 10, PRICOT AVENUE 4 5.49 A Land Use Layouts, Circulation Alignments, and Infrastructure Layouts are Conceptual. Actual Layouts and Alignments may change in Me Adopted Specific Plan and in Final Plans. J. P 0 Mr :v1doon Aweocl.t.� ln� NG SU.�EII.G 10�ff I�D�K..C.IT�IT..E MASTER SEWER PLAN EXISTING Fs11@rf1�el11mSEWER LINES PROPOSED F1111117111111 SEWER LINES FIGURE 3 I I 1 1 1 I _____- I I I I I I � I I I I � I 1 I ...rwo Vuro.r.� 92 I I 1 `/mac I 1 1 \ I Ll 1 J 1 I i NOT TO SCALE WATER FACILITIES ,,,,,,,,,,, EXISTING WATER LINES I spO. Z� _ J.F. o.vId... A..onI.c., Enu ENLINEf NrNL >4NNING SUFVEv�NL ANC-IECt UF( VNDSCAK 1PCNrtECYU E N o 800 Land Use Layouts, Circulation Inlrastructuro Layouts are Cor Layouts and Alignments may E Adopted Specilic Plan and in I MASTER WATER PLAN EXISTING WATER LINES PROPOSED WATER LINES FIGURE 5 O.vid.u. A..eel�t�ti lna f NGirvEFA�N4 DUNNING SUNVF�ING �. Qr C� •F4rvIlEC1UN! UNp54AVE 1PCNIfECf UPE rots, and Actual 1 the is. CONCEPTUAL GRADING PLAN GRADING IN AREA BOUNDED BY WINCHESTER ROAD, YNEZ ROAD, MARGARITA ROAD, AND APRICOT AVENUE IS. BASED UPON PRELIMINARY GRADING PLAN BY ALBERT A. WEBB ASSOCIATES DATED 05/14/90.: FIGURE 6 RETAINING WALL PROPOSED 70 PAD & ELEVATION PROPOSED es CONTOUR & ELEVATION HP HIGH POINT ■ LP LOW POINT GRADING IN AREA BOUNDED BY WINCHESTER ROAD, YNEZ ROAD, MARGARITA ROAD, AND APRICOT AVENUE IS. BASED UPON PRELIMINARY GRADING PLAN BY ALBERT A. WEBB ASSOCIATES DATED 05/14/90.: FIGURE 6 ' An Archaeological Assessment of the Regional Center Specific Plan Riverside County, California I 11 ' by: Christopher E. Drover Ph.D. Consulting Archaeologist ' 13522 Malena Drive Tustin, California 92680 (714) 838-2051 ' for: Mr. Douglas Wood Wood and Associates ' 1000 Quail Street Ste 165 Newport Beach, California 92660 ' 21 October 1989 Table of Contents MANAGEMENT tSUMMARY................................................3 ' SUMMARY OF CURRENT KNOWLEDGE ...........................3 ' EFFECTIVE ENVIRONMENT***....***.****,***** ... *******6 1 RESEARCH METHODS AND STRATEGY ..........................7 RESULTS.---- ... ' IMPACTS AND MITIGATION.................................7 REFERENCES CITED.......................................8 MANAGEMENT SUMMARY: On 28 September 1989, Mr. Douglas Wood of Douglas Wood and Associates, requested an archaeological assessment of a parcel in Temecula, California. The subject property is under consideration for a Specific Plan. A cultural resources assessment was ' necessary to satisfy the requirements of the County of Riverside with regard to identification and protection of cultural resources.- ' An archaeological records check and survey were undertaken in early November, for the approximately 230.80 acre project site ' located on the Murrieta 7.5' USGS quadrangle, to ascertain whether any cultural resources might be impacted by the proposed development. A surface survey conducted on the subject property ' and a check of the archaeological site records on file at the Archaeological Research Unit (ARU), University of California, Riverside, were accomplished. A 7.5' USGS map of the subject property provided the boundary reference for the actual land area surveyed. The subject ' project lies northwest of Temecula, immediately north and east of the intersection of Winchester and Interstate 15. Survey activities conducted earlier in 1988 resulted in the definition of no new archaeological sites. No cultural resource constraints (mitigation measures) exist for the proposed project. SUMMARY OF CURRENT KNOWLEDGE: ' A review of the archaeological site records on file at the ARU showed no sites within the subject property boundaries, however, one site (Riv-1730) is recorded immediately south of the project, just northwest of the I -15 --Winchester Road intersection. The site, however, has been previously mitigated and is no longer in existence (Drover 1986). The site in question consisted of a campsite --village from which the predominant artifacts consisted of food (vegetal) processing tools. The site was estimated to be 4 -5;000 -years old based on it's time sensitive artifact content. The general project area was previously studied in a general records search and reconnaissance (White 1980) but actual survey of the property was not conducted until 1988 by Drover (1988). The prior survey was undertaken of 1,049 acres, the Rancho California Commerce Center, for the Bedford Group by the author. No cultural resources were identified as a result of the study (Drover 1988). Perhaps the most pertinent regional study of the general area regarding prehistoric land use is that accomplished at Perris Reservoir (O'Connell et al. 1974). This research took place about 20 miles north of the property, in the San Jacinto Plains. Not much is known about the general settlement/ subsistence patterns of the project vicinity but the Perris Reservoir project provides a general model of prehistoric land -use patterns. Most of the archaeological sites described in that study were late prehistoric age (pottery present) and may have resulted from population intrusions from the Coachella Valley caused by the desiccation of Lake Cahuilla (ancestral Salton Sea) (Wilke 1978). Settlement patterns seem to consist of campsites (located near perennial water sources) and temporary processing locations (O'Connell et al. 1974). Considering the topography and proximity of the subject ' parcel to water, site density may be expected to be moderate as in similar areas of the Perris Reservoir. The lack of surface water and bedrock granite over most of the project site may ' preclude the most common type of sites in the area, bedrock seed grinding locations. Based on settlement/subsistence models generated by O'Connell et al. (1974), temporary food gathering/processing, or campsites might be expected near the subject project (Riv-1730 was at least a campsite if not a short- term village site). Through time, land use patterns at nearby Perris Reservoir changed from being rather sporadic between 2200 years ago (the earliest occupations) to about A.D. 1500 when an influx of population with different subsistence exploitation strategies ' (O'Connell et al. 1974). At European contact times, the study area was within areas ' occupied by groups known as the Luiseno, named after the Mission San Luis Rey de Francia in present-day Oceanside, California, 1 Which some of their linguistic group frequented. The Luiseno ' culture area incorporated southwestern Riverside County, northern San Diego County, eastern Orange County and was linguistically comprised of a language of the Shoshonean language family (Kroeber 1925: Plate 57). The Contact period ethnicity of the study area is clear as Luiseno villages such as Pechanga and Pala are relatively close to the project area. Ethnographic literature pertinent to the Luiseno and surrounding ethnographic groups is fairly extensive and has been collected since the 1800's (see Barrows 1900; Sparkman 1908; Kroeber 1925; White 1963 and Bean 1972). EFFECTIVE ENVIRONMENT: The physiography of the subject property consists of low, flat (cultivated in barley in recent years) grasslands on low benches and hills immediately above Santa Gertrudis Creek. The drainage on the property is generally northeast to southwest toward Santa Gertrudis Creek. Soils on the property consist of decomposed granitics with recent, alluvial topsoil. Precipitation is mainly a result of winter dominant, frontal storms from the northwest, although occasional summer thundershowers result from damp air intruding from the southern (Gulf of Mexico --Sea of Cortez) monsoon season. The property ranges from 1050 to approximately 1100 feet above sea level. It contains little native vegetation; that which remains is located in arroyos where cultivation was impractical. The one-time native plant association consisted of a sage -scrub community and native grasses, dominated by buckwheat (Eri000num fasiculatum), and california sagebrush (Artemesia californica). The Santa Gertrudis stream channel would have supported a rich, riparian habitat at one time dominated by plants such as willow (Salix sp.), oak (Quercus sp.) and seasonal, edible plants. The above mentioned plant community are noted as having some ethnographic uses among the neighboring Cahuilla (Bean and Saubel 1972). RESEARCH METHODS AND STRATEGY: ' Field methods consisted of an on-site, intuitive survey, conducted by Mr. Andy Jackson in November, 1988. Survey of the parcel included intuitive, somewhat circular transects defined by ' the project boundaries and geographical contours. European grasses (Gramineae) and other ground cover exist but are few in ' number due to dry conditions resulting in relatively good conditions for observation. rRESULTS: No archaeological sites were located during survey activities although the project area would have been conducive for prehistoric plant food gathering and/or processing if not short-term habitation. tIMPACTS AND MITIGATION: As no archaeological sites were found, no cultural resource constraints exist for the project and no mitigation measures are proposed. However, if any cultural resources are encountered as a result of grading, is recommended that a qualified archaeologist be consulted. REFERENCES CITED Barrows, David P. 1900 The Ethno-botany of the Coahulla Indians of Southern California. Chicago Press. (Reprinted 1976 by Malki Museum, Banning). Bean, Lowell J. 1972 Mukat's People: The Cahuilla Indians of Southern California. Berkeley: University of California Press. Bean, Lowell J., and Katherine S. Saubel 1972 Temalpakh: Cahuilla Indian Knowledge and Usage of Plants. Banning, Ca.: Malki Museum Press. Drover, Christopher E. 1986 The Santa Gertrudis Site Riv-1730: A Cultural Resource Mitigation Plan and Implementation. Rancho California. UCARU Miscellaneous Manuscripts 191. University of California, Riverside. 1988 An Archaeological Assessment of the Rancho California Commerce Center. The Bedford Group. UCARU Miscellaneous Manuscripts. University of California, Riverside. Kroeber, Alfred L. 1925 Handbook of the Indians of California. Washington, D.C.: Bureau of American Ethnology Bulletin 78. O'Connell, J. F., P. J. Wilke, T. F. King, and C. L. Mix (Eds.) 1974 Perris Reservoir Archaeology: Late Prehistoric Demographic Change in Southeastern California. Sacramento: Department of Parks and Recreation Archaeological Reports 14. Sparkman, Philip S. 1908 The Culture of the Luiseno Indians. Berkeley: University of California Publications in American Archaeologv and Ethnology 8: 147-234. White, R. C. 1963 Luiseno Social Organization. Berkeley: University of California Publications in American Archaeology and Ethnography 48: 91-194. ' White, Christopher W. 1980 Cultural Resource Inventory and Impact Assessment for the KACOR/Rancho California Property. The Planning Center, 170 Laurel Street, San Diego 92101. Miscellaneous Manuscripts 191 University of California, Riverside Archaeological Research Unit. Wilke, Philip J. 1971 Late Prehistoric Change in Land Use Patterns at Perris Reservoir. Los Angeles: University of California Los Angeles Archaeological Survey Annual Report 13. 1978 Late Prehistoric Human Ecology at Lake Cahuilla, ' Coachella Valley, California. Berkeley: University of California Archaeological Research Facility Contributions No. 38. I 11 I I "SIF .v{S/, IT < nomill /1'�prl. R) r ' � vn 71 1 � / L" ! .• ' � Q � rel I Cc � 1._ ;-' -� � ��,/ �` �. ( , r� _ 1 `'•` `�� "—'n1��/ (— i , �i � i 1 � `?1 v r � `.;�Jf�' oo f tom. f—�\` �'��, C / '^� g Ga¢i�¢ `'1• ` o / ✓ / �' 1 �b� Well '. ) _ ` <: 1 . _/✓/�.:/ BM 1010 ,`•e � C' _ `"i��j,� /✓l._, �\ t NDo' Reservoir oir`.� 4` +O es \ 1 SUSH-a PAPAL J U 1 1 C�rr_Iniw rcKrttV CF/1M 171 4KI �`. „ o �,J�v� L✓�' '�� I I I I 1 PALEONTOLOGICAL RESOURCES ASSESSMENT REGIONAL CENTER, RANCHO CALIFORNIA, CALIFORNIA PREPARED FOR: MR. DOUG WOOD WOOD AND ASSOCIATES 1000 QUAIL, SUITE 165 NEWPORT BEACH, CALIFORNIA 92660 PREPARED BY: DR. FRANCES M. GOVEAN RMW PALEO ASSOCIATES 23352 MADERO, SUITE J MISSION VIEJO, CALIFORNIA 92691 19 OCTOBER, 1989 IINTRODUCTION The following report presents the results of RMW's assessment of the paleontological resources of the Regional Center, Winchester Hills, Rancho California, California. The study site is an irregularly shaped parcel of approximately . 231 acres located northeast of Interstate 15 and southeast of Banana Avenue (Winchester Road) on the southeast (Figure 1). The purpose of the following report is to assess the known and potential paleontological resources within the study area. This study is based on a review of published pertinent paleontological and geological literature and the locality records of the Natural History Museum of Los Angeles County and the San Bernardino County Museum. Dr. J. D. Stewart of the Los Angeles County Museum and Mr. Robert Reynolds of the San Bernardino County Museum were contacted concerning any known fossil localities both within the site and in the general vicinity. Mr. Dave Stevens, Ms. Marilyn Morgan and Ms. Diana Weir conducted a walkover survey ' of the site on November 3, 1988. No fossils were located during the survey. STRATIGRAPHY AND PALEONTOLOGY The study area is primarily recent alluvium with exposures of the Pauba Formation. The Pauba is exposed mainly along stream channels and gullies. The Pauba Formation is Pleistocene (10,000 to 1.8 million years) and was deposited in ancient streams that ' flowed across the landscape during the last."Ice Age." Recent grading monitoring has produced large numbers of fossil vertebrate animals from this formation within the Rancho California and Murrieta area. Fossil camel, horse, antelope, bison and elephant have been excavated and archived at the Los 1(� BM 1 Ile 1 .app #) BMW 23352 MADEROs SUITE J MISSION VIEJO CA 92691 (714) 770-8042 v FIGURE 1. APPROXIMATE LOCATION REGIONAL CENTER. RANCHO CALIFORNIA, CALIFORNIA. USGS 7.5 MIN. MURRIETTA QUAD. 1953 PHOTOREVISED 1979. ' Angeles County Museum. Several specimens, including one tentatively identified as a carnivore, are awaiting study and should expand this fossil list considerably. The earliest recorded fossils were a tapir and a horse exposed northeast of the Ynez Road and Winchester Road intersections (Mann, 1955, Raschke, 1988)• A fossil horse skull was excavated on P.M. 19677, next to the study area (Raschke 1988). Mr. Robert ' Reynolds, San Bernardino County Museum, reported that over 75 different taxa have been collected from the Pauba Formation and ' the "unnamed sandstone" unit within the Winchester Hills area. The collection at San Bernardino -County Museum contains fossils ' that vary in size from small rodents to large grazing animals. ' The recent alluvial deposits are sediments laid down by streams that flowed across the region within the last 10,000 years. These sediments are considered to be too young geologically to contain any significant fossils. CONCLUSIONS ' The Pauba Formation has contained large numbers of significant vertebrate fossils within the area of Rancho California, Murrieta, and the Winchester Hills. Their large numbers and diversity suggests that they will be of great importance in our understanding of the Pleistocene paleontology of southern California and possibly even North America (Raschke 1988). Raschke (1988) postulates that this area of southern California may have been a major migration pathway for land animals between North and South America during the Pleistocene. Continued expansion of the fossil collection from the Pauba Formation could shed additional light on both the populations and migrations.of ' animals in the Pleistocene. At the end of the Pleistocene, nearly 32% of the larger land animals became extinct. As the Pauba Formation was being deposited during this time, studies of the fossil vertebrates may a provide valuable additional information on this mayor extinction event. ' The paleontologic sensitivity of a rock unit is determined by its past history of fossil discovery. This sensitivity is a measure of the potential for the discovery of paleontological resources during earthmoving activities. Grading and other developmental activities can expose fossils, but by the same token, can destroy these same remains. This would have a significant adverse impact on the paleontological resources of the region. However, proper mitigation measures can reduce these adverse impacts to acceptable levels. Considering its past history of fossil discovery., the Pauba Formation is considered to have a Moderate to High paleontological sensitivity. The recent alluvium is considered to have a LOW paleontologic sensitivity. However the recent alluvium over the study parcel could be a thin veneer and grading could expose any underlying Pauba Formation. Proper mitigation measures are required to reduce the adverse impact of development and protect the paleontological resources of the study area. MITIGATION MEASURES The following measures are required to reduce the adverse impacts of development to an acceptable level and to protect the fossil resources of the site. These mitigation measures are drawn from past efforts and have proven successful in protecting paleontological resources, while allowing the timely completion of developments in Rancho California and elsewhere in southern California. 1. A qualified paleontologist shall be retained to perform inspections of the site and to salvage exposed fossils. The frequency of these inspections will depend on the 4 ' frequency of the discovery of fossils and the rate of excavation. ' 2. The paleontologist shall be allowed to divert or direct grading in the area of an exposed fossil in order to facilitate evaluation and, if necessary, salvage. 3. Due to the small nature of some of the fossils present it may be necessary to collect matrix samples for processing through fine screens. Prances M. Govean, Ph.D. Paleontologist r t REFERENCES AND PERSON CONTACTS Dr. J.D. Stewart, Natural History Museum of Los Angeles. (213) 744-3318. Mr. Robert Reynolds, San Bernardino County Museum. (714) 825-4825. Mann, J.F., Jr., 1955. Geology of a portion of the Elsinore Fault Zone California: Calif. Div. Mines Special Report 43, 22 pp. Morgan, Marilyn, 1988. Paleontological Report Fossil Vertebrate Localities in the Pauba Formation, Rancho California, Riverside County, California, Tracts 20735-7-8-9 & 20881. Prepared for Warmington Homes. Ms. on file at RMW Paleo Associates, Mission Viejo, CA. Morgan, Marilyn, 1988. Paleontological Report. Tracts 21672 and 21673 Rancho California, Riverside County, California. Prepared for Mesa Homes. Ms. on file at RMW Paleo Associates, Mission Viejo, CA. Raschke, R., 1986. Final Report on the Results of Paleontological Monitoring Efforts at Corporate Park V., P.M. 19677, Rancho California: Prepared for Kaiser Development Company, 4 pp. Ms. on file at RMW Paleo Associates, Mission Viejo, CA. Raschke, R„ 1987. Final Report on Paleontological Resources Monitoring at Margarita Village., Tracts 20735-1,-2, -3, -4, -5, -6 and 21802, 21082-2, -3, -4 Rancho California, California: Prepared for Kaiser Development Company, 5 PP. Ms. on file at RMW Paleo Associates, Mission Viejo, CA. Raschke, R., 1988. Assessment of the Paleontological Resources within Tentative Parcel Map 23336, Winchester Hills, Rancho California, California, 4 pp. Ms. on file at RMW Paleo Associates, Mission Viejo, CA. 1 ' BIOLOGICAL ASSESSMENT FOR THE TEMECULA REGIONAL CENTER TEMECULA, CALIFORNIA I Prepared for: Douglas Wood & Associates 1000 Quail Street, Suite 165 Newport Beach, CA. 92660 (714) 851-3119 Prepared by: S. Gregory Nelson Consulting Biologist 24230 Delta Drive Diamond Bar, CA. 91765 November 3, 1989 TABLE OF CONTENTS IV. PROJECT IMPACTS 5 A. Generic Impacts 5 B. Potentially Significant Adverse Impacts 7 C. Cumulative Impacts 7 V. MITIGATION MEASURES 7 VI. REFERENCES CITED 8 PAGE I. INTRODUCTION 1 A. Purpose 1 B. Scope 1 II. METHODOLOGY 1 A. Literature Review 1 B. Field Investigation 2 III. EXISTING CONDITIONS 2 A. Biotic Communities 2 B. High Interest Species 4 C. Areas of Special Biological Importance 5 IV. PROJECT IMPACTS 5 A. Generic Impacts 5 B. Potentially Significant Adverse Impacts 7 C. Cumulative Impacts 7 V. MITIGATION MEASURES 7 VI. REFERENCES CITED 8 ' I. INTRODUCTION A. Purpose The purpose of this report is to provide planners and decision -makers with a biological assessment of proposed development plans for the proposed Temecula Regional Center, encompassing approximately 241 acres located in western Riverside County in the City of Temecula. Permanent development has been limited to scattered ranch structures (now demolished), reservoirs (no longer operational) and fences. Past and present land uses have been limited to agriculture and grazing, however, limited areas of ' naturalized grassland habitat remain on-site. In addition, one endangered species is known to occur in the area of the project site. The potential for the site to possess significant biological resources, including the habitat of an endangered species warrant this investigation and make its findings key to the environmental review process. B. Scope The project site encompasses approximately 241 acres within the general Temecula/Rancho California area in Riverside County. The current status, significance and sensitivity of biological resources on-site are discussed and are then analyzed with respect to the direct and indirect potential impacts associated with the ' proposed development plan. Based on the extent and magnitude of impacts identified, mitigation measures are recommended. Although a comprehensive background description of resources within the entire site is provided, focus of the report is placed on those resources of potential significance. For purposes of this report, biological resources as used here refer to vegetation and wildlife, including birds, mammals, reptiles and amphibians. No attempt is made to address insects and other invertebrates. This is an accepted professional practice, since invertebrate animals ' are extremely difficult to inventory and vegetation and wildlife serve as adequate indicators of biological impacts. II. METHODOLOGY A. Literature Review The study began with a review of information sources relating to biological resources of the project site and surrounding area. ' Habitat designations used in this report are according to the basic classification system of Munz and Keck (1959) as amplified by Cheatham and Haller (1975) and Thorne (1976). Floral taxonomy follows the current regional flora of Munz (1974). Common plant names, where not available from Munz (1974), are taken from Abrams (1923), Hitchcock (1950), and Robbins et al (1951). Vertebrates identified in the field by sight, calls, tracks, scat or other signs are cited herein according to the nomenclature of Stebbins (1972) and Collins, et al. (1978) - amphibians and reptiles; Small (1974) and AOU (1928) - birds; and Hall (1981) and Jones, et al. (1982) - mammals. Authorities used for determination of sensitive biological resources are as follows: Plants - FWS (1982a), CDFG (1982a), Smith, et al. (1980) and CNDDB (1983); Wildlife - FWS (1982b), CDFG (1980, 1982b), and Tate and Tate (1982). Assisting in the preparation of this report was documentation of regional biological resources appearing in County of Riverside (MEI) and local biological resources appearing in Pacific Southwest Biological Services (1980) and The Planning Center (1988). B. Field Investigation The purpose of the field survey was two -fold. First, existing information and preliminary mapping was verified and refined. Second, site specific supplemental data was collected to give a complete picture of biological resources on-site. Site investigations were conducted on November 20, 1988 by Mr. S. Gregory Nelson, Consulting Biologist. The entire property was surveyed using an existing dirt access road and walk -over surveys of those areas which are not accessible by vehicle. Weather at the time of the survey was cool, with a temperature range of approximately 50 degrees F to 60 degrees F. The physical nature of the project site permitted a complete direct examination of virtually all terrain within its confines. The survey did not employ quantitative census techniques. Rather, emphasis was placed on the evaluation of habitat integrity and importance, the inventory of plant and wildlife species, and the delineation of significant habitat areas. Inventories were conducted within several representative examples of the various habitat types found on-site. III. EXISTING CONDITIONS A. Biotic Communities Following are descriptions of the biotic communities - consisting of plant and wildlife species found on-site. As the term implies, biotic communities are predictable assemblages of species which exist within the same physical habitat and have a very close and complex set of interrelationships. Introduced grassland is the only truly developed biotic community found on-site. For detailed inventories of plant and wildlife species found on-site, the reader is referred to a previous report prepared by The Planning Center (1988), which is found as part of Appendix E, Biological Assessments. ' Introduced grassland covers the entire site. This community derives its name from the predominance of introduced grass and herb species which have replaced native vegetation as the result of grazing and other past disturbances. It is a community which is widespread in Southern California today, particularly the western Riverside County area. The introduced grassland on-site includes a variety of "subcommunities", or subtypes. The majority of the site is abandoned pasture. On-site there are several foundations from raised buildings, an abandoned horse track and an abandoned pond which does not appear to have held water for some time. Common plant species found in all introduced grassland are red -stemmed filaree (Erodium cicutarium), foxtail chess (Bromus rubens), soft chess (Bromus mollis), wild oats (Avena fatua), common barley (Hordeum vulgare), lupine (Lupinus sp and mustard (Brassica aeniculata). Other species included croton (Croton californicus), telegraph weed (Heterotheca grandiflora), cudweed (Gnanthalium sp.), doveweed (Eremocarpus setiaerus), and western ragweed (Ambrosia psilostachva). In physical appearance, this vegetation forms a dense groundcover, growing to a height of ' approximately two to four feet (except when mowed or grazed). As a result of its annual lifeform, introduced grassland typically sprouts and grows rapidly following the onset of the winter rains with the most flowering taking place in the spring. Plants then die back and dry out over the summer and fall. ' Due to their altered conditions, large, open expanses of introduced grassland pasture and dryland farmed area generally support a limited abundance and diversity of wildlife. Several ground -nesting birds and burrowing mammals were observed, including the western meadowlark, mourning dove, beechy ground squirrel, audubon cottontail, and valley pocket gopher. Other species typical of grassland foraging habitat were observed as well. These included the red-tailed hawk, American kestrel, turkey vulture, brewers blackbird, and loggerhead shrike. A number of other species are expected including western fence lizard, side -blotched lizard, gopher snake, horned lark, vesper sparrow, killdeer, deer mouse, and coyote. C. High Interest Species The site is located within the geographical range of one species designated as "endangered" by the U.S Fish and Wildlife Service. This is the Stephen's kangaroo rat, (Dipodomvs stephensi). Historically, the species was found throughout the San Jacinto Valley of Riverside County, with small populations also being found in southern San Bernardino Valley and north-western San Diego County. Recent research, however, indicates the current distribution of this species includes many disjunct isolated localities. This reduction is believed to be due to widespread agricultural and urban development within areas of preferred habitat. Based on information gathered to date, soil types and vegetation density appear to be the primary ecological factors limiting the distribution of this species (Bleich, 1977, 1973; Thomas, 1975). Generally, populations are found in soils having high percentages of sand and gravel in relatively flat or gently rolling areas and covered by open, grassy herblands where scattered shrubs occur. Based on field observations, the site is not believed to contain any habitat areas suitable for the Stephen's kangaroo rat. As described above, essentially the entire site is under dryland farming, which involves annual mowing and tilling. In addition a Stephen's kangaroo rat survey and trapping program was conducted over an approximately 120 acre portion of the project site (The Planning Center, 1988), including habitat areas similar to those found over the entire site. This survey and trapping program resulted in no Stephen's kangaroo rat captures, observed tracks, or other evidence indicating their presence. However, it is anticipated that the presence or absense of the SKR will be determined separately from this report. The project site is also within the geographical range of the San Diego horned lizard and the orange -throated whiptail, both of which are listed as "Species of Special Concern" by California Department of Fish and Game. Although worth mentioning, these species are not expected to occur on-site due to its disturbed condition. The site also provides potential habitat for a group of birds included on the Audubon Society's early warning list, known as the "Blue List" (Tate et. al. 1982). These bird species are listed below: Marsh hawk Turkey vulture Snowy plover Merlin American kestrel Ferruginous hawk Loggerhead shrike Vesper sparrow Prairie falcon Burrowing owl Barn owl Short -eared owl Bewick's wren Western bluebird Grasshopper sparrow Savannah sparrow Blue -listed species are not rare or endangered and the listing is advisory only. According to the Audubon Society, the list is an early warning list of species whose populations indicate non- cyclical declines or range contractions and which are recommended for monitoring by wildlife agencies, conservation groups and individual researchers. No rare or endangered plant species are reported or expected from the project area (Smith et.al. 1980). LJ L 1 LJ PI I I LJ �J I �I 1 ' D. Areas of Special Biological Importance As indicated by the preceding discussion, the site provides habitat for a number of wildlife species. However, none of these species are rare or endangered. The area is considered to be a fairly important raptor wintering area. This determination was made as a result of the area being a location where raptorial birds (hawks, vultures, eagles, owls and falcons) concentrate due to a high abundance of roosting sites, a good supply of prey species (small mammals and birds) and suitable hunting habitat (generally open brushland and grassland). As a raptor wintering area, however, the site is not of high significance within the context of regional ' biological resources. It was not, for example, called out as an area of high biological importance by the California Department of Fish and Game (1979) as was the area around Perris Reservoir because of its raptor habitat. IV. PROJECT IMPACTS A. Generic Impacts 1. Causal Factors Adverse impacts to vegetation and wildlife are expected to occur as the result of several causal factors originating with the ' construction, presence and inhabitation of urban development as proposed. These causal factors can be grouped into two major categories -- the removal or alteration of physical habitats through earthwork and the introduction of increased ambient noise levels, exogenous species and other disturbances related to man's activities. Biotic communities, as described in the previous section are assemblages of plant and animal species occurring in the same physical habitat. They occur together in an orderly predictable ' manner and have a very close and complex set of interrelationships. As a consequence, first order impacts resulting from causal factors will, in turn, result in second order impacts which will, in turn, result in third order impacts, and so on. Typically, the degree to which this chain -like reaction proceeds toward the complete breakdown and loss of community stability and integrity will depend on the severity and magnitude of the causal factor. ' 2. Loss of Habitat Construction activities will result in the removal of physical ,habitats through cut, fill and other grading activities necessary for roads, building pads, utilities, fuel modification and flood control. The first order impacts of habitat loss will be the direct loss of vegetation and the destruction of less mobile wildlife forms. In and of itself, the significance of vegetation loss will depend on the diversity and availability of plant communities and associations affected. From the standpoint of biological diversity., the loss of introduced grassland from the site will not constitute a significant adverse impact. The same will be true for the loss of less mobile wildlife forms since they are highly habitat dependent and their abundance and diversity are directly related to those of their habitats. The impacts of vegetation loss through direct removal will, in turn, have potential effects on wildlife. As vegetation is removed or otherwise destroyed, the associated wildlife will either be destroyed (as mentioned above for less mobile forms) or will be displaced to adjacent habitat areas where they will crowd and disrupt local populations. Although increased competition and predation will act rapidly to return population numbers to habitat carrying capacity levels, either displaced or local wildlife will be lost. Since the determinants of their severity are the relative importance of habitats lost to local and regional wildlife populations, the abundance and diversity of wildlife these habitats support, the availability of these habitats, and the habitat dependency of the associated wildlife, the loss of habitat from the site will not be significant. 3. Harassment of Wildlife Causal factors generated during human activities resulting ' from the construction and inhabitation of urban land uses may be collectively termed "harassment". Harassment is defined as those activities of man, and his associated domestic animals which increase the physiological costs of survival or decrease the probability of successful reproduction in wildlife populations. The most common form of harassment expected to accompany development of the site include excessive construction -related noise, background noise, light and glare and the introduction of feral cats, dogs and children which are unnatural predators and competitors for wildlife. B. Potentially Significant Adverse Impacts Conversion of the on-site introduced grassland biotic community to urban development will reduce areawide dryland farming foraging habitat for raptors. As mentioned above, however, the area is not considered to be of high significance in this regard, nor does it contain the habitat for rare and endangered species and the loss of habitat will not be significantly adverse. The same holds true for the loss of habitat supporting other grassland species of wildlife. Based upon these findings, it is concluded that the proposed project will not result in significant adverse impacts. ' C. Cumulative Impacts Although not significant in itself, the loss of introduced grassland habitat described above for the proposed project will contribute on an incremental basis to cumulative impacts to biological resources on a regional basis. These impacts are those which are now occurring in the region as a result of past and planned developments in the region. These impacts include: -An overall reduction in the naturalized biotic resources of the region. -Loss of secondary foraging habitat for migratory populations of birds of prey which are winter visitors to t h e region. ' V. MITIGATION MEASURES The proposed project will not result in any significant adverse impacts. Therefore, no mitigation measures for biological impacts are warranted, and none are recommended. 1 I I I VI. REFERENCES CITED Abrams, Leroy. 1923. "Illustrated Flora of the Pacific States Stanford University Press, Stanford, CA. 4 Volumes. American Ornithologist's Union (AOU). 1957. Thirty-fourth Supplement to the AOU Checklist of North American Birds. Auk (Suppl.) 99(3): lcc-16cc. Beauchamp, R.M. 1980. Report of a Biological Survey of the Interstae 15 - Rancho Villages Portions of Rancho California, Riverside County. Bleich, V.C. and O.A. Schwartz. 1974. Western Range Extension of Stephans Kangaroo Rat ("Dipodomys Stephensi"). A Threatened Species. California Fish and Game 60: 208-210 California Department of Fish and Game. 1979. Areas of Special Biological Importance. State of California Resources Agency, Sacramento, CA. California Department of Fish and Game (CDFG). 1980. "At the Crossroads: A report on the Status of California's Endangered and Rare Fish and Wildlife". State of California Resources Agency, Sacramento, CA. 147 pp. + Addenda. California Department of Fish and Game (CDFG). 1982a. "Designated Endangered or Rare Plants". Summary list from Section 1904 Fish and Game Code (Native Plant Protection Act). State of California Resources Agency, Sacramento, CA. 4pp. California Department of Fish and Game (CDFG) 1982b. "Endangered, Rare and Threatened Animals of California", Revised March 15, 1982. State of California Resources Agency, Sacramento, CA. Photocopied List. 4pp. California Natural Diversity Data Base (CNDDB). 1983. Data Base Record Search for Information on Threatened, Endangered, Rare or Otherwise Sensitive Species and Communities in the ,Vicinity of Desert Hot Springs, Riverside County, California. California Department of Fish and Game, State of California Resources Agency, Sacramento, California. Cheatham, Norden H. and J. Robert Haller, 1976. "An Annotated List of California Vegetation Types". Berkeley, CA: University of California Natural Lands and Water Reserve System. Collins, J.T., J.E., Hukeey, J.L. Knight and H.M. Smith. 1978. "Standard Common and Current Scientific Names for North American Amphibians and Reptiles". Soc. Study Amphibians and Reptiles. Herp. Circ. 7. ' County of Riverside. 1981. General Plan, Environmental Management ' Element. County Planning Dept., Riverside, CA. Fish and Wildlife Service (FWS). 1982a and 1982b. "Endangered and Threatened Plants and Wildlife", In: "Endangered and Threatened Wildlife and Plants". Federal Register 50 CFR 17.11 Aand 17.12. ' U.S. Department of the Interior, Reprint. 13pp. Hall, E.R. 1981. "The Mammals of North America". John Wiley & Sons, New York, NY. Hitchcock, A.S. 1950. "Manual of the Grasses of the United States". U.S. Department of the Agriculture Miscellaneous Publication No. 200. U.S. Government Printing Office, Washington D.C. 1051 pp. Jones, Jr., J.K., D.C. Carter, H.H. Genoways, R.S. Hoffman and D.W. ' Rice. 1982. "Revised Checklist of North American Mammals North of Mexico, 1982". "Occas. Pap. Mus. Texas Tech Univ.", No. 80. Munz, Phillip A. 1974. "A Flora of Southern California". University of California Press, Berkeley, CA. 1086 pp. Munz, Phillip A. and David D. Keck. 1959. "A California Flora". ' University of California Press, Berkeley, CA. 1681 pp. Pacific Southwest Biological Services. 1980. Rancho Villages Policy ' Plan General Plan Amendment. County of Riverside. Robbins, W.W., Margaret K. Bellue and Walter S. Ball. 1951. "Weeds of California". State of California Department of Agriculture. 547 PP. Small, Arnold. 1974. "The Birds of California". MacMillan Publishing Co., New York NY. 270 pp. Smith, James P. Jr., R. Jane Cole and John 0. Sawyer, Jr. 1980. ' "Inventory of Rare and Endangered Vascular Plants of California". Special Publ. No.I (2nd Edition), California Native Plant Society. 115 pp. + Supplements. ' Stebbins, R. C. 1972. "Amphibians and Reptiles of California". University of California Press, Berkeley, CA. ' Tate, James, Jr. and D. Jean Tate. 1982. "The Blue List for 1982". American Birds 36(2): 126-135. The Planning Center. 1988. Biological Survey for Rancho California Parcel BP7-1, Parcel Map No. 23336. Prepared for Rancho California Development Company. Thomas, J.R. 1973. Stephen's Kangaroo rat Survey, 1972-1973. California Department of Fish and Game Wildlife Admin. Rep. 73-5. 11 Thomas, J.R. 1975. "Distribution, Population Densities and Home Range Requirements of the Stephen's Kangaroo Rat (Dipodomys , stepehnsi). M.A. Thesis, California State.Polytechnic University, Pomona. vii + 64 pp. Thorne, Robert F. 1976. "The Vascular Plant Communities of ' California". in Latting, June ed. "Plant Communities of Southern California". Riverside, CA: California Native Plant Society Special ' Publication No. 2, pp. 1-31. IJ n 1 11 11% Environmental Impact Reports • Biological Inventories • Endangered Species Studies 6 October 1990 Bedford Properties 28765 Single Oak Drive Suite 200 Temecula, CA 92390 (714) 676-5641 Re: Update survey for Stephens' kangaroo rats (Dipodomvs ste- Phensi - SKR) on the 241 -acre Temecula Regional Center project site; Specific Plan 263; EIR No. 340; located east of Interstate 15 and immediately north of Winchester Road in Rancho California; Riverside County (Figure 1). The site will be converted into a variety of commercial developments. TO WHOM IT MAY CONCERN: Following is a letter -report describing the results of a field survey for the Stephens' kangaroo rat on the above-described property. BACKGROUND AND METHODS The Temecula Regional Center (TRC) project site was originally surveyed for Stephens' kangaroo rats in 1988 (Montgomery 1988). A subsequent investigation cCvered the same area, as part of a survey of an extensive expanded area to the north and south (Montgomery, March 1989). SKR were present in the TRC area during both surveys, although the distribution of the species was always very limited. The 1.3 acres of occupied SKR habitat identified in the 1988 survey had not changed during the 1989 survey. A third site ch the property on gist certified nia Department purpose of this ' er surveys, as Riverside. eck for Stephens' kangaroo rats was conducted on 9 August 1990 by Stephen J. Montgomery, a biolo- by the U.S. Fish and Wildlife Service and Califor- of Fish and Game to trap and handle SKR. The investigation was to update the results of earli- required on an annual basis by the County of All sections of the property were initially inspected for poten- tial SKR habitat, which typically consists of sparsely covered disturbed grasslands or shrublands in level to gently sloping terrain. This assessment showed that habitat conditions on the ' property were similar to those prevailing during the previous two site surveys. However, it was noted that areas described as -- .. — ---- -- -- — . .. .. nuc ""Vu i :a L v a j In addition, SKR were still present in the general area indicated during the previous investigations. Therefore, a trapping survey was deemed unnecessary, since a previous investigation had veri- fied that the Stephens' kangaroo rat was the resident species in this area. In order to determine the current distribution of SKR on the property, a detailed inspection was conducted for such kangaroo rat sign as burrows, scat and tracks. All occupied SKR habitat was mapped, and habitat quality (burrow density) was determined according to the methods established by O'Farrell and Uptain (1989). +Immediate ly surrounding lands were also assessed for their poten- ':'tial for occupation by the species. The weather was hot and clear during the site visit. RESULTS Topography on the site is essentially identical to that described for the area by Montgomery (1988). The southern one-half of the property is upland terrain that is generally flat or gently sloping. The northern one-half lies in the Santa Gertrudis Creek. Soils in the southern portion are generally loamy and suitable for SKR; those in the northern portion are. sandy and mostly unsuitable for the species. Vegetation in the upland portion of the site consists of elements of ruderal and disturbed grassland communities, which are typical for recently disturbed substrates. Dominant species identifiable at the time of the survey included a variety of non-native annual grasses, telegraph weed (Heterotheca arandiflora), sunflower (Helianthus annuus , Russian thistle (Salsola iberica) and fila- ree (Erodium cicutarium). The creekbed contains this same dis- turbed vegetation association, augmented by a very sparse ripar- ian community comprised of several small cottonwood trees (Popu- lus fremontii.) and a few individuals of mulefat (Baccharis. sali- cifolia). A single large cottonwood also occurs at the northern edge of the upland section. The various parts of the property have been entirely disturbed in recent years, from cultivation or grading activities. Three water pump stations occur on the site, and several dirt roads are present. The creekbed has been heavily disturbed through the past several years. Sheep have grazed the upland part of the site in recent months, and signs of California ground squirrels are abundant. yuoaa..] i., Ull ULJl Olt *L WOO 1Z LLa( W \iWVVJ. LLLLD constitutes an increase of 0.4 acres of habitat at this site since the 1989 survey. SKR were noted in association with ground squirrel burrows in the formerly disced field, south of the area ' mapped in 1988 and 1989. The species has, therefore, colonized fallow fields since March 1989. Although Stephens' kangaroo rats formerly were common in the ' general region of this property (Montgomery 1980), the only population known in the immediately adjacent properties occupies a narrow strip of habitat directly to the northeast, across Margarita Road. This population is essentially an extension of the population on the presently surveyed property. At greater distance, a small isolated population was recently identified ' approximately 2.5 miles to the northeast (Montgomery 1990), and O'Farrell and Uptain (1989) noted a remnant population 1.5 miles to the southeast. Therefore, the identified SKR population on the Temecula Regional Center and immediately adjacent property is ' isolated from other populations of the species. Nonetheless, this population has survived at very small densities for a minimum of 2 1/2 years. iLands surrounding the occupied SKR habitat area are all unsuit- able for the species, with the exception of the narrow strip of occupied habitat immediately to the northeast beyond Margarita Road. To the northwest are cultivated fields. To the southwest are disturbed lands. To the southeast are cultivated and other- wise disturbed lands. The property does not occur in any of the SKR preserve study areas. SUMMARY The property contains 1.7 acres of occupied SKR habitat. This is an increase of 0.4 acres of occupied habitat since March of 1989, indicating that the species is colonizing disturbed, formerly disced and unsuitable, habitats. The property does not occur in any of the SKR preserve study areas. ' Sincerely, 01 Stephen J. Mont emery Certified Stephens' Kangaroo Rat Biologist ' 3 Montgomery, S. J. 1980. in, Pacific Southwest Biological Serv- ices, Report of a biological survey of the Interstate 15 -Rancho Villages portions of Rancho California. Prepared for Kacor Realty Inc. (Rancho California) and The Planning Center (San Diego). . 1988. Letter -report of a field reconnaissance and trapping survey for Stephens' kangaroo rats in the area described by Tentative Parcel Map No. 23335 (C-21); located north of Temecula; Riverside County. Prepared for The Planning Center. Newport Beach, Calif. 1989. Letter -report of a site check for Ste- phens' kangaroo rats on the 1,049 -acre Rancho.California Commerce Center property; .Comprehensive General Plan Amendment 179; Zone `.Change 5181 and 5188; located in Rancho California. Prepared for Bedford Properties. Rancho California, Calif. . 1990. Letter -report of a habitat mapping survey for Stephens' kangaroo rats on the Pulte Homes property located immediately east of Winchester Road and north of Murrieta Road (portion of Section 18, T7S, R2W). Prepared for Pulte Homes Corporation. O'Farrell, M.J. and C. Uptain. 1989. Assessment of population and habitat status of the Stephens' kangaroo rat (Dipodomys stephen- si). Calif. Dept. of Fish and Game, Non -game Bird and Mammal Section Report (July 1989). 4 Cn' +----< - -- -- �- -- ------ ---.4 rriet I +'7 I 1 p \\ I r( y� i � 'l I �G _1 ♦ I 4 _ I Y / I I \ 6 \ 1 \ i �♦ -�T / \I NN /r \4 7__ r\ �a \\� NNNN 14 111 �i I I r \ 1 i Figure 1. Vicinity map for the Temecula Regional Center project I I I I I 1 ' Margarita^Rd--- 1AJ;r C it `` • �, n FYI . Figure 2. Occupied Stephens' kangaroo rat habitat (circled with , heavy line) on the Temecula Regional Center project. Only the northern extremity of the property is shown, since SKR were only ' SJM BIOLOGICAL CONSUL"IAN"I Environmental Impact Reports Biological Inventories Endangered Species Studies ' Re: An ammendment to a previous Stephens' kangaroo rat report on the 1049 -Rancho California Commerce Center property; located northeast of Temecula, in the County of Riverside (see ' Figure). ACRES OF OCCUPIED STEPHENS' KANGAROO RAT HABITAT ON THIS SITE ' 9.5 ACRES OVERALL ABUNDANCE OF STEPHENS' KANGAROO RATS ON THIS SITE (i.e. ' THIS CONSTITUTES AN ASSESSMENT OF HABITAT QUALITY, BASED ON THE METHOD OF O'FARRELL AND UPTAIN 1989) TRACE TO LOW 1 These calculations and abundance determinations were made by ' Stephen J.. Montgomery on the best available maps that were sup- plied by the client. ' Sincerely, Stephen J. Montgomery 4S.✓/ii-9IU��O1•:C'. .gid// i"'e3 ;=a. r♦ r Z.�(r ' U L— } Hot /J '• 1134 Riparian Mixture of Cultivated �• '0, and and Disturbed )'v (r S 11 ss ) Location of SKR 1 - r _ �.Ar� �f '_�Y��l I 11 ��•� � Ill Ij -® l l �1.1100 �w / I films"ilfCI GaQmY SA /... Y BM 1010 : �. •: , ( �� .' c �,�� ni Wtll 1 .. �"\ ki, \ ;44 I � u U X10 / � __•0 / S{��l �:: /`' i �1 (7�-if 1k, \\p ir G w `$V $.� - O�P� ,s Rasarv° R ir% II, Figure 1. Site Locations of occupied types 'g pCalifornia Commerce Center , property. Locations of occupied Stephen's Kangaroo Rat habitat and are shown. Source: Murrieta 71/2 -min. USGS Ouadranale. i i / / Al 1 } i ♦ ia.... / Location of SKR / i i6 for r.o � LLi�tf 06: . O 1 P �Tp M/CAP 40 E ,06666 / 0111,2 ' V'S r P. MO, tLJUP yb_, Elb O I � ` 1 NA I 7F / A , 1 Figure 2. Detailed map of occupied Stephen's Kangaroo Rat -...-._ .:_._ habitat, as determined during February; and March 1989 field 1 reconnaissances and substantiated in'a 1988 live -trapping survey. Diamonds show sites exhibiting SKR sign and/or prior positive trapping results. Scaler 1 inch equals 300 feet. Bedford Properties I I I I I Temecula Regional Center EIR (Specific Plan 263) Traffic Impact Study Update I I I I "AIM& Eamon' Wilbur Smith Associates April, 1991 1 I I I I I I I 1 I Bedford Properties Temecula Regional Center EIR (Specific Plan 263) Traffic Impact Study Update Wilbur Smith Associates ' 3600 Lime Street, Suite 226 Riverside, California 92501 ' Contact Person: Robert A. Davis (714) 274-0566 1 I CONTENTS 1. 1 I. Introduction And Summary ......................................... 1 A. Purpose of Report and Study Objectives ............................. 2 1 B. Executive Summary ............................................ 2 H. Proposed Project Development ....................................... 6 A. Location ..................................................... 6 1 B. Proposed Land Use ............................................ 6 C. Site Plan Layout ............................................... 6 D. Zoning and Land Use .......................................... 8 E. Phasing and Timing ............................................ 8 i III. Area Conditions ................................................. 9 A. Study Area ................................................... 9 B. Study Area Land Use .......................................... 10 C. Site Access . 11 D. Traffic Conditions ............................................ 13 1 E. Transit Service ............................................... 14 F. Transportation System Management (TSM) Programs .................. 14 IV. Projected Traffic .............. 15 A. Traffic Forecasting Methodology .. • ............................... 15 1 B. Site Traffic .................................................. 17 C. Existing Plus Project Traffic 18 ' D. Non -Site Traffic .............................................. 19 E. Total Traffic Projections ........................................ 20 1 1 CONTENTS (continued) V. Existing Plus Project Traffic Analysis ................................ 21 A. Roadway Segment Service Levels ................................. 21 B. Existing Plus Project Intersection Service Levels ...................... 22 C. Existing Plus Project Roadway Needs .............................. 22 VI. Year 2000 Traffic Analysis A. Project Vehicle -Miles of Travel .................................. 24 B. Site Access ................................................. 25 C. Off -Site Capacity and Level of Service Analysis ....................... 26 VII. Findings ..................................................... 30 A. Site Accessibility .............................................. 30 B. Traffic Impacts ............................................... 30 C. Roadway Improvement Needs .................................... 31 D. Compliance With Riverside County General Plan Circulation Policies ...... 32 VIII. Recommendations ............................................. 34 A. Site Access/Circulation Plan ..................................... 34 B. Off -Site Roadway Improvements .................................. 34 C. Transportation System Management Actions ......................... 35 IX. Conclusions................................................... 36 X. Phasing Plan .................................................. 37 A. Proposed Temecula Regional Center Development Phasing ............. 38 B. Conceptual Circulation System Phasing Plan ......................... 38 Appendix.............................................. 46 TABULATIONS I: ITable Follows Page I I 11 [1 I I la. Assumes Land Use (Regional Mall Alternative) ........................ 5 lb. Assumed Land Use (Power Center Alternative) ....................... 5 I 2a. 2b. Vehicle Trip Generation Rates (Regional Mall Alternative) ............. Vehicle Trip Generation Rates (Power Center Alternative) ............. 16 16 3a. 3b. Vehicle Trip Generation Summary (Regional Mall Alternative) .......... Vehicle Trip Generation Summary (Power Center Alternative) ........... 16 16 4. 5a. Existing Plus Project ICU Summary ............................... ICU Summary (Year 2000 Without Project) ......................... 21 23 I5b. ICU Summary (2000 With Project) ................................ 23 6. ICU Summary (Year 2000 With/Without Project With Improvements) ..... 28 I I 11 [1 I I ILLUSTRATIONS Follows Figure Page 1. Development Area and Sub -Areas ................................. 5 2. Existing Traffic/Roadway Characteristics ............................ 10 3. Anticipated Transportation System ................................ 11 4. Existing Plus Project Daily Traffic ................................ 17 5. Projected Daily Traffic (Year 2000 Without Project) ................... 19 6. Projected AM Peak -Hour Traffic (Year 2000 Without Project) ........... 19 7. Projected PM Peak -Hour Traffic (Year 2000 Without Project) ........... 19 8. Projected Daily Traffic (Year 2000 With Project) ..................... 19 9. Projected AM Peak -Hour Traffic (Year 2000 With Project) ............. 19 10. Projected PM Peak -Hour Traffic (Year 2000 With Project) .............. 19 11. ICU Analysis Intersections ....................................... 19 12. Roadway Segment Service Levels (Year 2000 Without Project) ............ 26 13. Year 2000 AM Peak -Hour Service Levels With and Without Project ....... 26 14. Year 2000 PM Peak -Hour Service Levels With and Without Project ....... 26 15. Roadway Segment Service Levels (Year 2000 With Project) ............. 26 16. Recommended Future Off -Site Traffic Lanes and Regional Center Access Configuration .......................................... 29 17. Recommended Future Circulation System .......................... 31 18. Temecula Regional Center Phasing Plan ........................... 37 19. 1992-1994 Implementation Period ................................ 38 20. 1994-1995 Implementation Period ................................ 40 21. 1995-1996 Implementation Period ................................ 41 22. 1996-1998 Implementation Period ................................ 42 23. 1998-1999 Implementation Period ................................ 43 24. 1990-2000 Implementation Period ................................ 44 I. Introduction And Summary Bedford Properties plans to develop a 201 -gross -acre parcel of land located east of Interstate 15 and south of Winchester Road. As planned, the 201 -acre Temecula Regional Center development would include a mix of commercial uses consisting of retail, office, and hotels. A. Purpose of Report and Study Objectives The purpose of this report is to document the Temecula Regional Center Traffic Impact Study. The study was performed for Bedford Properties by Wilbur Smith Associates. The objectives of the study were: o To review existing roadway and traffic conditions; o To identify the probable traffic increase related to the proposed Regional Center and other development in the area; o To assess the ability of existing and planned roadways to accommodate projected post -project traffic; and o To provide traffic -related inputs to the General Plan Amendment Environmental Impact Report (GPA-EIR). The scope of the study included: o Collection and assembly of inventories of existing roadway conditions and current traffic flow. o Evaluation of projected traffic impacts, including: (1) projections of growth for area background traffic; (2) anticipated project trip -generation; (3) assignment of project -related traffic to the area roadway network; and (4) volume -capacity analyses of primary access roadways and intersections. 1 o Identification of appropriate measures to mitigate anticipated project -related traffic impacts and other area roadway deficiencies. o Evaluation of area build -out traffic conditions with the project and long-range transportation system needs to meet minimum level of service requirements. B. Executive Summary This section presents an overview of the Temecula Regional Center Traffic Impact Study. More specifically, it briefly summarizes the development proposal and the key findings, conclusions and recommendations from the traffic impact analysis. Site Location and Study Area - The proposed Regional Center site is located in the northern part of the Temecula urban core area. The project site abuts the east side of Ynez Road, immediately south of Winchester Road. As proposed, the fully developed site would be bounded by Winchester Road; Ynez Road; Apricot Avenue (new roadway); and Margarita Road (new roadway). The area of primary impact was assumed to include: o The Winchester Road corridor from Diaz Road to Murrieta Hot Springs Road; o The Ynez Road corridor from Date Street to Rancho California Road; o The Margarita Road corridor from Date Street to Solana Way; and o Apricot Avenue from Jefferson Avenue to Margarita Road. Development Description - The Regional Center development was assumed to include the following approximate development units for each of the proposed land uses: o Core retail center - 1,125,000 SFGLA (regional mall alternative), or - 800,000 SFGLA (power center alternative); o Fringe area retail - 548,000 SFGLA (both alternatives); I o Fringe area office - 810,000 SFGLA (regional mall alternative), or - 1,260,000 SFGLA (power center alternative); and ' o Hotels - 250 rooms (regional mall alternative), or - 400 rooms (power center alternative). The distribution of assumed uses within the project site is provided in Tables la and lb for the two development alternatives. The distribution of retail and office square footage may vary in the final development. The project site is located within an area designated as Land Use Category 1 (Heavy Urban). Existing zoning for the site is R -R (Rural Residential) for the northern two-thirds of the project and A-2-20 (Heavy Agriculture) for the southern portion. The Southwest Area Plan designates this site as commercial. Principal Finding - The traffic impact assessment performed for the project resulted in the following findings: o Access to and from the site is good. There appear to be opportunities to modify the number and configuration of proposed on-site access points to optimize driveway/roadway spacing while at the same time maintaining a favorable level of accessibility. to While the Temecula Regional Center will have an impact on travel patterns and traffic conditions in the vicinity of the project, the level of impact is not as high as would be expected. A large portion of the project -related shopping trips would be captured from traffic flows projected to use the streets adjacent to the project. New trips which would be added to the area streets would in many cases be added to the off -peak -direction traffic flows and non-critical movements at intersections. This results in more efficient use of available street and intersection Icapacity and minimizes the effects of the added traffic on Level of Service. o Although projected traffic volumes on the planned street network would result in peak -hour service level "E" or 7' at two intersection locations, additional improvements have been identified which would achieve the minimum Level of Service D or better at all intersections. These improvements would be needed with or without the project. I3 o A summary of the intersection service level analysis results is provided in Tables 5 and 6. Conclusions - The Temecula Regional Center will add traffic to the adjacent street network over and above that which would be attributable to other ongoing and planned development projects. Assuming that recommended improvements are implemented, all but one intersections would operate at Level of Service D or better. Development of the Temecula Regional Center will provide a more favorable balance of jobs and housing in the Southwest area. It would also serve a regional -oriented shopping market demand which currently does not e)dst in the area. This would have a beneficial effect on reducing total vehicle miles of travel for the region by providing more local employment and shopping opportunities. The project thereby results in decreased levels of air pollution and congestion which would otherwise be associated with a less "balanced" land use proposal (e.g., residential uses). Recommendations - The recommended roadway and intersection improvements for the study area are depicted in Figures 16 and 17. All off-site improvements are recommended for accommodating future traffic volumes with or without the project. The developer should be responsible for "direct project access" improvements along the site boundaries and on-site improvements as well as a "fair -share" amount towards the implementation of needed off-site improvements. Bedford Properties is a principal participant in the Ynez Corridor Community Facilities District 88-12 and Winchester Assessment District 161. These two improvement districts will provide funding for almost all of the needed off-site improvements. Additional "fair -share" participation would be warranted in the implementation of those off-site improvements not addressed in the current improvement districts. 4 H. Proposed Project Development This section describes the proposed Temecula Regional Center project in terms of location, land use, zoning, site plan and implementation schedule. A. Location The proposed Regional Center site is located within the City of Temecula, immediately east ' of Ynez Road; and south of Winchester Road (see Figure 1). The proposed future alignments of Margarita Road and Apricot Avenue would ultimately bound the project on the east and south sides of the project site respectively. B. Proposed Land Use As proposed, the Temecula Regional Center would consist of three principal project development areas. These project sub -areas are depicted in Figure 1 and proposed land use alternatives are summarized in Tables la and lb. Sub -Area la, located in the northeastern portion of the site, would include a mix of retail, office and hotel uses. Two land use alternatives are being considered for Sub -Area 2 which comprises the central and western ' portion of the site. The "regional mall' alternative would consist of an enclosed retail shopping mall and several detached clusters of retail uses. The "power center" alternative would include a somewhat smaller open-air retail shopping center, detached clusters of retail uses, office uses, and hotel uses. Sub -Areas lb and 3 would include a mix of office and retail uses. The ultimate distribution of land use within the site will be a factor of future market conditions. Specific land uses and square footage of floor area may vary in the final development plan. The proposed land use assumed in this study is considered a "likely" development scenario but is not assured. C. Site Plan Layout The proposed conceptual site plan for the Temecula Regional Center project is presented in the attached Appendix to this report for illustrative purposes. Future refinements of the 1 5 M m r r M M w M M M M !f• = M M 11111111110 M iI►N� IFMRUU INEME Wiii LEGEND: (3) Sub - Area Identification CHESTER MEADOWS CAMPOS VERDES Development Area And Sub -Areas Regional Center OR Traffic Study R. ' Table la Assumed Land Use Regional Mall Alternative Temecula Regional Center 1 BY DEVELOPMENT AREA I CJ I I Development Area * Net Acres A rwc Size Unit Land Use Sub -Area l Retail 548 ksf Office la 39.20 Hotel 250 rooms 250 ksf Retail 350 ksf Office 250 rooms Hotel lb 32.77 35 ksf Retail 420 ksf Office Sub -Area 2 97.80 1,125 ksf Retail (Mall) 250 ksf Retail (Detached from Mall) Sub -Area 3 5.49 13 ksf Retail 40 ksf Office Total I 175.26 • Refer to Figure 1. • ksf - Thousand Square Feet (Gross Leasable Floor Area) I�� \\�17i1.`7x s Y • C Land Use Size Unit Retail Mall 1,125 ksf Retail 548 ksf Office 810 ksf Hotel 250 rooms Note: land use allocations and square footage stated in the table are based on the developers current "best guess" apprmdmations 1 of how the site may be developed. 121D1e 10 Assumed Land Use Power Center Alternative Temecula Regional Center RMT&TAWON&A Ed TUMVITi ME Development Area * Net Acres Appmx ` Size Unit Land Use Sub -Area 1 Retail 548 ksf Office la 39.20 Hotel 400 rooms 250 ksf Retail 350 ksf Office 250 rooms Hotel lb 32.77 35 ksf Retail 420 ksf Office Sub -Area 2 97.80 800 ksf Retail (Power Center) 250 ksf Retail (Detached from Power Center) 450 ksf Office 150 rooms Hotel Sub -Area 3 5.49 13 ksf Retail 40 ksf Office Total 175.26 • Refer to Figure 1. • ksf - Thousand Square Feet (Gross leasable Floor Area) ftra W1.0191.3WO M21091 [i'1 Land Use Size Unit Retail Power Center 800 ksf Retail 548 ksf Office 1,260 ksf Hotel 400 rooms Notc Land use allocations and square footage stated in the table are based on the developers t nt "beat guess" approximations of how the site may be developed. [1 1 1 I 1 1 site plan may result in changes to the layout and breakdown of building square footage. Proposed access for the Regional Center is described below: o Primary on-site access and circulation would be provided by the north -south Regional Center Road (identified as Loop Street 'B" on the site plan) which would essentially form the boundary between the core retail center (Sub -Area 3) and Sub -Areas la and lb. This principal project road is assumed to be a four - lane roadway with median provisions for left turns. Full movement intersections are planned at 700 to 800 -foot spacings between Winchester Road and Apricot Avenue. o A secondary on-site access road is proposed which would provide an east -west connection between Regional Center Road and Margarita Road. This road (not specifically identified on the site plan) would essentially be a westerly extension of General Kearny Road and would form the boundary between project Sub - Areas la and lb. This new on-site extension of General Kearny Road is also assumed to be a four -lane roadway with left -turn bays. o Apricot Avenue is proposed to cut through the southern extremity of the project site in an east -west direction between Ynez Road and Margarita Road. Apricot Avenue would serve as access to the project via the Regional Center Road intersection located midway between Ynez Road and Margarita Road. Right -turn in -and -out site access is proposed on Apricot Avenue midway between Ynez Road and Regional Center Road, and between Regional Center Road and Margarita Road. o Access intersections along Winchester Road are proposed at two locations equally spaced between Ynez Road and Margarita Road. The west intersection would serve the main entrance to Sub -Area 2 (proposed core retail center). The east intersection would be located at the new north -south Regional Center Road. Right -turn in -and -out access driveways are proposed midway between the full access intersections. o On Ynez Road, three access points are proposed. One full movement access intersection for Sub -Area 2 would be located opposite the main signalized intersection for Palm Plaza (P.P.11222). A right-in/right-out access driveway is proposed immediately south of Apricot Avenue and would serve project Sub -Area 3 3. A second right-in/right-out access driveway is proposed between the Palm Plaza intersection and Apricot Avenue. o Two full -access intersections are proposed on Margarita Road between Winchester Road and Apricot Avenue. One intersection would be located at the new General Kearny Road extension and one midway between Winchester Road and General Kearny Road (opposite the proposed Campos Verdes Loop Road). Additional limited access (right -in -and -out) is proposed at one location along the Margarita Road frontage of project Sub -Area lb. D. Zoning and Land Use Existing zoning for the site is a combination of Rural Residential (R -R) and Heavy Agriculture (A-2-20). The commercial uses targeted for the site expansion would be consistent with the Southwest Area Plan Commercial designation for this area. The project site is located in an area currently designated as Land Use Category 1 (Heavy Urban). E. Phasing and Timing According to Bedford Properties, the entire Temecula Regional Center could be developed within a ten-year period. Future area demographics and market trends would, however, have significant influence on the actual project development schedule. Preliminary scheduling for the Sub -Area 2 portion of the project calls for its completion within a five to seven-year period. Given the uncertainties in the project development schedule, the traffic impact study addresses full development of the Temecula Regional Center. Assumptions regarding other area development (included in the traffic analysis) are discussed later in the report. 7 I III. Area Conditions r This section describes the traffic impact study area for the Temecula Regional Center project in terms of coverage, land use, and existing and planned transportation system. rA. Study Area Under Riverside County guidelines, the area of significant traffic impact is defined to include all intersections which would experience an increase of five percent (5%) or more in existing rpeak hour traffic volumes as a result of the project. These "typical case" guidelines could not be used in defining the Regional Center study area for the following reasons: ' o The addition of new planned area roadways will drastically change existing travel ' patterns; and o Many new intersections will be formed by the expanded roadway network. Other factors, such as those listed below, result in the actual new project trips which would ' be added to the adjacent street system to be significantly less than the total number of vehicle trips generated by the project. ro The new shopping opportunities offered by proposed retail development in the Regional Center would intercept a portion of the traffic (e)isting and future) which would otherwise pass the site on the way to other retail establishments in Temecula and outside the area. o Since Winchester Road is a principal access road between the Temecula employment center or I-15 and several large residential developments located to ' the northeast, the convenience of the Regional Center location would encourage shopping trips to be made as a secondary purpose (e.g., stopping "on the way ' to..." or "on the way home") rather than a primary purpose (e.g., home to shop and returning home). 11 ' 8 It is clear, however, that the Regional Center would have a significant influence on area travel patterns and traffic conditions. For the purpose of this traffic impact assessment, the area of detailed study was essentially defined by the roadway corridor which would provide primary access to and from the project. The following primary access corridors were designated for detailed study: o The Winchester Road corridor from Diaz Road to Murrieta Hot Springs Road; o The Ynez Road corridor from Date Street to Rancho California Road; o The Margarita Road corridor from Date Street to Solana Way; and o Apricot Avenue from Jefferson Avenue to Margarita Road. B. Study Area Land Use The project site is situated in the northern Temecula area, which is currently under development. Existing zoning in the area is a combination of IP, M -SC, C -P -S, R -R and A- 2-20 (Heavy Agriculture). The Southwest Area Plan designates the Regional Center site as Commercial. The surrounding area is designated as predominantly Commercial with some Light Industrial and higher density residential. Existing land use development in the area is limited with most nearby development occurring in the Ynez Road corridor. This development includes a mix of light manufacturing, auto sales and service, office, and retail centers. Existing residential development in the area is limited to the recently completed projects of Roripaugh Hills and Woodcrest Country. These residential areas are located northeast and southeast of the Regional Center site. In accordance with County guidelines for traffic impact studies, all approved development projects in the area were assumed to be completed in the development of future background traffic forecasts at project build -out. It should be noted the nearby planned projects identified in Figure 1 were also assumed to be built -out by the completion of the Regional Center. Other planned (but not yet approved) projects within an approximate two-mile radius were also included. More remote planned but not yet approved projects were assumed to be 50 percent developed. Approved and planned development included in this study is tabulated in the Technical Appendix. O ' C. Site Access The existing roadway network serving the project site is depicted in Figure 2. The roadway facilities providing access to and from the project site include: ' o Escondido Freeway (1-15) - The Escondido Freeway is a major north -south freeway serving the Temecula area, linking it to Riverside, the Los Angeles metropolitan area (via the Corona Freeway) and San Diego. In the vicinity of the proposed project, I-15 has eight through travel lanes. Project site access to and ' from I-15 is provided via a "modified diamond" type interchange with a 'loop" ramp in the northwest quadrant. The interchange is located on Winchester Road (State Route 79) west of the project site. o Winchester Road (State Route 79) - Winchester Road is a regional state highway which provides regional access to and from the Hemet/Banning area (northeast of Temecula) as well as local access to and from I-15. Winchester Road is a four - lane Major Street west of Jefferson Avenue and a two to four- lane Urban Arterial east of Jefferson Avenue. Winchester Road west of Jefferson Avenue has generally been improved to its planned four -lane cross-section. East of ' Jefferson Avenue, Winchester Road will ultimately provide six travel lanes. The improvement of Winchester Road east of I-15 is being funded by Assessment ' District 161. The widening of Winchester Road between 1-15 and Margarita Road is currently underway and should be completed by the third quarter of 1991. ' o Ynez Road - Ynez Road, which is located immediately west of the project site, is currently a four -lane road in the vicinity of Rancho California Road, but narrows to two lanes north of Rancho California Plaza. Adjacent to Palm Plaza, Ynez Road has already been widened to its ultimate six lane section. North of Winchester Road, Ynez has been improved to a full four -lane (Major) cross- section. The General Plan Circulation Element currently designates Ynez Road (between Palm Plaza and Rancho California Road) as a six -lane Urban Arterial. ' This section is currently in design review and will be implemented via the approved Community Facilities District 88-12. o Mariearita Road/General Kearny Road - Margarita Road is a two to four -lane Arterial street which currently becomes North General Kearny north of Solana ' Way. Margarita Road will ultimately be extended north across Winchester Road and continue north to Murrieta Hot Springs Road. ' 10 SAM Existing Traffic/Roadway Characteristics Regional Center EIR Traffic Study I Road (In Th cles Pi uctlon Figu o Solana Wav - Solana Way is a two-lane Major road which connects Ynez Road with Margarita Road (a north -south Arterial located east of Ynez Road). East of Margarita Road, Solana Way becomes a Secondary road serving residential ' areas in the vicinity of the project site. o Rancho California Road - is a principal east -west roadway which provides access ' to I-15 and the Plaza and downtown Temecula business areas from residential areas east and west of the I-15 freeway/business corridor. East of Front Street, Rancho California Road is an Arterial roadway providing four travel lanes to a point east of Ynez Road and the Town Shopping Center. o Jefferson Avenue/Front Street - Jefferson Avenue, located west of I-15, is currently designated as a four -lane Major Street within the project study area. ' South of Winchester Road, Jefferson Avenue is improved to its ultimate cross- section. The improvement of Jefferson Avenue between Santa Gertrudis Creek ' and Date street is currently underway and should be completed within one year. o Nicolas Road - is a two-lane east -west roadway which intersects with Winchester ' Road northeast of the project site. Nicolas Road, a designated Arterial, currently serves the newly developing residential area located east of Winchester Road. rI Traffic controls at many of the principal intersections along major access roads serving the ' project area are currently limited to "stop" sign control except at the Winchester Road/Jefferson Avenue, Winchester Road/I-15 Ramp intersections and Ynez Road/Rancho ' California Road intersections which are signalized. Four-way stop controls currently exist at the intersection of Winchester Road/Ynez Road and Margarita Road/Solana Way. Three- way stop controls are in use at the intersection of Ynez Road/Solana Way. The currently planned circulation element for the area (as reflected in the Riverside County ' General Plan) is depicted in Figure 3. Typical cross-sections for - the various street classifications designated in the circulation element and a summary of planned travel lanes ' and estimated daily vehicle design capacities (by roadway classification) are provided in the Appendix attached to this report. 1 11 °14 e DATE ST. A I A 4L4L U J � a Y W u N w CHERRY St. a IC 2L 0 Avlh, III /A N A58G(Sag UA w 11 �9 4 v 2 QprP �� i I 7 . A P H DATE ST. qL A A 4L 4L t% N 4L 4L e a < e a j N J A -ST. 0 < C 2L 5 AL OOG G 9 < C tiV P 2L Cpr/Nrwv r'tRd. IC 2L n Anticipated Transportation System Regional Center EIR Traffic Study Figuj LEGEND 2L Number OI Traffic Lanes F Freeway, R/W 200 Fl. PROJECT UA Urban Arterial, R/W 134 F' SITE A Arterial, R/W 110 Ft. M Major, R/W 100 Ft. S Secondary, R/W 88 FL IC industrial Collector, R/W T C Collector, R/W 66 FL tEAq SP SPeclel Project Road, R/W HY q0. 110 FL Ae ModlRed Arterial Section W/ R/W Varies. Anticipated Transportation System Regional Center EIR Traffic Study Figuj ' D. Traffic Conditions Estimated 1990 average daily traffic volumes are depicted in Figure 2. Actual 1990 morning and evening peak -hour traffic volumes are included in the Technical Appendix. Information 1 on 1990 traffic conditions was prepared using recent traffic counts obtained through field investigations, from Caltrans District 8, and from the Riverside County Road Department. Traffic counts were factored, where necessary, to estimate 1990 daily traffic volumes. To update available counts, the following traffic growth assumptions were applied: ' o An increase of 10 percent per year was applied to 1988 and earlier traffic counts available for I-15. 11 1 o An increase of 14 percent per year was applied to 1989 traffic counts on local 12 roadways. This traffic growth assumption is significantly higher than the five percent average growth rate currently experienced in Riverside County, but reflects the higher than normal average traffic growth recently experienced in the ' Temecula area. o Peak -hour factors ranging from 10 to 12 percent were applied to recent peak - hour traffic counts to estimate 1990 daily traffic volumes where recent counts were not available. The evaluation of 1990 traffic volumes and roadway capacities in the project study area indicated: o All existing roadway segments in the study area are currently operating at Level of Service C or better. ' o Field observation of traffic conditions at the recently signalized I-15 ramp intersections on Winchester Road indicate that these intersections are operating at service level 'D" or better during the morning and evening peak periods. ' According to the ICU analysis, these interchange ramp intersections could operate at service level "C" or better if they were interconnected or synchronized. 11 1 12 o The Winchester Road/Jefferson Avenue intersection should operate at service level "C' or better according to the ICU analysis. However, eastbound traffic queues at the Winchester Road approach to the southbound I-15 off -ramp do not allow full utilization of signal green time for eastbound movements at the Jefferson Avenue intersection. E. Transit Service Local transit service is not available today in the study area, and it is not likely to be available (to any significant degree) within the next three to four years. Although area population at project build -out could support some form of transit service, none has been assumed in the traffic analysis. F. Transportation System Management (TSM) Programs At the present time, TSM programs in the Temecula area are limited to car pool incentive programs which have been implemented by a few of the major employers. 13 I I 1 J 1 I� IV. Projected Traffic This section describes the methodology used for projecting traffic generated by the proposed Temecula Regional Center project (site traffic) and other non -site related traffic in the study area. For the purpose of the traffic impact assessment, traffic volumes have been projected for the following three study year/development scenarios. o Eidsting plus project (to satisfy EIR requirements); o Year 2000 without project; and o Year 2000 with project. 'Be year 2000 scenario has been designated to: 1) represent regional development conditions (population level) which would reasonably support the market demands of a regional shopping mall and other retail/employment opportunities proposed in the Temecula Regional Center; and 2) to represent build -out development conditions in the study area for assessing long-range transportation needs. The year 2000 has been selected to represent this condition for purposes of convenience in identification only. The actual date of project completion could occur before or after the year 2000. A. Traffic Forecasting Methodology Traffic volumes were estimated using the TranPlan traffic forecasting model previously developed by Wilbur Smith Associates for the Rancho California Regional Transportation Planning Study. The regional forecasting model consists of over 400 transportation analysis zones (TAZ's) and over 4,500 street links. The TAZ's were expanded to include the special land uses proposed in the Temecula Regional Center project as well as the planned Margarita Meadows Commercial Center, Winchester Hills development, Winchester Meadows Industrial Park and Campos Verdes residential project. The street network was also re -coded to reflect the anticipated on-site circulation network and off-site roadway access to the four projects. A copy of the detailed link-node/TAZ network developed for the Regional Center study area is provided in the Appendix attached to this report. 14 Socioeconomic data was estimated for the TAZ's within the Southwest Area Community Plan (with the exception of the immediate study area TAZ's) based on the existing, approved, planned, and unplanned land uses within the Southwest Area. Socioeconomic data which was estimated included the number of dwelling units, population, retail employment, and non -retail employment. Trips generated from TAZ's outside the immediate study area were estimated as a function of dwelling units, retail employment, and non -retail employment. The residential trip rates for Riverside County from the Southern California Association of Governments (SCAG) forecasting model were used to estimate residential trip productions. Trip attractions for retail and industrial uses were estimated using equations cited in NCHRP 187 Quick -Response Urban Travel Estimation Techniques and Transferable Parameters.' 1978. The TAZ's which defined the Temecula Regional Center project and other major planned developments within the immediate study area (including the Ynez corridor) were treated as special traffic generators and the vehicle trips generated by these TAZ's were estimated using site specific trip generation rates. A detailed summary of vehicle trip production and attraction estimated to be generated within the project study area TAZ's is included in the attached Appendix. Vehicle trips were distributed between the TAZ's using the Gravity Model trip distribution method. The Gravity Model estimates trips between TAZ's as a function of the trip production, trip attractions, and travel time friction factors between TAZ's. The Friction Factors included in the Gravity Model were obtained from the SCAG traffic forecasting model. The Gravity Model produced a daily trip table of daily productions and attractions between TAZ's. The production and attraction trip table was then converted to a daily vehicle trip origin/destination table. An evening peak -hour vehicle trip table was developed by factoring the daily origin/destination trip table. The vehicle trip table was then assigned to the street network using an equilibrium traffic assignment model. The traffic volumes were assigned in five iterations. For each iteration, the travel time on each street link was recomputed as a function of the volume -capacity ratio on that link. The vehicle trips were then reassigned to other travel paths based on the new travel times. The resulting traffic volumes on the network are therefore capacity restrained volumes. Vehicle trips were assigned for all day and evening peak hours. Traffic assignments were also developed for the network without the Regional Center project to simulate traffic conditions for the "no build" scenario. is B. Site Traffic ' The estimation of peak -hour and daily traffic to and from the project site involved four different procedures: (1) trip generation, (2) trip distribution, (3) mode split, and (4) trip ' assignment. Trip Generation is the procedure used to estimate the number of vehicle trips entering and leaving the project site during peak periods and on a daily basis. Vehicle trips generation estimates have been developed for the two project land use alternatives defined in Tables ' la and lb. Daily vehicle trip generation rates used for the Temecula Regional Center uses are based on information developed and published by the Institute of Transportation Engineers (ITE) in the Trip Generation Manual, 4th Edition. Daily vehicle trip rates applied to the two Regional Center land use alternatives are summarized in Tables 2a and 2b. Application of the trip generation rates (presented in Tables 2a and 2b) to the Regional ' Center land use alternatives (presented in Tables la and lb) results in the daily vehicle trip generation summarized in Tables 3a and 3b. Based on the assumed land use mix, both the ' 'Regional Mall" and "Power Center" land use alternatives would generate approximately 64,850 daily vehicle trips. ' Peak -hour trip generation for the project land use alternatives (also summarized in Tables 3a and 3b) has been developed using the TranPlan model which essentially factors the daily vehicle trip production and attractions according to trip purpose (e.g., home-based work, ' home-based other and non -home based). The factors used to develop peak -hour trip generation are based on NCHRP average factors which have been adjusted according to ' SCAG/RIVSAN model characteristics. Peak period factors are summarized in the separate Technical Appendix. TranPlan model estimates for the A.M. peak -hour project trip generation were found to be conservatively higher when compared to manually estimated trip generation using standard ITE peak -hour trip rates. Trip generation for the P.M. peak ' hour were consistent with the standard rates. A comparison of peak -hour trip generation for 'Regional Mall" and "Power Center" ' alternatives shows insignificant differences between the two, both on a project -wide scale and individual Sub -Area basis. As such, the remainder of the traffic analysis has been based on traffic generation for the 'Regional Mall" alternative only. 16 Table 2a Vehicle Trip Generation Rates Regional Mall Alternative Temecula Regional Center Source: rrE Trip Generation, Fourth Edition except where noted • - Size noted only where size is used to determine trip rate. Floor area values are based on current approximations. " - Estimated based on proximity to Regional Mall. , ksf -Thousand Square Feet (Gross Leasable Floor Area) ;'DAILY _ _ LOCATION OF LAND USE SIZE* UNIT TRIP RATE LAND USE RETAIL: Regional Mall 1,125 ksf32.0 Sub -Area 2 Adjacent to Mall Sub -Area 2 Within Core Area Sub -Area la & lb Fringe Area Sub -Area 3 OFFICE: Small 40 ksf 24.4 Sub -Area 3 �r 350 ksf 10 0 Sub -Area la Lai e 420 ksf 9.6 Sub -Area lb HOTEL room 8.7 Sub -Area la Source: rrE Trip Generation, Fourth Edition except where noted • - Size noted only where size is used to determine trip rate. Floor area values are based on current approximations. " - Estimated based on proximity to Regional Mall. , ksf -Thousand Square Feet (Gross Leasable Floor Area) 1 1 1 1 1 1 1 1 1 1 1 1 i 1 i 1 Table 2b Vehicle Trip Generation Rates Power Center Alternative Temecula Regional Center Source: M Trip Generation, Fourth Edition except where noted • - Size noted only where size is used to determine trip rate. Floor area values arc based on current approximations. •• - Estimated based on proximity to Power Center. ksf - Thousand Square Feet (Gross Leasable Floor Area) DAILY LOCATION OF LAND USE SIZE* UNIT TRIP RATE, LAND USE RETAIL: Power Center 800 ksf 36.0 Sub -Area 2 Adjacent to Power Center 36.0 ** Sub -Area 2 Within Core Area 38A :' ** Sub -Area la & lb Fringe Area 40A ** Sub -Area 3 OFFICE: Small 40 ksf 24.4 ..... Sub -Area 3 350 ksf ........................................... 10.0...1:.. __ .' Sub -Area la i 420 .......................................... .......................................... ksf9 6 !' Sub -Area lb Large 450 ksf 9.4 s Sub -Area 2 HOTEL room 8.7 Sub -Area la & 2 Source: M Trip Generation, Fourth Edition except where noted • - Size noted only where size is used to determine trip rate. Floor area values arc based on current approximations. •• - Estimated based on proximity to Power Center. ksf - Thousand Square Feet (Gross Leasable Floor Area) Table 3a Vehicle Trip Generation Summary Regional Mall Alternative Temecula Regional Center PROJECT VEHICLE TRIPS LAND USE/ TOTAL AM Peak Hour PM Peak Hour DEVELOPMENT AREA TAZ I SIZE UNIT DAILY In Out Total I In Out Total Retail 250 ksf 8,750 Office 350 ksf 3,500 Hotel 212 *rooms 1,849 Retail I I 35 ksf I 1,225 Office 420 ksf 4,030 RetailI I 250 ksf 8,000 Mall 1.125 ksf 36.000 Retail I I 13 ksf I 520 Office 40 ksf 976 ksf- Thousand Square Feet (Gross Leasable Floor Area) • - Assumes optimistic 85 percent occupancy. Note. Peak hour trips indicated in this table only include those trips which would enter and leave the individual development sub -areas. Additional trips (approximately 5 to 10 percent) would occur within each development sub -area. M M M M M M M M M M M M M M M M M Table 3b Vehicle Trip Generation Summary Power Center Alternative Temecula Regional Center LAND USE/ TOTAL AM Peak Hour PM Peak Hour DEVELOPMENT AREA TAZ I SIZE UNIT I DAILY In Out Total I In Out Total Retail 250 ksf 9,500 Office I 350 ksf I 3,500 Hotel 800 212 * rooms 1.849 Retail 1 1 35 ksf 1 1,330 Retail 250 ksf 9,000 Power Center 800 ksf 28,800 Office 450 ksf 4,240 Hotel 127 rooms 1,105 SUB -AREA 1;496 : .... ...... .... .. .... ....... .. ........ 82 114� Retail 13 ksf 520 Office 40 ksf 976 ksf- Thousand Square Feet (Gross Leasable Floor Area) - -Assumes optimistic 85 percent occupancy. Note: Peak hour project trips indicated in this table only inleude those trips which would enter and leave the individual development sub -areas. Additional trips (approximately 5 to 10 percent) would occur within each development sub -area. Trip Distribution is the procedure used to identify the roadways used in traveling to and from the project site, and the percentage of site -related travel that will use each roadway. The traffic forecasting methodology used in the study does not require assumption to be made regarding the distribution of trips. The distribution of project trips was performed using the Gravity Model method which distributes trips between area traffic zones based on the magnitude of trip productions and trip attractions in each zone and the travel times between traffic zones. Modal Split is the procedure used to reduce the estimated number of site -related vehicle trips to reflect: (1) public transit access to the site; and (2) higher than normal car pool, bicycle or pedestrian access to the site. In the case of the Regional Center project, standard ITE trip rates were used directly and no additional modal split factors were applied. Trip Assignment is the procedure used to allocate the vehicle trips generated by the project to roadways within the study area based on the trip generation, trip distribution, and modal split procedures described above. The methodology used in this study employed the use of the TranPlan model to assign project -related vehicle trips to the area network. For the purpose of illustrating "project only" traffic, project -related trips were assigned to the area roadway network in an isolated fashion using the distribution generated by the Gravity Model. This method reflects the desired distribution of project traffic without the affects of capacity constraints. The analysis of future traffic conditions "with the project" (discussed later) reflects traffic assignments (including project and non -project trips) which are capacity restrained. Daily traffic volumes generated by the project site are depicted in Figure 4. C. Existing Plus Project Traffic E)dsting plus project traffic projections have been developed only for the purpose of satisfying the EIR documentation requirement. for this scenario. Any conclusion or interpretation drawn from the information should carefully consider the following factors: o The scenario is purely hypothetical since the project could not be developed without additional area development occurring. 17 DATE ST. 1.0 C V FHHY 1.1 +r m (0.2) A SITE \\ m III ° m PD' 9 ,�P n P6PP 9�0 s FP Nq 9 LEGEND 1.3 Total Traffic (In Thousands) (0.9) Project Traffic (In Thousands) (*) Less Then 100 Vehicles Per[ jq Existing Plus Project Daily Traffic Asp Regional Center EIR Traffic Study Figun ' o The addition of project traffic to existing traffic flows does not take into account: - the double counting of project trips which would actually be drawn from existing traffic passing the site; 1 - the influence that the new shopping and employment opportunities offered by the project would have on existing area travel patterns; and - the effects of the post -project roadway system (availability on new routes) on the distribution of existing traffic. ' All of the above factors would have the affect of "reducing" the net impact conclusions typically drawn from a comparison of existing traffic volumes with existing plus project traffic volumes. These notwithstanding, existing plus project daily traffic volumes are illustrated in Figure 4. D. Non -Site Traffic Non -site related traffic volumes have been projected for the year 2000, which essentially represents build -out conditions within the project study area. Year 2000 Non -Site Traffic projections represent traffic generated by other area development anticipated to be in place at the time the Regional Center project is built out. Area development assumptions represented by the scenario include: o Existing land uses; o Build -out of county -approved project land uses; o Build -out of all planned but not yet approved projects within an approximate two- mile radius of the Regional Center including Margarita Meadows, Winchester ' Hills, Campos Verdes, Winchester Meadows, and proposed projects in the Ynez corridor; and i 18 o Fifty percent build -out of all other major projects within the Southwest Area ' Community Plan which have been identified as having plans "in progress" and most of which are in some stage of formal review by area planning agencies. ' It is estimated that this level of local and regional development would reasonably support t the employment and shopping opportunities planned for the Regional Center. The methodology used for developing traffic increases associated with other local development projects was essentially the same as that used for developing site -related traffic projections: o Trip generation for nearby existing planned and approved development projects �. was based on previous project specific traffic studies where available. Standard ITE or City of San Diego trip factors were used where earlier studies were not readily available. Trip generation for other more remote existing approved and ' planned projects was based on the following: - residential trip rates (productions) from the Southern California Association of Governments (SCAG) forecasting model; and - retail and non -retail employment rates from NCHRP 187 Quick -Response Urban Travel Estimation Techniques and Transferrable Parameters. 1978. o Non -site traffic distribution was developed using the Gravity Model method. It should be noted that the roadway network used for the "without project" development scenario did not include any on-site roads except for the Apricot Avenue roadway segment between Ynez Road and Margarita Road. Projected Year 2000 Non -Site Traffic Volumes for study area roadways are depicted in Figure 5 (daily) and Figures 6 and 7 (AM and PM peak hours). E. Total Traffic Projections Total traffic projections for the study area roadways were developed by adding in the vehicle trip generation (primarily trip attractions) for the Regional Center traffic analysis zones and modifying the roadway network to include on-site roadways. The TranPlan modeling process was thus repeated and a new set of forecasts was developed. The resulting year 2000 traffic projections for the "with project" scenario are depicted in Figure 8 (daily) and Figures 9 and -—10-(AM and -PM peak hours): 19 IIID m = IIII= l illi li W1111111111 Ili ,•r r Ii IiIII�f w iI� IT f � i a 0 a DATE ST. 29.8 28.8 Y � w n a ¢ N F CHENNY 5{ s 5.1 �1 m iml as% Wl I ASXX� 7 sA �' 4.7 NTA T.- 6 80.0 39.4 22.5 to N It .2 21.8 17.9 DATE ST. 9.S 1.0 LEGEND 8.7 Traffic Volume (In Thousan Projected Daily Traffic Year 2000 W/O Project Regional Center EIR Traffic Study Figur i= M i# ttttt• M m: 9U= Ifil sw 11111111110 = sw so M 745 -0 "52U m a x-543 1 1 _ 1,356 "W* —1423m WINCHESTER RD. 409 354 ✓ .1 N o L .l 1. 573, 1 1 66J 1232-• 1376-+ 5131 n n 180 1888/ 10 183- 100✓ 22 - AT AVE. C '�i B lk AW �:":2„ M M .s M mom s m m m� m m I� � LEGEND 15 Traffic Volume Projected PM Peak Hour Traffic Year 2000 W/O Project Regional Center EIR Traffic Study Figun M M 4M no ,M.IM ►\\ \\1 WIl r� dw: i m M M on >M M M w M Projected Daily Traffic Year 2000 W/Project Regional Center EIR Traffic Study LEGEND 8.7 Traffic Volume (In Thoi Figui Projected AM Peak Hour Traffic Year 2000 With Project Regional Center EIR Traffic Study LEGEND: 12 Traffic Volume Figure 9 M11110111 immImmign Mon mom MM wmmm II lie 10/ LEGEND: 12 Traffic Volume ASCII SUERN Projected AM Peak Hour Traffic WOR1 VVA Year 2000 With Project UR %M ASSoa,s Winchester Meadows Traffic Study Figure 91 (! a■� MM M M r= M r M M M IIS M M M Projected PM Peak Hour Traffic Year 2000 With Project Regional Center EIR Traffic Study LEGEND: 40 Traffic Volume Figure 1 OVJLQF& rIillaulk L■■.. ABA I 4 S9oCl4,F5 a M M MW ii• = ii• M iitii MIM it Projected PM Peak Hour Traffic Year 2000 With Project Winchester Meadows Traffic Study LEGEND: 40 Traffic Volume Figure 1 1 V. Existing Plus Project Traffic Analysis Analysis of the "existing plus project" scenario has been performed specifically for the purpose of satisfying EIR requirements. The analysis of this scenario is often used as a means of identifying the incremental impacts of a project and usually provides a good approximation of project impacts when applied in an area which already has an established arterial street network. In the case of the Temecula Regional Center, the surrounding street network will be significantly improved (whether or not the Regional Center project is implemented) and current travel patterns will change dramatically. It is also highly likely that a portion of the existing trips being made on the adjacent streets would be intercepted ' by the Regional Center project. Existing traffic volumes do not reflect the future roadway configuration or the influences of the project. Project traffic assignments, on the other hand, reflect trips which would be attracted to the site from areas which are not yet developed and currently have no roads in place. These new facilities must be assumed to exist, however, in order to realistically distribute trips to and from the project. It also must be recognized that new retail development projects do not generate new shopping trips, but rather compete with other retail establishments for a share of the market demand which will exist as a result of residential development in the area. If the new Regional Center is not built, the shopping demand would have to be satisfied by other retail centers. Given the lack of "regional -type" centers in the area, local residents would be forced to travel much longer distances to satisfy their shopping needs. Considering all of these factors, it is very difficult to draw any logical conclusions regarding incremental project -related impacts from the existing plus project ' scenario analysis. A. Roadway Segment Service Levels Volume -capacity comparisons were made for all roadways which would provide primary access to the Temecula Regional Center. Roadway capacities used in this analysis are based ' on Riverside County "standard" capacities developed for General Plan Circulation Element roads (refer to Appendix A) and reflect the available traffic lanes assumed in the anticipated area roadway network (see Figure 3). I 0 Findings of the existing plus project roadway service level analyses indicate that all roadway segments in the area would operate at service level 'B" or better assuming the anticipated roadway network is implemented. It should be noted that this does not suggest that the anticipated roadway network improvements would need to be implemented "in their entirety" to accommodate existing plus project traffic volumes. Based on the magnitude of the traffic volumes, a far less extensive roadway network with fewer traffic lanes than those assumed in the analysis would adequately serve the combined total of existing plus project traffic flows. Several of the planned new roadway facilities (e.g., Margarita Road and Jackson Avenue north of Date Street) will be needed primarily to serve new already approved residential projects in the area. Furthermore, if these new residential projects are not built, then the Regional Center would, in essence, be losing a share of the anticipated market demand created by residents of those projects and therefore attract fewer trips. B. Existing Plus Project Intersection Service Levels Analyses were made of existing plus project traffic movements at intersections located along primary access routes to determine traffic service levels for the scenario. The Intersection Capacity Utilization (ICU) procedure was used to evaluate peak -hour traffic service levels at all major intersections. The results of the existing plus project ICU analyses are summarized in Table 4. Intersection approach lanes assumed in the ICU analysis reflect standard configurations which could be provided with the anticipated roadway classifications and standard cross sections. Based on the ICU analysis, all intersections would operate at Level of Service 'B" or better with existing plus project traffic flows and the future anticipated roadway network. As explained earlier, this does not imply that the incremental increase in traffic due to the project would require that all of the intersection improvements assumed in the analysis need to be implemented. In most cases, fewer intersection approach lanes could be provided and still result in acceptable service levels. C. Existing Plus Project Roadway Needs Given the nature of the Temecula Regional Center project and its relationship/interaction with future residential development in the area, it is difficult to access the true incremental 21 = Ml ® M Table 4 ICU Summary Existing Plus Project Temecula Regional Center Wilbur Smith Associates les: T - Thm Lane; R - Right -Tum Lane; L - Left -Tam Lanr, NB - Northbound; SB - Southbound; EB - Eastbound; WB - Westbound ICU - Intersection Capacity Utilization (%) LOS - Level of Service 17 -Apr -91 _ Location AM Peak Hour PM Peak Hour Intersection Approach Lanes NB SB EB Existing Existing W/Project Existing Existing W/Project ICU LOS ICU LOS ICU LOS ICU LOS T R L T R L T R L T A Campos Verdes Loop & General Kearny Rd. 0 A 7 A 0 A 4 A 0 0 0 0 I I 2 0 1 2 19 Margarita Rd. & General Kearny Rd. 0 A 13 A 0 A 18 A 2 I 1 2 l 1 2 0 2 2 10 Margarita Rd. & Apricot Ave. 0 A 13 A 0 A Is A 2 0 2 2 1 0 0 2 1 0 13 Ynez Rd. & Solana Way 26 A 33 A 30 A 30 A 3 1 0 3 0 2 0 0 0 0 N Margarita Rd. & Solana Wy. 16 A 21 A 24 A 37 A 2 0 2 2 1 l 1 1 2 2 K Ynez Rd. & Rancho California Rd. 55 A 61 B 67 B 76 C 3 0 2 2 1 2 2 1 2 2 h0 Ynez Rd. & Apricot Ave 0 A i5 A 0 A l8 A 3 t l 3 1 2 2 1 I 2 12 Ynez Rd. & Winchester Rd. 32 A 52 A 42 A 75 C 2 1 2 2 l 1- 3 1 2 3 N Regional Center Rd. & Apricot Overpass 0 A 21 A 0 A 16 A 0 0 0 0 1 2 2 0 1 2 :6 Regional Center (E) Rd. & Winchester Rd. 0 A 22 A 0 A 39 A I I 2 I 1 1 3 1 l 3 �8 Margarita Rd. & Winchester Rd. 0 A 16 A 0 A 20 A 2 1 1 2 0 2 3 1 1 2 9 Margarita Rd. & Reg. Ctr. DOCampos V. Rd. 0 A 9 A 0 A 7 A 2 l 0 2 0 1 0 0 0 0 Il Winchester Rd. & Nicolas Rd. 16 A 24 A 22 A 29 A 3 l 0 3 0 1 0 0 0 0 i2 Jefferson Ave.&Winchester Rd. 31 A 31 A 56 A 59 A 3 1 1 2 0 2 3 1 I 2 6 Jefferson Ave & Date St. 0 A 4 A 0 A 4 A 2 t I 2 0 2 2 l 1 2 i3 Diaz Rd. & Winchester Rd. 0 A 6 A 0 A 6 A 2 l 0 2 0 2 0 0 0 0 19 Ynez Rd. & County Center Dr. 0 A 8 A 0 A 9 A 2 I 1 2 t I t I 1 l 4 Ynez Rd. &"C" Street 0 A 8 A 0 A 8 A 2 I l 2 1 l 1 1. 1 I i2 Ynez Rd./Jackson Ave. & Date St. 0 A 8 A 0 A 8 A 2 0 2 2 1 1 2 l 2 2 12 Winchester Rd. & Murrieta Hot Springs Rd. 16 A 27 A 21 A 30 A 2 l 2 2 1 1 3 1 2 3 C Reg Center W. Dr. & Winchester Rd. 0 A 8 A 0 A 6 A 1 I 2 I 1 1 3 1 1 3 .9 Roripaugh Rd. & Winchester Rd. 0 A 10 A 50 A 59 A t I I I 1 1 3 1 1 3 J Jefferson Ave & Overland Apricot Ave 0 A 3 A 0 A 3 A 2 I I 2 0 2 2 0 2 1 i1 Margarita Rd. & Win. 1111 Il" Street 0 A 7 A 0 A 5 A 2 0 I 2 1 0 0 1 I 0 A "Ir Street & General Keamy Rd. 0 A l0 A 0 A 7 A I I. I I 1 1 2 0 1. 2 0 NB 1.15 Ramps & Winchester Rd. 29 A 56 A 42 A 57 A 0 1 1 0 0 0 3 0 0 3 it SB 1-15 Ramps & Winchester Rd. 60 A 61 B 50 A 53 A 0 0 0 0 1 2 3 1 0 3 N Regional Center Rd. & General Kearny Rd. 0 A 6 A 0 A 12 A 2 1 0 2 0 t 0 0 0 0. .2 North "C" SL & Campos Verdes Loop 0 A 6 A 0 A 6 A l 1 1 l 1 l 1 1 1 1 .6 "II" Street & Campos Verdes Loop 0 A 7 A 0 A 7 A I I 1 l I 1 1 1 l 1 .7 _Campes Verdes Loop & East "C" St. 0 A 3 A 0 A 3 A 1 0 l 1 1 0 0 1 t 0 Wilbur Smith Associates les: T - Thm Lane; R - Right -Tum Lane; L - Left -Tam Lanr, NB - Northbound; SB - Southbound; EB - Eastbound; WB - Westbound ICU - Intersection Capacity Utilization (%) LOS - Level of Service 17 -Apr -91 _ impact of the project based on the existing plus project analysis. Any number of roadway improvement scenarios could be formulated which would adequately service the combined total of existing plus project traffic flows. As demonstrated in this analysis, the minimum improvement needs would be far less, but yet consistent with, roadway improvements which are under construction, under design or planned. Furthermore, the developer is currently a major participant in two Assessment/Community Facilities Districts which will ultimately fund most of the planned roadway improvements in the area. The assessment of cumulative development impacts with and without the project (addressed in the following chapter) provides a more realistic evaluation of the project -related impacts on study area roadways. W VI. Year 2000 Traffic Analysis Traffic analyses were performed for the proposed project access driveways, on-site roadways, and at key locations along primary access routes (off-site) serving the project. This analysis addresses future (year 2000) traffic conditions both with and without the project. ' The methodology used in the traffic operations analysis follows the requirements set forth in the '"Traffic Impact Study Report Preparation Guide" developed by Riverside County Road Department. The analyses include volume/capacity comparisons for: (1) key roadway segments; and (2) intersections that would be used by site -related traffic. The analyses focus more on the evaluation of study area intersections since intersections are typically the limiting capacity factor when determining a roadway's traffic carrying ability. ' The analysis of peak -hour operating conditions at study area intersections was performed ' using the Intersection Capacity Utilization (ICU) methodology. Highway Capacity Manual traffic flow rate adjustment factors assumed in the ICU analysis are documented on the ICU worksheets provided in the separate Technical Appendix. ' The results of the ICU analyses are summarized in Table 5a (without project) and Table 5b (with project). Also included in Tables 5a and 5b are the intersection approach lane configuration required to achieve the service level indicated. The locations of intersections included in the ICU analysis are illustrated in Figure 11. Intersection identification numbers shown in Figure 11 are referenced in Tables 5a and 5b. ' A. Project Vehicle -Miles of Travel ' Total vehicle -miles of travel (VMT) generated by the Temecula Regional Center project was estimated by multiplying the total daily project vehicle trips by the average trip lengths estimated for trips made within the Southwest Community Plan Area and for project trips which would have an origin or destination located outside the Southwest Community area. Based on an estimated average trip length of 8.7 miles, the 64,850 total project trips would generate an estimated 564,195 vehicle -miles of travel daily. 1 23 r i r r w mom M Ir r r r r r Table 5a ICU Summary Year 2000 Without Project Temecula Reeional Center Update r M r Ids Location AM Peak ICU LOS PM Peak ICU LOS T NB R L Intersection Approach Lanes SB EB T R L T R L T WB R I 1138 Campos Verdes Loop & General Kearny Rd 32 A 29 A 0 0 0 0 I 1 2 0 1 2 0 f 1139 Margarita Rd. & General Kearny Rd. 61 B 61 B 2 1 0 2 0 1 0 0 0 0 1 1 1140 Margarita Rd. & Apricot Ave 62 B 58 A 2 0 2 2 1 0 0 2 1 0 0 f 1143 Ynez Rd. & Solana Way 72 C 64 B 2 2 0 3 0 1 0 0 0 0 l 7 1144 Margarita Rd. & Solana Wy. 72 C 72 C 2 0 2 2 l 1 l l 2 2 0 1 1186 Ynez Rd. & Rancho California Rd. 75 C 76 C 3 0 2 2 l 2 2 l 2 3 0 I 1190 Ynez Rd. & Apricol Ave. 80 C 80 C 3 1 2 3 1 2 2 1 1. 1 2 7 1.191 Ynez Rd. & West Mail Dr. 36 A 50 A 3 0 2 3 1 0 0 1 2 0 0 0 1192 Yaez Rd & Winchester Rd. 93 E 81. D 2 l 2 2 l 1 3 l 2 3 1. 2 1194 Regional Center Rd. & Apricot Overpass - - - - - - - - - - - - 1195 Regional Center Rd. & Fast Mall Dr. - - - - - - - - - - - - I1% Regional Center (E) Rd. & Winchester Rd. 62 B M A 0 0 0 0 I l 3. 0 l 3 1 0 1198 Margarita Rd. & Winchester Rd. 71 C 60 A 2 1 1 2 1 t 3 l 2 3 I 2 1199 Margarita Rd. & Regi Clr. Dr4Campos V. Rd. 35 A 42 A 2 1 0 2 0 l 0 0 0 0 1 1 1201 Winchester Rd. & Nicolas Rd. 68 B 50 A 3 1 l 3 I 1 l 1 l 1 1 1 1252 Jefferson Ave & Winchester Rd. l05 F 88 D 2 I l 2 0 2 3 1 1 2 1 2 1256 Jefferson Ave & Date SL 69 B 74 C 2 1 I 2 0 2 2 1 2 2 1 2 1263 Diaz Rd. & Winchester Rd. 67 B 51 A 2 1 I 2 0 2 2 1 1 1 2 l 1349 Ynez Rd. & County Center Dr. 38 A 49 A 2 1 l 2 1 1 1 1 1 1 1 l 1350 Ynez Rd. & "C" Street 59 A 52 A 2 I l 2 l 1 1 1 1 1 1 1 1352 Ynez Rd./Jackson Ave. & Date SL 75 C 57 A 2 0 2 2 1 1 2 1 2 2 t 1 1375 Margarita Rd. & Murrieta Hot Springs Rd. 52 A 40 A 0 1 2 0 0 0 2 1 0 2 0 l 1381 Roripaugh Rd. & Nicolas Rd. - - - - - - - - I442 Winchester Rd. & Murdeta Hol Springs Rd. 55 A 59 A 2 t 2 2 t 1 2 1 2 2 1 2 2002 Regi Center W. Dr. & Winchester Rd. 41 A 38 A 0 0 0 0 1 I 3 0 1 3 1 0 2018 Margarita Rd. & Marg(Wln Mead. 25 A 43 A 2 l 1 2 l I 1 0 l l I 1 2019 Roripaugh Rd. & Winchester Rd. 44 A 58 A I I l I 1 1 3 1 1 3 1 1 2023 Jefferson Ave. & Overland Apricot Are 69 B 67 B 2 I l 2 0 2 2 0 2 1 1. 1 2027 Margarita Rd. & Date SL 56 A 47 A 2 1 l 2 1 I 2 1 2 2 1 1 2051 Margarita Rd. & Win. IHIIs W Street 40 A 30 A 2 0 1 2 1 0 0 1 I 0 0 f 2060 "H" Street & General Kearny Rd. 26 A 30 A I. 1 l 1 1 1 2 0 1 2 0 1 2090 NB 1.15 Ramps & Winchester Rd. 88 D 53 A 0 2 1 0 0 0 3 0 0 3 1 1 2091 SB I-15 Ramps & Winchester Rd. 79 C 64 B 0 0 0 0 1 2 3 I 0 3 0 f 2209 Regional Center Rd. & General Kearny Rd - - - - - - - 2210 Regional Center Rd. & Soulh-Frst Mail Dr. - - - - - - - - - - 3000 Regional Center Rd. & South Access Rd. Wilbur Smith Associates T - Thru Lane•, R - Right -Turn Lune•, L. Left -Turn IBnr, NB - Northbound; SB - Southbound; EB - Eastbound; WB -Westbound. ICU - Intersection Capacity Utilization (%) LOS - Level of Service 17 -Apr -9l Table 5b ICU Summary Year 2000 With Project Temecula Regional Center Update 'de Location AM Peak ICU LOS PM Peak I ICU LOS T Intersection Approach Lanes NB SB R L T R L T EB R L T WB R 1 A38 Campos Verdes Loop & General Kearny Rd. 38 A 38 A 0 0 0 0 1 l 2 0 1 2 0 I [139 Margarita Rd. & General Kearny Rd. 52 A 60 AI 2 I l 2 l l 2 0 t 2 0 I U40 Margarita Rd. & Apricot Ave. 58 A 42 A! 2 0 2 2 l 0 0 2 1 0 0 I 1143 Ynez Rd. & Solana Way 78 C 78 C 2 2 0 3 0 1 0 0 0 0 1 [144 Margarita Rd. & Solana Wy. 68 B 71 C 2 0 2 2 1 1 1 1 2 2 0 1 1186 Ynez Rd. & Rancho California Rd. 81 D 82 6 3 0 2 2 t 2 2 1 2 3 0 Ll% Ynez Rd. &Apricot Ava 69 B 77 C 3 L 2 3 1 2 2 1 l 2 l A91 Yom Rd & West Mail Dr. 42 A 66 B 3 I 2 3 t 2 1 0 2 1 0 1192 Ynez Rd. & Winchester Rd 90 D 94 E 2 L 2 2 1 1 3 L 2 3 1 1194 Regional Center Rd & Apricot overpass 60 A 58 AI 0 0 0 " 0 1 2 2 0 1 2 1 [195 Regional Center Rd & Fast Mail Dr. 22 A 22 Al 2 1 0 2 0 1 0 0 0 0 1 1% Regional Center (E) Rd & Winchester Rd 71 C 75 C 1 L 1 L 0 1 3 t 1 3 I L198 Margarita Rd & Winchester Rd 71 C 71 C 2 1 1 2 1 1 3 t 2 3 1 a" Margarita Rd & Reg. Ctr. DrJCampos V. Rd 36 A 62 B 2 L t 2 I 1 l 1 L L 0 1201 Winchester Rd & Nicolas Rd 70 B 56 Al 3 L 1 3 1 1 I 1 L 1 1 1 L252 Jefferson Ave.&Winchester Rd 109 F 89 D 2 L t 2 0 2 3 1 1 2 1 1256 Jefferson Are & Date St. 77 C 76 C 2 l 1 2 0 2 2 1 2 2 I 1263 Diez Rd & Winchester Rd 76 C 52 Al 2 l t 2 0 2 2 1 1 1 2 ] 1349 Ynez Rd & County Center Dr. 42 A 56 Al 2 1 1 2 1 1 1 1 1 1 1 1 L350 Ynez Rd & "C"Street 61 B 51. A 2 1 1 2 t 1 l l 1 1 1 I 1352 Ynez Rd./Jackson Ave & Date St. 78 C 63 BI 2 0 2 2 t l 2 I 2 2 1 I 1375 Margarita Rd & Murrieta Hot Springs Rd 77 C 48 A! 0 1 2 0 0 0 2 1 0 2 0 ] [442 Winchester Rd & Marrleta Hot Springs Rd 62 B 62 B' 2 l 2 2 1 1 2 1 2 2 1 2002 Reg. Center W. Dr. & Winchester Rd 48 A 70 BI 1 l 1 1 0 1 3 1 1 3 1 ' 2018 Margarita Rd & MargJWln Mead 44 A 50 A' 2 I 1 2 1 1 1 0 l 1 1 I 2019 Roripeugh Rd & Winchester Rd 47 A 62 B� 1 l t l 1 1 3 1 I 3 1 I 1023 Jefferson Ave & Overland Apricot Am so C 80 G 2 l 1 2 0 2 2 0 2 1 1 2027 Margarita Rd & Date St. 80 C 54 Al 2 1 1 2 1 1 2 1 2 2 I 1051 Margarita Rd & WhL HIIW W Street 54 A 34 Al 2 0 1 2 1 0 0 1 1 0 0 I 2060 "H" Street & General Kearny Rd 35 A 40 A 1 1 t 1 L 1 2 0 1 2 0 2090 NB Ids Ramps & Winchester Rd 79 C 59 A 01 1 0 0 0 3 0 0 3 1 2091 SB 1.15 Ramps & Winchester Rd 77 C 69 B 0 0 0 0 1 2 3 1 0 3 0 I 2209 Regional Center Rd & General Kearny Rd 48 A 73 C 2 ( 1 2 1 I 1 1 1 1 1 2210 Regional Center Rd & South -East Mail Dr. 24 A 38 A 2 I I 2 1 I 1 1 1 t L 3000 I Regional Center Rd & South Access Dr. 26 A 32 Al 2 I I 2 1 I l 1 1 1 1 Wilbur Smith Associates T - Thru'Lane; R - Right -Tum Lune; L. Left -Turn Lanr, NB - Northbound; SB - Southbound; Ell - Eastbound; WB -Westbound. ICU - Iniersectlon Capacity Utilization (%) LOS - Level of Service 17 -Apr -91 R 1263 MR110k IIallilau lXIl♦N/ %WWWO, 1256 1262 2023 z 0 N 4 ' 1143 d i l 1188 RANCHO CA RD. 1350 1349 1194 1352 1144 1140 196 2051 1199 PJ ROJECT 1 SITE DATE 2027 1201 1442 11ER4 LEGEND 2oso KEARNy 2019 Intersection ID Numbi 1138 aD4p ICU Analysis Intersec ---- Project Boundary ICU Analysis Intersections Regional Center EIR Traffic Study Figure It should be noted that the proposed Regional Center would intercept a significant number of existing and future trips which would otherwise leave the area and travel longer distances to satisfy shopping needs offered by regional -type centers. Local employment opportunities offered by the Regional Center would also help reduce commuter work trips to employment ' centers outside the region. 1 B. Site Access On-site access would consist of minor driveways, major roadways, and internal circulation roadways (not shown on the site plan). The minor driveways would be limited to right -turn ' in -and -out of the site along the major arteries which generally border the Regional Center site. Since these restricted movement access points do not allow movements which would cross the traffic flows on the major arteries, their potential impact on traffic operation is greatly reduced. Peak -hour traffic volumes projected at the restricted access driveways indicate moderate to low usage (less than 200 vehicles total in and out) in most cases. Specific recommendations regarding major and minor access points are addressed later in the report and should be considered in the design of internal circulation roadways. ' Major Access Intersections Alone Winchester Road would be located at Regional Center Road and at North Mall Drive (Sub -Area 2). While the Regional Center Road intersection would not exist without the project, the second intersection identified as North Mall Drive was assumed to exist for access to T.T.23335 located north of Winchester Road. This intersection would operate at service level 'B" or better during the AM and PM peak hours for year 2000 development conditions without the project. With the Regional Center ' project, both access intersections would operate at service level "C" or better during peak periods. ' Major Access Intersections Along Ynez Road would be limited to one opposite the currently planned main access to Palm Plaza (P.P.11222). This intersection would operate at service ' level "A" without the Regional Center project and service level "C" or better with the project. ' Although Apricot Avenue could be considered an on-site roadway, its primary function would be to serve through traffic. Discussion of the Ynez Road/Apricot Avenue intersection is included in "Off -Site" intersection analysis. 24 Major Access Intersections Along Margarita Road would be located at the proposed westerly extension of General Kearny Road and midway between Winchester Road and General Kearny Road (opposite the proposed Campos Verdes Loop Road). Without the Regional Center project (and the extension of General Kearny Road), the intersection of Margarita Road and General Kearny Road would operate at service level "B" or better during peak periods. With the Regional Center and the extension of General Kearny Road into the project, the intersection would continue to operate at Level of Service B or better. The Campos Verdes Loop Road/Margarita Road intersection would operate at service level "A" without the project and at service level "B" with the project. Major Access Intersections Along Apricot Avenue would be limited to one at the southern terminus of Regional Center Road. This intersection would not exist without the Regional Center. With the Regional Center, the intersection would operate at service level "A" or better during peak periods. Major Intersections Along Regional Center Road, other than those already discussed, would be on-site and are not assumed to exist without the project. With the project, all four intersections would operate at service level "C" during peak periods. Projected traffic volumes are low enough at most of these intersections that it would be possible to eliminate one of these full movement intersections. Specific recommendations will be discussed later in this report. C. Off -Site Capacity and Level of Service Analysis Future year 2000 off-site traffic conditions were analyzed for three scenarios: o future traffic without the project on planned roadways: o future traffic with the project on planned roadways; and o future traffic with the project on planned roadways with additional improvements. The comparison of with and without project conditions on area roadways provides a measure of the relative impact of the proposed project. M r u I [1 C] 1 Year 2000 Levels of Service Without Project for roadway segments within the project study area reflect future traffic conditions with all planned area roadways except those which would be within the Regional Center project boundaries. Apricot Avenue, however, was assumed to be built between Ynez Road and Margarita Road even though a portion of this roadway segment is within the project boundary. As shown in Figure 12, all of the area roadway segments would operate at Level of Service C or better without the project except for the following four roadway segments: o Winchester Road between I-15 and Ynez Road - Level of Service E/F (V/C = 1.02); o Jefferson Avenue between Winchester Road and Santa Gertrudis Creek - Level of Service D (V/C = 0.88); o Date Street between Jefferson Avenue and Business Park Street - Level of Service D (V/C = 0.81); and o Washington Avenue between Date Street and Cherry Street - Level of Service D (V/C = 0.90). As summarized in Table 5a, ICU analyses of the principal intersections in the study area indicate that year 2000 peak -hour traffic without the project would result in service level "D" at three intersections and service level "E" or worse at two intersections. These intersections and corresponding "without project" service levels are identified in Figures 13 and 14 for the morning and evening peak hour respectively. The ICU analysis indicates that without the project, intersection operating conditions would generally be worse during the AM peak hour than during the PM peak hour. Without the project, two intersections would operate at "E" or worse during the AM peak hour. One of these intersections would be operating at service level "F." During the PM peak hour, only two intersection would operate at service level "D". Year 2000 Levels of Service With Project reflect all planned area roadways including new on-site project roadways. As illustrated in Figure 15, all roadway segments in the study area would operate at service level "C" or better except for the following: o Winchester Road from I-15 to Ynez Road - Level of Service E/F (V/C = 1.11); 26 1 1I II LEGEND 0.34 Volume Capacity Ratio A Level Of.Service Roadway Segment Service Levels Year 2000 W/O Project Regional Center EIR Traffic Study Figure F (C) (D) PROJECT ¢ o P •,0♦ , SITE LEGEND O �r� PPP PO EqA� NEARNY qq Without Project (E) Service Level O With Project SO�H4 WAY Project Road 1kv� RANCHO CA, RD. 'D) Year 2000 AM Peak Hour Service Levels ZYA With And Without Project i� u Regional center EIR Traffic Study Figur, D(D) SITE LEGEND j—Without Project D (E) Service Level With Project Project Road IkV� RANCHO CA, RD. I �� +C(D)Year 2000 PM Peak Hour Service Levels I� With And Without Project HA�oRa Regional Center EIR Traffic Study Figur EF 0.47 - 0.88Aff -io - o 11. n 10AD a 11 c 0.71 40 0 A B F Tp iTt C -8 0 C4 UI'I qi dy 9Y.2S O O Mn " N Q Ca � il�lr tip D9 OIII�I 0.73 0.64 APRICDT OiI raO 9v oN 9'O 0.74 o DTE STREET 0.75 0.81 0.46 C 01- 0.84 053CO . 0.53C DATE STREET 0.29 v 0.8 0'8 A A 0. A m O AC oJ 0y1 EF 0.47 - 0.88Aff -io - o 11. n 10AD 11 c 0.71 0.63 U 0.71 d A B F Tp iTt C -8 0 UI'I qi dy t7 w O O Mn " N Q Ca � il�lr tip p OIII�I 0.73 0.64 APRICDT OiI SITE r• LEGEND 0.34 Volume Capacity Ratio A Level Of. Service A_wHq Wq � p U O 0.17 MAP c 4 W U Roadway Segment Service Levels A Year 2000 W/Project Regional Center EIR Traffic Study Figure 1] L u o Ynez Road from Winchester Road to Santa Gertrudis Creek - Level of Service D (V/C = 0.82); o Jefferson Avenue from Winchester Road to Santa Gertrudis Creek - Level of Service "D" (V/C = 0.90); o Date Street from Jefferson Avenue to Business Park Street - Level of Service D (V/C = 0.81 to 0.84); and o Washington Avenue from Cherry Street to Date Street - Level of Service D (V/C = 0.90). The ICU analysis results summarized in Table 5b indicate that year 2000 peak -hour conditions with the project would result in service level "D" at three intersections and service level "E" or worse at two intersections. These intersections and corresponding "with project" service levels are depicted in Figures 13 and 14 for the morning and evening peak hour respectively. During the AM peak hour, two intersections would operate at Level of Service D and one at Level of Service F. Evening peak -hour conditions with the project would result in Level of Service D at two intersections and Level of Service E at one intersection. ' The ICU analysis indicates that conditions with the project would slightly be better at some critical locations and slightly worse at an almost number of other intersections. A closer look at AM peak -hour volumes reveals that the influence of the project on area travel ' patterns would result in more balanced directional traffic flows and more efficient use of available capacity. It should be noted that the TranPlan model trip generation for the AM ' peak -hour project trips were found to be slightly higher for the retail commercial uses within the project than would result from using standard ITE trip rates. Therefore, the AM peak - hour ICU results for the "with project" condition are somewhat overstating the project ' impacts. �I J 27 Year 2000 Levels of Service With Additional Improvements were evaluated for all intersections found to operate at service level "E" or worse with the project. For comparison , purposes, these intersections were also analyzed for the "without project" scenario. Level of Service D is considered acceptable for Category 1 (Heavy Urban) projects if limited to peak , periods. Service Levels and ICU values for critical intersections with additional improvements are summarized in Tables 6a and 6b. The analyses indicate that with ' additional intersection improvements, peak -hour service levels with the project could be improved to "D" or better at all intersections. As shown in Table 6 both intersections would operate at the same Level of Service with or without the project. Since the Temecula ' Regional Center project would clearly add traffic to the area street system, this finding suggests that the traffic demand distribution at two the intersections (with the influence of ' the Regional Center) results in slightly better utilization of the total intersection capacity. �J h I JI L 1 f� Q Table 6 ICU Summary With Additional Improvements Temecula Regional Center . Year 2000 Without Proiect M i i ade Location AM Peak PM Peak Intersection Approach Lanes ICU LOS ICU LOS NB SB EB WB T R L T R L T R L T R 192 Ynez Rd. & Winchester Rd. 87 D 79 D 2 1 2 2 1 1 3 1 2 4 0 252 lJefferson Ave. & Winchester Rd. 83 D 88 D 2 1 1 2 0 2 3 1 1 3 0 Year 2000 With Proiect ode Location AM Peak PM Peak Intersection Approach Lanes ICU LOS ICU LOS NB SB EB WB T R L T R L T R L T R 192 Ynez Rd. & Winchester Rd. 85 D 89 D 2 1 2 2 1 1 3 1 2 4 0 252 Jefferson Ave. & Winchester Rd. f 85 D 89 D 2 1 1 2 0 2 3 1 1 3 0 Wilbur Smith Associates les: T-Thm lanr, R -Right -Turn Lane, L. Left -Turn lane; NR - Northbound; SR- Southbound; ER - Eastbound; WR- Westbound. ICU - Intersection Capacity Utilization (%) LOS - Level of Service 23 -Apr -91 I I 1 1 1 1 VII. Findings A. Site Accessibility The planned circulation system offers a number of major access routes to and from the Regional Center project site ranging from regional Freeway facilities to local secondary streets. Based on the analysis of proposed project access driveways and major access streets located around the perimeter of the site, direct access to the site was found to be more than adequate. There does, however, appear to be an opportunity to reduce the number of intersections along Regional Center Road and still maintain a favorable balance of accessibility and good operating conditions. Access recommendations at the perimeter of the site and along the currently planned internal project roadways are depicted in Figure 16. It should be recognized that access recommendations identified in this study are based on preliminary planning level land use proposals which would ultimately be refined and specified in more detail at the plot plan preparation stage. Once detailed site plans and internal circulation plans are developed, it may be necessary and/or desirable to make minor modifications to access driveway locations, and specific operational characteristics (e.g., restricted movements) at potential access driveways. These design issues would have to be reevaluated based on the more detailed plot plan and prevailing traffic conditions. B. Traffic Impacts A project of the magnitude of the proposed Regional Center would unquestionably have an impact on area traffic conditions. The commercial -oriented Regional Center would serve as a major trip attractor in the Southwest Area Community. The Regional Center would be the destination of many residential trips (both shopping and work trips) which would otherwise travel to other retail establishments or employment centers within and/or outside this region. Given the location of many of the already approved major residential projects (e.g., along Winchester Road northwest of the project site), a significant portion of the trips which would be destined to the Regional Center would pass directly by the site even if the project were not to be developed. The relatively small difference in projected daily traffic volumes on the area roadways with and without the project are partially due to this factor. The similarities in traffic projections on area roadways with and without the Regional Center ' can also be attributed to the likelihood that Regional Center traffic would displace some of the through traffic (longer trips) which would be using the area roadways because they are ' somewhat more convenient than other alternative routes. These longer trips would be more willing to use alternative routes as greater proportions of the area roadway capacities are , used by local traffic which has no other choice. In summary, it is clear from this study and from other studies done for the study area that many of the area streets such as Winchester Road in the vicinity of I-15 and Ynez Road will experience high levels of traffic demand , regardless of what develops on the project site. It should be noted that the "without project" scenario assumes no development occurs on the project site. Development of the site , according to existing zoning would result in traffic conditions which are worse than those assessed in this study for the "without project" scenario. As reflected in Table 5b and Figures 13 and 14, year 2000 traffic conditions with the Regional Center project would result in peak -hour service levels of "E" or worse at two study ' area intersections. During the AM peak, only the critical intersection of Winchester Road/Jefferson Avenue would be worse with the project (ICU = 1.09) than without the ' project (ICU = 1.05). Conversely, the critical intersection of Winchester Road/Ynez Road would operate better with the project (ICU = 0.90) than without the project (ICU = 0.93): Future operating conditions during the PM peak -hour were found to be worse with the , project ( ICU = 94) than without (ICU = 0.81) at the critical intersection of Winchester , Road/Ynez Road. In the above summary, critical intersections are defined as those which would operate at ' Level of Service E or worse (ICU greater than 0.90) either with or without the project. 1 C. Roadway Improvement Needs ' Year 2000 traffic conditions with the project reflect significant increases in area traffic volumes due to other approved and planned development projects in the study area. As is ' evident from the analysis of the "without project" scenario, the cumulative non -site traffic flows would have a maior impact on future off-site roadway (e.g., Winchester Road and ' Ynez Road) and intersection needs for the area. Some of these improvements are either currently under construction or under design as part of the Winchester Assessment District 161. Other needed improvements would be included in the recently approved Ynez ' Corridor Community Facilities District -88-12. - 30 ' Improvements identified in this study (either as part of the "base" improvements or "added" improvements) may not be totally consistent with improvements currently being designed or ' proposed as part of area Assessment/Community Facilities Districts. For the purpose of this study, recommendations include the ultimate improvements which would be needed to ' accommodate future traffic with the project. Other than those improvements related to direct project site access and on-site circulation roadways, virtually all of the recommended improvements would be needed to accommodate traffic conditions without the proiect. ' Recommendations for the basic roadway network configuration, roadway classifications, and number of travel lanes are illustrated in Figure 17. Specific recommendations regarding the recommended approach lane configuration for intersections in the study are presented in ' Figure 16. These improvements would result in peak -hour service levels of "D" or better at all study area intersections. ' D. Compliance With Riverside County General Plan Circulation Policies ' The project would comply with minimum service level "D" policy for peak -hour traffic operation at area intersections. This assumes that recommended improvements are implemented. Several of the recommendations would require increases in the number of ' standard travel lanes typically provided for the street classification and also increases in right-of-way requirements. ' Current Riverside County access control policies for the spacing of intersecting streets are ' as follows: o Expressway - 2,640 feet; o Arterial - 1,320 feet; ' o Major - 660 feet; and o Secondary - 330 feet. ' Since Winchester Road has been designated by Riverside County as a full access restricted Urban Arterial, it implies that the intersection spacing policy would be similar to an ' expressway or possibly between that of an expressway and arterial. These spacing policies are designed to minimize the potential disruptive effects of side street traffic on the major ' street traffic flows and ultimately to maximize the major street capacity. It is our understanding that the City of Temecula has requested that this section Winchester Road be classified as an Urban Arterial without limited access control and that driveway and street intersections locations along Winchester be granted with the concurrence of the City of Temecula. ' 31 TRANS 2 TO \If/ A.\ s A400413 -1')1. (• 3 REGIONAL CTR. RD. 7 Iry + U ry ry/ / 2 2' RIGHT IN AND OUT ONLY 1 1% )l 17Vi lGrepNt•Feprexnitllm) � p •- N .- iD it it NI }N •4 N,- —4 WINCHESTER RD. J C2 4 .� TRANS o i3 T04 ! .-3 `2 '3 0, .% ! �. 13 `2 i7. 4 3y 1 t r 3 i �• 3 }, •� r (• 3 �' 1, • 3 �' ') r •3 J! �. r-2 3 / 1T, ✓ 11 ^ 1� �. _ ^ 3 %• 3 •1 t �• 3• it 3-- 3—. ^N.. •-3 4 iD N! TN 11 tN 3—/*) r• NN ~; it N! i N ^ 2 ) t f ! 1 D� �• REGIONAL CTR. RD. 7 Iry + U ry 2 2' 1 1% )l r Recommended Future Off -Site Traffic Lanes And Regional Center Access Configuration Regional Center EIR Traffic Study 11"', Rp LEGEND ,2>- Number of Traffic Lam Trans Transition Figu OVARM I.an'1 MWERN WINP.146W IAFA $' O ATA Mod.` ILYCHEARY 6C• f.l J 1• s M DAZE 04 A 4L 4L 6 + J y- 4L U N Q J a' v C vryV P 2L s IC 2L v SITE 4L r LEGEND 2L Number Of Traffic Lanes F Freeway, R/W 200 Ft. UA Urban Arterial, R/W 174 F A Arterial, R/W 110 Ft, M Major, R/W 100 Ft. S Secondary, R/W 88 Ft. IC Industrial Collector, R/W 7 C Collector, R/W 66 Ft. .SP Special Project Road, R/W 110 Ft. MOD. Modified Urban Arterial, R < Dentes Change In Planne Transportation System Signal Recommended Future Circulation System Regional Center EIR Traffic Study Figu The access plan for the Regional Center takes into account the following goals: o The desire to maintain the spacing requirements of major full movement intersections; to The need for adequate access to all development areas which comprise the Regional Center project; and o Due to the nature of the Regional center, which is very retail -oriented, the successful marketing of the project to major tenants will weigh heavily on the ' "perceived' accessibility of the site. It is clear that all of these goals cannot be met. The recommended access plan reflects the desire to maximize full movement intersection spacing and at the same time maintain a high level of accessibility. With the recommended access plan, the following minimum spacing would be maintained tfor full movement intersections: o Winchester Road - approximately 1,200 feet; o Ynez Road - approximately 780 feet; o Margarita Road - approximately 1,100 feet; and o Apricot Avenue - approximately 800 feet. The intersection spacing provided along Winchester Road would be close to that required for an Arterial but substandard for that of a full access controlled Urban Arterial. It should be noted that due to the heavy left -tum movements at the Ynez Road and Margarita Road intersections, the introduction of one or more intersections between these two major arteries would actually improve peak -hour operating conditions with or without the project. IProject access intersections along Ynez Road and Margarita Road would also be slightly substandard but are controlled by alignments of other non -project streets (e.g., Palm Plaza main entrance, Campos Verdes Loop Road and General Kearny Road). Assuming that Apricot Avenue is designated as a "Major," the recommended access plan would meet the intersection spacing policy for this road. I 32 I VIII. Recommendations The year 2000 improvement needs identified in this study address problems which would be caused by already approved and other planned development projects in the area. This is demonstrated in the analysis of "without project" conditions. The introduction of the Regional Center would measurably change travel patterns in the area and add traffic to the adjacent street network. However, a comparison of improvement needs with and without ' the project indicates marginal differences, which are primarily related to access considerations at the perimeter of the project and on-site circulation. The developer should be responsible for direct project access improvements along the site boundaries and on-site improvements as well as a "fair -share" amount towards the implementation of needed off-site improvements. Bedford Properties is a principal participant in the Ynez Corridor Community Facilities District 88-12 which provides funding for the Apricot overcrossing, Winchester interchange loop ramp, Rancho California ' interchange loop ramp, and Ynez Road widening to six lanes. The developer is also a participant in Winchester Assessment District 161 which provides funding for the improvement of Winchester Road (six -lane Urban Arterial) and Margarita Road (four -lane Arterial). Additional "fair -share" participation would only be warranted in the implementation of those off-site improvements not addressed in the current improvement districts. A. Site Access/Circulation Plan ' The recommended site access plan is depicted in Figure 16. tB. Off -Site Roadway Improvements Recommendations for the future area circulation system are identified in Figure 17. 1 1 33 C. Transportation System Management Actions The primary transportation system management opportunities in the study area appear to be: o The continued enforcement of the South Coast Air Quality Management District's Trip Reduction Plan (for other major employees in the area); and o Encourage the implementation of transit service in the Temecula area where: - express transit into and out of the area during the morning and evening commuter peaks; - fixed route local bus service between higher density residential areas and major activity centers; and - demand responsive transit services such as dial -a -ride for the lower density and more remote areas. o Promotion of future public transit through the adoption of appropriate local planning ordinances which would require special transit -oriented design features to be incorporated into future development projects. o The adoption of local ordinances which would require larger employers in the area to implement car pool or van pool programs. Large employers could also be encouraged to implement staggered work hours or flex time programs for their employees. o In conjunction with future park-and-ride facilities to be provided by the Regional Center, provisions should also be made for the development of a future transit transfer station. The development of such a facility would promote future use of public transit, reduce vehicular travel and reduce parking demand at the regional mall. 34 IX. Conclusions The traffic study findings indicate that the Temecula Regional Center would have an impact on travel patterns in the area. While development of the project would likely result in more total traffic in the vicinity of the site, the resulting redistribution of traffic would result in only moderately worse impacts during the peak periods. During the AM peak hour, the influences of the project on travel patterns were actually found to result in better operating conditions at several of the area intersections than without the project. Off-site improvements recommended in the study would be needed to accommodate future I non -site traffic conditions (no -build scenario) as well as conditions with the Regional Center project. With the recommended improvements, all study area intersections (with or without the project) would operate at service level 'D" or better during peak periods. It should be noted that the traffic analysis does not assume vehicular travel reductions which could be realized by the provision of local transit service or Trip Reduction Programs being implemented by the South Coast Air Quality Management District. Though difficult to measure, the effects of these factors alone could result in service level 'D" being achieved at the critical intersections without additional improvements. In the comparison of with and without project conditions, it must be recognized that the "without project" scenario assumes that no development occurs on the project site. Development of the site according to existing zoning (primarily residential) would result in traffic conditions which are somewhat worse than those stated in this study for the 'without project" scenario. ' Bedford Properties is a principal participant in Assessment District 161 and Community Facilities District 88-12 which will provide funding for most of the roadway improvements needed to accommodate Year 2000 traffic volumes with the project. Recommended on-site improvements would be the responsibility of the developer to implement. Additional "fair - share" participation would only be warranted in the implementation of those off-site ' improvements not addressed in the current improvement districts. ' 35 X. Phasing Plan Findings of the year 2000 traffic analysis indicate that substantial roadway improvements will be needed in the study area whether or not the Temecula Regional Center project is implemented. Although these new and improved roadway facilities would be serving the immediate access needs of numerous planned development projects within the study area, most of the improvements would also play an important role in serving the circulation needs of the Temecula commercial core area. Some of the improvements (e.g., Winchester Road - S.R. 79 widening and I-15/Winchester Road interchange reconstruction) would even serve future regional circulation needs. The intent of the "conceptual circulation system phasing plan" developed in this study is to present a logical implementation scenario for the construction of needed area -wide improvements which also considers the proposed phasing plan for the Temecula Regional Center. It should be noted that year 2000 roadway needs have essentially been based on full development (build -out) of all land uses within the study area. The timing of major development projects in the area will have very strong influence on the timing of future roadway improvement needs. As these area development projects are implemented, they will require access. Many of the phased roadway improvements suggested in this plan are intended to provide for those local access needs and at the same time work towards completing the ultimate area -wide circulation network. In many cases, the phased improvement is over -designed for the anticipated local development access needs but considers ultimate needs and the desire to minimize future construction impacts related to phased widenings (e.g., initially building two lanes and the widening to four lanes at a later date). The assessment of financing/implementation responsibilities for area -wide roadway improvements should consider that the key elements of the planned circulation ' system (including the Apricot overpass, Date Street overpass, and Winchester Interchange improvements) will be needed even if proposed area development projects are not implemented. 1 Since it is more difficult to predict the rate of long-term (5 to 10 years) development than short-term (1 to 5 years) development, it should be recognized that the actual roadway needs for implementation periods beyond 5 years could vary significantly from the conceptual plan presented in this study. It is also important to consider that many of the roadway ' improvements identified would involve a multi-jurisdiction/agency review and coordination process which could impact the conceptual implementation plan presented herein. 36 A. Proposed Temecula Regional Center Development Phasing Based on current market trends, Bedford Properties anticipated that development of the Temecula Regional Center property would follow the general phasing plan illustrated in Figure 18. B. Conceptual Circulation System Phasing Plan As illustrated in Figures 19 through 24, roadway. improvement needs have been defined for seven implementation periods starting in 1991 and ending in the fourth quarter of year 2000. A detailed listing of anticipated roadway improvement needs and corresponding development status of the Temecula Regional Center project is presented on the following pages for each implementation period. 37 r 1 I 1 1 k 1 1 M M M ism lam. M m m wm w M M M M M M !, M nn 111111MA INAPT avi LEGEND: (3) Sub - Area Identification Phase Implementation Period I 1992 To 1998 II 1998 To 2000 Temecula Regional Center Phasing Plan Regional Center EIR Traffic Study Figure t1992-1994 Implementation Period IAnticipated Project Development Status: Io Project Phase I - (15% build -out of Sub -Area 2) ' o Incremental project trip generation - 6,600 daily vehicle trips - 470 P.M. peak -hour trips o Cumulative portion of total project trips - 10% Roadway Improvement Needs Anticipated by 1994 (fourth quarter): o Roadway Segment Improvements - Winchester Road from I-15 to Murrieta Hot Springs Road (6 lanes) (Winchester Assessment District 161); - Ynez Road from Winchester road to Ynez road (6 lanes) (Community Facilities District 88 - 12); Margarita Road from Winchester Road to Santa Gertrudis Creek (4 lanes); - Margarita Road from Solana Way to Rancho California Road (4 lanes); - Jefferson Avenue from Cherry Street to approximately Elm Street (4 lanes); t- Date Street from Adams Avenue to Jefferson Avenue (4 lanes); - Adams Avenue from Cherry Street to appro3dmately Elm Street (2 lanes); and Cherry Street from Adams Avenue to Jefferson Avenue (2 lanes). Winchester Road from Jefferson Avenue to I-15 (6 lanes); Rancho California Road/I-15 Interchange Ramps (off -ramp widenings); 38 R41gb � o 4tap� "tMo * lk V1r �* Phase l 15% Build -Out Sub -Area 2 1992-1994 Roadway Needs (10% Of Total Project Trip Generation) Regional Center EIR Traffic Study RAN LEGEND: Existing Road --- Planned Or Proposed Road 2L Number Of Lanes Q Signal ❑ 3 -Way Stop ❑ 4 -Way Stop YC Denotes Improvement Needed By The End Of Implementation Period Noted Ramp Widening & Slgnalization EEDenotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The Implimentation Period Noted Figure 1 - Diaz Road from Rancho California Road to approximately Elm Street (4 lanes); - Nicolas Road from Winchester Road to approximately Calle Medusa (4 lanes); - Date Street from Diaz Road to Adams Avenue (4 lanes); and ' - Murrieta Hot Springs Road from approximately Date Street alignment to Leon Road (4 lanes). ' o New Signal Locations - Winchester Road/Ynez Road; - Winchester Road/Enterprise Circle (east); - Ynez Road/Palm Plaza Access; - Ynez Road/ACS Access; - Ynez Road/Solana Way; r- Jefferson Avenue/Date Street; and - Jefferson Avenue/North Jefferson Business Park Access (Adams Avenue). - Rancho California Road/I-15 Access Ramps; I- Winchester Road/Nicolas Road; - Winchester Road/Murrieta Hot Springs Road; - Winchester Road/Diaz Road; and - Solana Way/Margarita Road. 39 1994-1995 Implementation Period Anticipated Project Development Status: o Project Phase I - (40% build -out of Sub -Area 2) o Incremental project trip generation - 11,000 daily vehicle trips - 800 P.M. peak -hour trips o Cumulative portion of total project trips - 27% Roadway Improvement Needs Anticipated by 1995 (fourth quarter) o Roadway Segment Improvements - Apricot Avenue from Jefferson Avenue to Margarita Road (4 lanes); - Margarita Road from Solana Way to Winchester Road (4 lanes); - Murrieta Hot Springs Road from approximately Date Street alignment to I- 215 (4 lanes); and - General Kearny Road from Margarita Road to approximately LaColina Road (4 lanes). o New Signal Locations - Winchester Road/Project Sub -Area 3 Access; - Winchester Road/Margarita Road; - Apricot Avenue/Jefferson Avenue; - Apricot Avenue/Ynez Road; - Apricot Avenue/Margarita Road; - Margarita Road/General Kearny Road; - Date Street/Diaz Road; and - - Date Street/Adams Avenue. 6 �G9 � 9 9 f / � Nq 1 g A r Phase) 40% Build -Out Sub -Area 2 �+o J 1994-1995 Roadway Needs (27 % Ut Total Project Trip Generation) Regional Center EIR Traffic Study T_ LEGEND: —� Existing Road Planned Or Proposed Road 2L Number Of Lanes O Signal 3 -Way Stop ❑ 4 -Way Stop Denotes Improvement Needed By The End Of Implementation Period Noted Denotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The Implimentation Period Noted Figure I I I _, I I I I 1995-1996 Implementation Period Anticipated Project Development Status: o Project Phase I - (60% build -out of Sub -Area 2) o Incremental project trip generation - 8,800 daily vehicle trips - 620 P.M. peak -hour trips o Cumulative portion of total project trips - 40% Roadway Improvement Needs Anticipated by 1996 (fourth quarter): o Roadway Segment Improvements - Winchester Road/I-15 Interchange Ramps (off -ramp widenings and new loop on-ramp); - Regional Center Road from Winchester Road to Apricot Avenue (4 lanes); - Margarita Road from Santa Gertrudis Creek to Murrieta Hot Springs Road (4 lanes); - Ynez Road from appro)dmately Equity Drive to Date Street (4 lanes); and - Date Street from Ynez Road to Margarita Road (4 lanes). o New Signal Locations - Winchester Road/I-15 Access Ramps (signal modifications and/or replacement); - Apricot Avenue/Regional Center Road; and - Margarita Road/Campos Verdes Loop Road. 41 M M M M M M M W= M M M r M am= M 4L �J 61. . 6L Phase l 60% Build -Out Sub -Area 2 44 21 %AD a AV 1995-1996 Roadway Needs (40% Of Total Project Trip Generation) Regional Center EIR Traffic Study LEGEND: Existing Road — — — Planned Or Proposed Road 2L Number Of Lanes Q Signal ] 3 -Way Stop ❑ 4 -Way Stop A Ramp Widening 8 Signalization * Denotes Improvement Needed By The End Of Implementation Period Noted Denotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The Implimentation Period Noted Figure 1996-1998 Implementation Period ' Anticipated Project Development Status: ' o Project Phase I - (100% build -out of Sub -Area 2) o Incremental project trip generation - 17,600 daily vehicle trips t- 1,250 P.M. peak -hour trips o Cumulative portion of total project trips - 68% ' Roadway Improvement Needs Anticipated by 1998 (fourth quarter): o Roadway Segment Improvements - Winchester Road/I-15 Interchange Bridge Structure (widen to 6 lanes); - General Kearny Road from Regional Center Road to Margarita Road (4 ' lanes); - Date Street from Margarita Road to Murrieta Hot Springs Road (4 lanes); and ' - Winchester Road from Murrieta Hot Springs Road to Benton Road (6 lanes). ' o New Signal Locations ' - General Kearny Road/Regional Center Road; - Ynez Road/County Center Drive; - Ynez Road/Equity Drive; - Margarita Road/Winchester Hills Access; and - Date Street/Murrieta Hot Springs Road. ' 42 M M M M M i M Will r M M M M M M= M A 4L 2L V 4L Phase) 100% Build—Out Sub—Area 2 11111111 .,�- FAFN 1996-1998 Roadway Needs (68% Of Total Project Trip Generation) o Regional Center EIR Traffic Study 0ru 9` LEGEND: •� Existing Road Planned Or Proposed Road 2L Number Of Lanes Q Signal A Widen Winchester Rd. Overpass. * Denotes Improvement Needed By The End Of Implementation Period Noted Denotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The Implimentation Period Noted Figure S 1 1 A 1 1 1 1 1 i 1 1 1 1 1998-1999 Implementation Period Anticipated Project Development Status: o Project Phase II - (50% build -out of Sub -Area 1 and 100% build -out of Sub -Area 3) o Incremental project trip generation - 11,170 daily vehicle trips - 850 P.M. peak -hour trips o Cumulative portion of total project trips - 85% Roadway Improvement Needs Anticipated by 1999 (fourth quarter): o Roadway Segment Improvements - Date Street from Jefferson Avenue to Ynez Road (6 lanes); and - Jackson Avenue from Date Street to Murrieta Hot Springs Road (6 lanes). o New Signal Locations - Date Street/Ynez Road; - Date Street/Margarita Road; - Date Street/Winchester Hills Development Access Roads (2 locations); - Jackson Avenue/Winchester Hills Development Access Road; and - Winchester Road/Winchester Meadows Development Access Road. 43 M M W M W M M M M M r M M r M M r 4L J a Phase 11 50% Build—Out Sub—Area 1 $% 'oC4ryq Phase 11 100% Build Out Of Sub—Area 3 -•�R'ogryN L 2L oto a W �� - 1998-1999 Roadway Needs A (85% Of Total Project Trip Generation) soow,a Regional Center EIR Traffic Study 41. LEGEND: Existing Road — — Planned Or Proposed Road 2L Number Of Lanes Q Signal * Denotes Improvement Needed By The End Of Implementation Period Noted EMDenotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The Implimentation Period Noted Figure 2 1 I 1 I L I 1 11 1990-2000 Implementation Period Anticipated Project Development Status: o Project Phase II - (100% build -out of Sub -Area 1) o Incremental project trip generation - 9,680 daily vehicle trips - 730 P.M. peak -hour trips I o Cumulative portion of total project trips - 100% Roadway Improvement Needs Anticipated by 2000 (fourth quarter): o Roadway Segment Improvements - Winchester Plaza Road from I-15 to Project Sub -Area 3 Access (widen to 8 lanes); - Eastbound Winchester Road from Project Sub -Area 3 Access to ,east of Margarita Road (widen to 4 eastbound lanes); - Eastbound Apricot Avenue from east of I-15 overpass to Regional Center Road (widen to 3 eastbound lanes); - Northbound Margarita Road from Campos Verdes Loop Road to north of Winchester Road (widen to 3 northbound lanes); - Eastbound Winchester Road from Enterprise Circle Drive to Jefferson Avenue (widen to 3 eastbound lanes); and - Northbound Jefferson Avenue at approach to Winchester Road (widen to 3 northbound lanes). o Signal Improvements - Modify/upgrade affected signals (as necessary). 44 M M= M A M M w M M M M M M w M M AL A r RWo AF 1999-2000 Roadway Needs ^" (100% Of Total Project Trip Generation) Regional Center EIR Traffic Study 41. V Sub -Area 1 41. WN LEGEND: Existing Road Planned Or Proposed Road 2L Number Of Lanes Q Signal Denotes Improvement Needed By The End Of Implementation Period Noted Denotes Portion Of Project Site Built -Out Denotes Portion Of Project Site Being Developed During The implimentation Period Noted Figure 24 Appendix 45 M= M M MMM = M M M M M .M MM M f.V J- �I r == Uo BEDFORD PROPERTIES, INC. 28765 Single Oak Drive, Suite 200, Temecula, CA 92390 Retail/ Office/ Hotel 71. Retail Commercial 97, Core/ Support Retail I✓ Retail/ Office t � �I r == Uo BEDFORD PROPERTIES, INC. 28765 Single Oak Drive, Suite 200, Temecula, CA 92390 SPECIFIC LAND USE PLAN PROJECT TOTAL 20 TEMECUI REGIONAL CENZ FI( Legen d Retail/ Office/ Hotel 71. Retail Commercial 97, Core/ Support Retail Retail/ Office 5. Subtotal 175. Roads 26. PROJECT TOTAL 20 TEMECUI REGIONAL CENZ FI( m mm =. M M=== m m= r m m r +�� tial q.\2f m 199 iii 0p3 .'51 2042% G / VKF'�1 / 2071 ♦ $ X02' \\ 1361 00 53 >Z2054 205. / .3\ 13a5 TO 0 eta 1353 / \ 2025 1201 Q 19D ]j- 2050 / Q 212 \ / 20. '2041 \ / En 1..5 2050 3 2072 / m 2039 HZ2070 136! 1 2038 1358 2073 / m ♦ _� 213 135 2.11l3521D 2010 20.. 01 ♦ 1\ 20 p 196 Z . I \ ` ` 20 / 2051 / tole 1 \ 1359 20.5 / 1200 11 fief 20.7 1 ues m ` / 1 zo6a 401 0.1s7 N 1 360 p 104 0052 1 9 398 0 ]9e 3120 2010 `� 21• 21, 935. 135 - *0 65 2026'22-1 -� 3mae 2021 D 8192 2019 p 157 N 2037 / • 2035 1a (n ♦♦p / 1s195 / Q 3RF 368 221.♦ 01 306 as p 19. 2076 / 11v7 f ♦ ♦ 1f .08 13.5 20 1 2615 1137 1196 1 - 205 2 \ 0 160 1 ` 161 \ 1 1\ 199\ 392221\1 ♦`0 fat 2063 1 Atf5B 1 \ / 1 1 0 397 2052 20591 / 2002 1 1 1139 D95 p f S 60 21.5 39 .. 1192 1 OD 2.o P03 15D p 393 208 2090 G.1 1181 1 2210 1.0 09 730 1 -2211 87 4139 1252 1 1 1 \ 2 926 4017 \ f fvo 25. J 190 391 'f 1.5 yf.1 2023 11.2 0 -f li 222 2156 17.7 291 ♦bpm d1f. fu. 1251 223 Regional Center update Southwest Area Plan - Approved and Planned Projects Project Land Use Daily Sub Quantity Daily Vehicle Trip Rate Veh 82 Towne Center Retail 565 ksf 38 21,470 195 Winchester Highlands (PM21361) Ind Park 30 acres 70.0 2,100 195 Winchester Highlands (PM21361) Bus Park 30 acres 200.0 6,000 398 Winchester Hills Res/MF . 235 dus 6.6 1,551 404 Winchester Hills Office 248 ksf 11.1 based ontwo story on11.4acres 2,753 403 Winchester Hills Res/SF 175 dus 10.0 1,750 401 Winchester Hills Res/MF 297 dus 6.6 1,960 400 Winchester Hills Retail 170 ksf 62.0 10,540 402 Winchester Hills Res/SF 179 dus 10.0 1,790 399 Winchester Hills Res/SF 155 dus 10.0 1,550 215 Winchester Hills Bus Park 49.6 acres 130.0 6,448 216 Winchester Hills Res/MF 318 dus 5.5 1,749 214 Winchester Hills Bus Park 70.5 acres 131.0 9,236 212 Winchester Hills School&P 29.8 acres 40.0 1,192 213 Winchester Hills Res/SF 258 dus 10.0 2,580 395 Winchester Hills Park 7.2 acres 40.0 288 390 Winchester Hills Res/SF 152 dus 10.0 1,520 217 Winchester Hills Res/SF 179 dus 10.0 1,790 196 Winchester Meadows Retail 47.57 ksf 66.6 3,166 196 Winchester Meadows Office 63.42 ksf 11.8 748 196 Winchester Meadows Lt. Indus 1.82 acres 186.7 340 196 Winchester Meadows Ind. Park 23.57 acres 73.3 1,729 396 Winchester Meadows Retail 89.44 ksf 66.6 5,953 396 Winchester Meadows Office 119.24 ksf 11.8 1,407 396 Winchester Meadows Lt. Indus 3.38 acres 119.1 403 396 Winchester Meadows Ind. Park 21.38 acres 75.9 1,622 113 Ynez Auto Park Auto S&S 3000 Wilbur Smith Associates 1 Regional Center Update Southwest Area Plan - Approved and Planned Projects Project Land Use Daily Sub Quantity Daily Vehicle Trip Rate Veh ' TAZ Name Area Land Use # type # Source Trips 113 (TM23316) Rcs/MF 284 dus 6.6 1,874 160 (TT23335) Retail 6 acres 400.0 2,400 114 ACS Expansion ' Mfg 3280 ' 114 Auto Sales & Service Auto S&S 3680 389 Campos Verdes (TP25213) 2+3 Res/MF 268 dus 6.6 ITE 210 1,769 387 Campos Verdes (TP25213) 4+s+6 Res/MF 378 dus 6.6 ITE22o 2,495 ' 405 Campos Verdes (TP25213) s Res/MF 0 0.0 ITE 210 0 397 Campos Verdes (TP25213) 1 Retail 10 acres 800.0 ITE820(25%cowmp) 8,000 393 Campos Verdes (TP25213) r Office 9.3 acres 200.0 ITE 750 1,860 392 Campos Verdes (TP25214) 14 Res/SF 141 dus 10.0 ITE210 1,410 406 Campos Verdes (TP25215) 1s Res/SF 65 dus 10.0 ITE210 650 161 Carls Jr Center Retail 4.5 acres 400.0 1,800 394 Enterprise Circle North Bus Park 35 acres 200 7,000 2 Existing/Future Res Res/MF 136 dus 6.6 898 162 Ind Park 4 East (PM23561) Bus Park 9950 162 Ind Park 4 East (PM23561) Retail 10 acres 6000 138 Ind Park 4 West (PM19582) Retail 5 acres 600 3,000 ' 138 Ind Park 4 West (PM19582) Ind Park 150 70 10,500 194 Ind Park 5 Phase II Ind Park 31 acres 70.0 2,170 81 North Plaza (PP11374) Ret/Off 472 ksf 15700 1 Office Towers 1&2 Office 2000 ' 139 Palm Plaza (PP11222) Retail 455 ksf 40.0 18,200 1 Plaza Shopping Center Retail 185 ksf 40 7,400 2 Quality Suites Hotel/Rest 2200 118 Rancon Bus Center Ind Park 97 acres 70 5000 136 Rancon. Bus Center Ind Park 31 acres 70 5000 117 Rancon Bus Center Ind Park 180 acres 70 5000 136 Rancon Bus Center Bus Park 16.4 acres 200 5000 137 Rancon Bus Center Bus Park 16.4 acres 200 3,280 136 Rancon Bus Center Office 3.5 acres 200 5000 ' 137 Rancon Bus Center Office 3.5 acres 200 700 113 Solana Shopping Center Retail 5 acres 800 4,000 136 TAZ136 (- Rancon. Bus Ctr) Ind/Mfg 10 acres 60 5000 ' 137 TAZ137 (- Rancon Bus Ctr) Ind/Mfg 58 acres 60 3,480 391 Temecula Regional Ctr 4 Retail 13 ksf 40.0 ITE 820 520 391 Temecula Regional Ctr 4 Office 40 ksf 24.4 ITEM 976 ' 140 Temecula Regional Ctr a Office 300 ksf 10.4 ITE710 3,120 388 Margarita Meadows Center Retail 173.78 ksf 60.1 ITEs2o 8,881 ' 388 SUB REGIONAL AREA 1 Hotel 125 rooms 8.7 1,088 388 SUB REGIONAL AREA 1 Office 97 ksf 14.0 1,358 ' Wilbur Smith Associates RIVERSIDE COUNTY HIGHWAYS IJOTE: FOR ADDITIONAL STANDARDS AND SPECIFICATIONS, REFER TO COUNTY ORDDIANCE NO. 461. 134' R/W 110' 12' 8' T 12't 12 ' 14 18' 14' i 12'T 12' '8' 12' ' URBAN ARTERIAL HIGHWAY ' 110' R/W d6' 12' 8' 12 —12' 22' nedian 12t 12' 8'--12' ARTERIAL HIGHWAY 1 10'R/W ' 64' ?3' 9' - 12•- 12' ' 12' 12' 8' 23' MOUNTAIN ARTERIAL HIGHWAY 100' R/W 76' 12' 8 12'-F12' 12'12' 12' 8' 12' ' MAJOR HIGHWAY 88' R/W ' 641 1 2' 8' 12 12' 12' 12' 12' ' _L, ' SECONDARY HIGHWAY ' 66' R/'N 114' 11 0' 12' 2' 10' 1' Level a( :trrlce d Is one Polaris anality e7 carr;7ce a M�cleultr (last al nlgt.ay un pravlde. It It a cdndllldn of free Ila. In notch there It little or oo re- tlrlclloa of spnJ or uneuverablilty u.%ad be the pretence of other venk les. UVn,lIng ....J It in the nlgnast nage ,nJ density Is Io.. LEVEL OF SERVICE A level of Service b It • tone of sbble f Uo.[•ver, operii�nq Spred It beginning to rnlrided by other traffic. Under free +qconditions dens sly It lo., "shit. loon on oure nerab111I, It ngllgible, and them It Il It It rrobablI It, of I re dual i.. In Shed or 11. rale. Inn lams df air. lee ,p- proala.tn !,plus detlgn lot- . ot / .net for high+,1, IYPe rvnl nigh• +Ltlualnq I, en. Yt. LEVEL OF SERVICE B —Is I 1 Incl of SerrlSe C Is still a ton. o( liable l{T vol✓e and a oosn, level f ens) dr herr are Lrcho mitrlcled In led. 11 1111[1 SM nI, change l]JI] / lana, or Pass. Open tong Speeds aye y,1 In lar nngr ul 7/1 to )// of LL ..I.u.; deadly It (roe to to 1S ` eeel.et per ]".adoe on Irrru,t. ' irn lye Inh level g.neaall, ,elected ell e ` ,eK hJ al lesan ap11(! ""gin I [r llrrlm our Jru qn y"Wpotei, ❑ D \ _ Va.,. kat out ur 4an .di", ,mer if., PP ,on of pr le.vans \ 11¢ nlylvr, \,,.lice levels Jur big 1'++e prrluJt icy, k yr.nl4 tl hr. LEVEL OF SERVICE C level of Service 0 appraachot T- nb a ere n qe operating Wrote but art subject to co s.dJen variation. fr"Mao t and driving lunfort are loov lane density has In, rmed 1 aS and SO .asp. are sae probe o/ accidents Pat Inlru,ed. Jr ire rt .culd pn.balel, const this ter. ort Ind .nnLsfa IDq. LEVEL OF SERVICE D -y Ina uDMr IIYII of level of Service C Is 1 uptdty of Ina Gc7 tT ly, peemllun In tone It unstable, Speedt and It.. rete p Il vat ).ale, and there It little Indep S dente of Spred selection gr eblll to unt•1111. Since nee&.,% art ` I t ,hurl and .,all tong lMW, tubj, W raplJ fluU mllon, driving t 10 oro H lo. a,.d act Want pole. \hiqh. pt though Aluo, obtuilances orenituu dffu11lilt,r cundltions nrce,sary, dear), .nmslraLle end ould 4 avoided .Arnerl /u.iLle. LEVEL OF SERVICE u,,I of S1e.1(e I aescrl Let forced (la+ oM ral�uil ail er etntll, has r.moo ooil. o,hICn It rom ally In the range al 70 lb IS rpa do Iree llo.I.qIadllll IS. SMed and rate of Ilw vat be - In. the Ir.rlt atulned In tone I and rap fol dull tIK V<r10J t, do.V to Sero LEVEL OF SERVICE F F s 't, /It r TOWNS... / A OP.I f • L e X SOUTH TOWN RIVERSIDE COUNTY GENERAL PLAN CIRCULATION STUDY AREA 6 0 0 i G 5 0 PO.O 1 1 1 1 1 1 \�. u OF J / A OP.I f • L e X SOUTH TOWN RIVERSIDE COUNTY GENERAL PLAN CIRCULATION STUDY AREA 6 0 0 i G 5 0 PO.O 7.S. 1 1 1 1 1 1 D 1 1 1 eEc.EP OF J ;m � z 1� I e I s Au 1 1 p1' D 1 1 1 1• xn•tcL 1 �� 1 "ND J 1 i is to �xiq M • i/ y 2 PO • h • w O i 4� r �• .MryPEPtr POAB ° ' T•�•��BV Tx AIt EA 7 1 ... SHIP • e°u rx 1 1 1 1 :xrsrrn 1 uroce PP.P 1 a0 1 1 OF SUPERVISORS THROUGH RCSOLUTION NO. 04-77 AS A PART OF THE PUBLIC cuaaulcmax nwNr OP AT ty".OL FACILITIES A11U GERVICCS ELEMENT OF THE COMPRERFUSIVE GENERAL PLAN. 1 SECONDARY W' _—_— RESOLUTION DA1L RESOLUTION DATE RESOLUTION DATE 1.— j I ��►.y`� 1^irnx 1 Ponlr 1 I 1 � 'M-527 12 IBM N00-415 121988 MOUNTAIN ARTERIAL 110' 85 - 391 508 85 P D9- 596 1.20 89 7.S. 1 1 1 1 1 1 D 1 1 1 eEc.EP OF J ;m � z 1� m I s Au 1 1 p1' D 1 1 't "ND J 1 •POND • I O� 1 1 1 1 1 1 D 1 1 1 eEc.EP OF J o � • P SL 1 ,IIP 1 1 1 1 1 .!PSOx 1 D 1 't 1 • \O y a •POND • I O� Z • r D � OF J o � • P o D t.° M • i/ y 2 PO • w O vn Ln �• • POAB ° ' T•�•��BV Tx AIt EA 7 1 ... SHIP • e°u rx THIS .AAP WAS ADOPTED MARCH 6, 1904 BY THE RIVERSIDE COUNTY BOARD LEGEND OF SUPERVISORS THROUGH RCSOLUTION NO. 04-77 AS A PART OF THE PUBLIC cuaaulcmax nwNr OP AT ty".OL FACILITIES A11U GERVICCS ELEMENT OF THE COMPRERFUSIVE GENERAL PLAN. SECONDARY W' _—_— RESOLUTION DA1L RESOLUTION DATE RESOLUTION DATE MAJOR 100, •BH -H62 13.n.Br • OO.A05 10.688 , ARTERIAL 270• 0-60 'M-527 12 IBM N00-415 121988 MOUNTAIN ARTERIAL 110' 85 - 391 508 85 P D9- 596 1.20 89 URBAN ARTERIAL 134- r•••• •05 002 10¢905 •09.615 1219.09 '.O5-)50 129105 05 G39 121909 EXPRESSWAY VARIABLE MEEKS .P •W -Yr LtSW FREEWAY VARIABLE t® •W.45e ID21,W SPECIFIC PLAN ROAD VARIABLE 02.134 512 OT 87-956 12 22 83 BRIDGE .BB -1)9 6-1400 SPHERE OF INFLUENCE .. • INDICAT ES AMENDMENT TO TI IIS MAP STATE AND FEDERAL LANDS"" """"""^"... NOTE: CIRCULA DON MAPS ARE A GRAPHIC REPRESEN A TION IDENTIFYING INE GENERAL L OC.0 RpI AND CELS p7b RON OF EXISTING AND PROPOSED THOROUGHFARES IN ME COUNTY. ANVOUESIpNS REGAROWO PRECISE ANGNMFNr OR MIPROVEMENT STANDARDS SHOULD BE REFERRED TO RIE COUNTYROAGDEPARRNENT.. HIGHWAY CAPACITY FOR RIVERSIDE COUNTY ' GENERAL PLAN ROADS NUMBER DESIGNI) MAXIXUM2) PEAK HOUR VOLUME3) ' NOTE: All capacities are based on improvement to full County standards under optimum operating conditions. Capacity can be ' significantly reduced by a high incidence of pedestrian traffic and turning movement=_. Substandard vertical and horizontal alignment, or any condition which might restrict sight distance will also reduce capacity. FREEWAY 4 60,000 86,000 61000 6,880 FREEWAY 6 96,000 132,000 138,000 91600 11,040 FREEWAY 8 190,000 13,200 15,200 FREEWAY 10 168,000 240,000 16,800 19,200 EXPRESSWAY 4 50,000 80,000 5,000 6,400 EXPRESSWAY 6 78,000 120,000. 7,800 9,600 ' ARTERIAL 4 24,000. 38,000 2,400 3,040 ARTERIAL (Urban) 6 38,000 59,000 3,800 4,720 'MAJOR 4 24,000 38,000 2,400 3,040 SECONDARY 4 20,000 30,000 2,000 2,400 ' COLLECTOR4) 2 12,000 18,000 1,200 1,400 1) "Level of Service C" is used for analysis and evaluation, and is ' defined as a stable flow condition in which volume and density restrict the freedom to select speed, change lanes or pass. Values indicate Average Daily Traffic. 2) "Level of Service E". This value reflects the absolute maximum volume under ideal conditions. This level is characterized by ' unstable flow, extremely high volumes and limited operating with intermittent vehicle queuing. Values indicate Average speed Daily Traffic. ' 3) Peak Hour Volume is assumed to be 10 percent for Level of Service C and 8 percent for Level E, based on higher volumes spread over a longer time period. ' 4) Capacities are for initial stage two-lane arterials; majors and secondaries will be similar. ' NOTE: All capacities are based on improvement to full County standards under optimum operating conditions. Capacity can be ' significantly reduced by a high incidence of pedestrian traffic and turning movement=_. Substandard vertical and horizontal alignment, or any condition which might restrict sight distance will also reduce capacity. Noise Assessment for the Temecula Regional Center City of Temecula 1 I ' Prepared for: Douglas Wood &Associates 567 San Nicholas Suite 301 Newport Beach, Ca 92660 Prepared by ' Fred Greve, P.E. William Bloomer Mestre Greve Associates 280 Newport Center Drive Suite 230 ' Newport Beach, CA 92660 (714) 760-0891 ' Report # 90-91 Revised May 1, 1991 ' Noise Assessment for Temecula Regional Center City of Temecula ' 1.0 EXISTING NOISE ENVIRONMENT 1.1 Introduction The proposed project calls for the development of the Temecula Regional Center which covers a total of 201 acres. The project will consist of mix commercial uses including retail, office and ' hotels. The project is located in an incorporated area of the City of Temecula in County of Riverside southeast of the intersection of Winchester Road and Ynez Road. This study is a revision of our report # 90-91 (completed April 4, 1990, "Noise Assessment for Temecula ' Regional Center, City of Temecula") and is based on updated traffic data which accounts for the deletion of any proposed development north of Winchester Road. 1.2 Noise Criteria Community noise levels are measured in terms of the "A -weighted decibel," abbreviated dBA. A - weighting is a frequency correction that correlates overall sound pressure levels with the frequency response of the human ear. Exhibit 1 provides examples of various noises and their typical A -weighted noise level. . The "equivalent noise level," or Leq is the Average noise level on an energy basis for any L specified time period. The Leq for one hour is the energy Average noise level during the hour, specifically, the average noise based on the energy content (acoustic energy) of the sound. It can be thought of as the level of a continuous noise which has the same energy content as the fluctuating noise level. The equivalent noise level has the units of dBA, therefore, a sound measured for one hour may be expressed as a one hoar Leq of 57 dBA. ' Several rating scales have been developed for measurement of community noise. These account for: (1) the parameters of noise that have been shown to contribute to the effects of noise on man, (2) the variety of noises found in the environment, (3) the variations in noise levels that occur as a person moves through the environment, and (4) the variations associated with the time of day. The predominant rating scale now in use in California for land use compatibility assessment is the Community Noise Equivalent Level (CNEL). The CNEL scale represents a time weighted 24 hour Average noise level based on the A -weighted decibel. Time weighted refers to the fact that noise that occurs during certain sensitive time periods is penalized for occurring at these times. The evening time period (7 p.m. to 10 p.m.) penalizes noises by 5 dBA, while nighttime (10 p.m. to 7 a.m.) noises are penalized by 10 dBA. These time periods ' and penalties were selected to reflect people's increased sensitivity to noise during these time periods. The day -night or Ldn scale is similar to the CNEL scale except that evening noises are not penalized. A CNEL noise level may be reported as a "CNEL of 60 dBA," "60 dBA CNEL," or simply "60 CNEL." Typical noise levels in terms of the CNEL scale for different types of communities are presented in Exhibit 2. The City of Temecula is a newly incorporated city therefore it does not have any noise standards yet. The City of Temecula has retained the County of Riverside noise standards. The criteria used to assess the acceptability of community noise levels varies with the municipality. The County of Riverside uses 65 CNEL as the critical criterion for assessing the ' compatibility of residential land uses with noise sources. The County of Riverside recommends MGA 1 SOUND LEVELS AND LOUDNESS OF ILLUSTRATIVE NOISES IN INDOOR AND OUTDOOR ENVIRONMENTS (A+Seab Weighted Sound Levels) SOURCE: RepsGced from Mclrille C. Breach and R Dab Boland. Ouldoer choke b We Mamnolitan Fnvironme m. PW Wbd by 00 City of Lee Angolm, 1970. P.2. Exhibit 1 Examples of Typical Noise Levels OVER-ALL LEVEL LOUDNESS dB(A) Sound Prmuro Level Approu. 0.0002 COMMUNITY HOME OR INDUSTRY Bern Judgere Microbare (Outdoor of Different gen Level Military Jr AbmO Tsko ORWilh Aga-buner Oxygen Toafi(121) 120 dB(A) 32 Timer on lad 130 UNCOMFORTABLY Fran Aircraft Cartier O 50 R(130) 120 LAUD TutboFan Abcndl OTake OBPoww RNedng Machtae(110) 110 O200R (90) Rock -N -Roll Bad(10&114) ILO dB(A)16 Timr rlad Jet nova O 1000 R (163) 100 Social; 707. DC -8 O 6080 R 100 dB(A) 8 Thumas Lout VERY Berne ldndbg(106) Bell J -2A Helicopter O 100 R (100) LOUD Power Mona (96) 90 Boeing 777• DC.9 O 6080 R Brae{ydmg Nowspepa Press (97) 90 dB(A) 4 Tunas an Lad Molacycle ®23R (90) Cr Wash O 2D R (89) Food Blander (88) Prop. Airplane FlyoverO 1000 R (88) S O Dlaei Truck. 40 MPII O 50 R (eq M1114 Machine (83) Land 80 dB(A) 2 Those ra Dknl Train. 45 MPII O 100 R (23) Garbage Disposal (SO) High Urban Ambient Sound (86) MODERATELY Passenger Cr. 65 MRI O 25 R C77) living Room Musk O6) 70 dBW O LOW Freeway O 50 R•Iimn Pavement TV -Allo. Vuten Clem Edge. IMAM (76 +a- 6) Cub Register O 10 R (6570) Air Conditioning Unit O 100 R (60) Electric Typewriter O 10 R (6Q 'ubwrber (Rim) O 10 R (60) 60 dB(A) IR r lad Convreatbn (60) sit QUA LargsTrudormertOl00R(SO) 56 dB(A) 104 r Lad 40 Bird Calls (M) LowLi er mit Urban Ambient Saud (40) d0 dB(A) Ip r Lad JUST AUDIBLE (dB(A) Scab lnarn"od) TURLSIIOLD 10 OPHEARWG SOURCE: RepsGced from Mclrille C. Breach and R Dab Boland. Ouldoer choke b We Mamnolitan Fnvironme m. PW Wbd by 00 City of Lee Angolm, 1970. P.2. Exhibit 1 Examples of Typical Noise Levels I I tl t CNEL Outdoor Location Apartment Next to Freeway *�� 3/4 Mile From Touchdown at Major Airport E-- Downtown With Some Construction Activity —Urban High Density Apartment 4 Urban Row Housing on Major Avenue E— Old Urban Residential Area F— Wooded Residential < Agricultural Crop Land <— Rural Residential E— Wilderness Ambient Exhibit 2 Typical Outdoor Noise Levels that the exterior living areas (yards and patios) for new residential land uses do not exceed 65 CNEL. In addition, for multi -family residential projects, the California Noise Insulation Standard (California Administrative Code, Title 25, Chapter 1, Subchapter 1, Article 4) requires that the indoor noise levels in multi -family residential development do not exceed a CNEL of 45 dB. The County of Riverside indoor noise standards are consistent with the state standards. The County of Riverside requires that both single family and multi -family developments achieve an indoor noise standard of 45 CNEL. Commercial retail, office and hotel land uses are also included as part of the project. The California Department of Health Services has published guidelines for determining the compatibility of various land uses with noise levels. The guidelines are summarized in Exhibit 3. The guidelines rate compatibility in terms of "normally acceptable, conditionally acceptable, normally unacceptable, and clearly unacceptable." The guidelines are used to assess the compatibility of the proposed project with the noise environment. The County of Riverside does not have any noise standards for commercial retail, office and hotel land uses. It is our recommendation that a 50 CNEL interior noise standard be applied to the commercial retail and office areas; and a 45 CNEL interior standard and a 65 CNEL exterior standard be applied to the hotel areas. 1.3 Existing Traffic Noise Levels The highway noise levels projected in this report were computed using the Highway Noise Model published by the Federal Highway Administration ("FHWA Highway Traffic Noise Prediction Model," FHWA-RD-77-108, December, 1978). The FHWA Model uses traffic volume, vehicle mix, vehicle speed, and roadway geometry to compute the "equivalent noise level." A computer code has been written which computes equivalent noise levels for each of the time periods used in the calculation of CNEL. Weighting these noise levels and summing them results in the CNEL for the traffic projections used. CNEL contours are found by iterating over many distances until the distances to the 60, 65, and 70 CNEL contours are found. For the roadway analysis, worst-case assumptions about future motor vehicle traffic and noise levels have been made and were incorporated in the modeling effort, specifically, no reductions in motor vehicle noise have been assumed in spite of legislation requiring quieter vehicles at the time of manufacture. Existing traffic volumes and estimated speeds were used with the FHWA Model to estimate existing noise levels in terms of CNEL. Traffic volumes were obtained from the Temecula Regional Center Traffic Impact Study, by Wilbur Smith Associates (April 1991.) The distances to the CNEL contours for the roadways in the vicinity of the project site are given in Table 1. These represent the distance from the centerline of the road to the contour value shown. Note that the values given in Table 1 do not take into account the effect of any noise barriers or topography that may affect ambient noise levels. Mrd I I 1- I L� I I I I 41 I I land Use Category I Community sAn60 �Noise Exposure CNEL, 75 90 dB I Residential - Low Density Single Family, Duplex, Mobile Homes Residential - Multiple Family Transient Lodging - Motels, Hotels Schools. Llbrarlm Churches Hospitals, Nursing Homes Audibod=36 Concert Halls, --- ��--- Playgrounds, Neighborhood puke I Golf Courses, Riding Stables st? ssiY F?I. a >[sltits Water Reerestioo, Cemeteries I'Liace Buildings. Business Commercial and Residential Industrial, Manufacturing Utilities . . .. 2=1 Agriculture El rfiR Normally Acceptable Specified Land Use Is Satisfactory, Deed Upon the Assumption that Any Buildings Involved are of Normal Conventional Construction, Without Any Special Noise Insulation Requitement:. - ® Conditionally Acceptable New Construction or Development Should be Undertaken Only After a Detailed Analysis of the Noise Reduction Requirement is Made and Needed Noise Insulation Features Included In the Design. Conventional Construcuont but with Closed Windows and Fresh Alt Supply Systems or Air Conditioning, Will Normally Suffice. ® NomWlyUnaceepuble New Construction or Development Should Generally be Discouraged. It New Construction or Development Does Proceed, a Detailed Analysis of the Noise Reduction Requirements Must be Made and Needed Noise Insulation Features Included in the Dadip . _ Clearly Unaccepta6to New Construction or Development Should Generally not be Undemken. Exhibit 3 California Land Use Compatibility Studies Table 1 EXISTING NOISE LEVELS Distance to CNEL Contour from Centerline of Roadway (Feet) Rnndwov i in4 7A rNTi i 6Q rNRI. 611 f NrU RW - Contour falls on roadway. I East of Murrieta Creek RW 88 190 West of Jefferson Ave. RW 88 190 Jefferson Ave to 1-15 67 145 312 1.15 to Ynez Road 68 146 316 E. of Ynez Road RW 96 207 W. of Regional Ctr. RW 96 207 W. of Margarita Road RW 96 207 E. of Margarita Road RW 92 197 W. of Nicolas Road RW 92 197 E. of Nicolas Road RW. 88 190 W. of Murrieta Hot Spr RW 88 '190 E. of Murrieta Hot Spr RW 66 143 SOLANA WAY Ynez Road to Margarita Road RW 55 119 East of Margarita Roasd RW RW 63 WASHINGTON AVE (DIAZ ROAD) - South of Winchester Road RW 65 140 JEFFERSON AVENUE North of Date Street RW 72 155 S. of Cherry Ave. RW 72 154 N. of Winchester Ave. RW 88 189 Winchester to Apricot Ave 54 115 249 1-15 Date Street to Winchester 169 364 784 S. of Apricot Avenue 161 346 746 YNEZ ROAD N. of Winchester RW 60 129 S. of Winchester 58 124 268 Winchester to Apricot Avenue 50 108 233 S. of Solana Way RW 92 199 MARGARITA ROAD N. of Winchester Road RW RW RW S. of Apricot Avenue RW RW RW S. of Solana Way RW RW 82 NICHOLAS ROAD S. of Winchester RW RW 74 MARGARITA HOT SPRINGS ROAD N. of Winchester RW RW 84 RW - Contour falls on roadway. I I I I 1 I I 1 i The data in Table 1 indicate that a major noise corridor exists along Interstate 15. Noise levels directly adjacent to the interstate exceed 70 CNEL. Winchester Road, Jefferson Avenue and Ynez Road have noise levels of 65 CNEL or greater at edge of roadway right-of-way. Other roadways in the project vicinity have low levels of traffic and correspondingly low levels of noise. 2.0 POTENTIAL NOISE IMPACTS Potential noise impacts are commonly divided into two groups; temporary and long term. Temporary impacts are usually associated with noise generated by construction activities. Long term impacts are further divided into impacts on surrounding land uses generated by the project and those impacts which occur at the project site. 2.1 Construction Noise Construction noise represents a short term impact on ambient noise levels. Noise generated by construction equipment, including trucks, graders, bulldozers, concrete mixers and portable generators can reach high levels. Grading activities typically represent one of the highest potential for noise impacts, however, most of the grading should occur away from existing residential land uses. However in some areas grading will be occurring adjacent to newly developed areas. For these situations, the most effective method of controlling construction noise is through local control of construction hours. When construction occurs adjacent to existing residential development the hours of construction should be limited to 7 a.m. to 7 p.m. on Monday through Friday. Construction should not be permitted for these circumstances on weekends or federal holidays. 2.2 Impacts on Surrounding Land Uses The proposed development of the Temecula Regional Center will generate traffic, and as a result may alter projected noise levels in the surrounding areas. To assess the impact of the proposed project on land uses adjacent to streets that will serve the project, the change in roadway noise along these streets was determined. Due to other planned development in the area which has already been approved there will be an increase in traffic in the surrounding area with or without the Temecula Regional Center project. The change in noise was calculated for these roads and is shown below in Table 2. Column 1 shows the change in the future noise levels over existing noise levels. The future noise levels include the sum of noise levels generated from existing traffic and noise levels generated from traffic due to cumulative development in the surrounding area including the project. Column 2 shows the change in future noise levels (with the project) over future noise levels (without the project.) MGA 3 Table 2 FUTURE NOISE INCREASE LEVELS (0) liti Date Street to Winchester Future Noise Incr. Future Noise Incr. Roadway Link over existing due to project JEFFERSON AVENUE North of Date Street 3.1 -0.1 Date Street to Cherry Ave. - 0.1 S. of Cherry Ave. 3.7 0.4 N. of Winchester Ave. 3.6 0.1 Winchester to Apricot Ave 0.9 0.1 S. of Apricot Ave - 0.2 MADISON AVENUE 1.4 -0.5 N. of Date Street 2.9 1.3 liti Date Street to Winchester 3.8 0.5 S. of Apricot Avenue 3.7 0.2 JACKSON AVENUE N. of Date Street 0.2 Date Street to C Street 0.6 C Street to County Ctr 0.5 County Cir to Winchester 5.7 0.3 YNEZ ROAD S. of Winchester 2.5 0.3 N. of Apricot Avenue 1.4 -0.5 Apricot Ave to Solana Way 2.9 0.8 S. of Solana Way 4.2 0.1 LINCOLN AVENUE N. of Date Street 0.0 MARGARITA ROAD N. of Date Street 1.4 Date Street to A Street 2.0 A Street to B Street 2.1 B Street to Winchester 12.8 1.6 S. of Winchester - 0.7 N. of General Kearny 0.6 General Kearny to Apricot Ave -1.1 Apricot Ave to Solana Way 15.1 0.3 S. of Solana Way 7.1 0.3 NICHOLAS ROAD S. of Winchester 4.4 0.9 MARGARITA HOT SPRINGS ROAD N. of Date Street - -0.3 Date Street to Winchester 6.3 0.1 S. of Winchester - -0.3 Table 2 FUTURE NOISE INCREASE LEVELS (0) Future Noise Incr. Future Noise Incr. Roadway Link over existing due to project DATE STREET ' Diaz Road to Adams Street -0.1 Adams Street to Jefferson Ave - -0.2 Jefferson St. to 1-15 1-15 to Business Park - 0.2 0.2 Business Park to Jackson Ave. 0.2 Jackson Ave to Lincoln Ave -0.1 East of Lincoln Ave -0.3 West of Margarita Road -0.3 East of Margarita Road -0.1 W. of Margarita Hot Spring Roa 0.7 CHERRY STREET Adams Street to Jefferson Ave 1.2 WINCHESTER ROAD East of Murrieta Creek 2.4 0.4 West of Jefferson Ave. 0.7 0.3 Jefferson Ave to 1-15 1.0 0.0 1-15 to Ynez Road 3.1 0.4 E. of Ynez Road 3.9 0.3 W. of Regional Ctr. 3.4 -0.1 W. of Margarita Road 3.9 0.4 E. of Margarita Road 3.8 0.3 W. of Nicolas Road 3.4 0.5 E. of Nicolas Road 3.8 0.3 W. of Margarita Hot Spr 3.7 0.6 E. of Margarita Hot Spr 4.9 0.1 APRICOT AVENUE W. of Jefferson Avenue - -0.3 1-15 to Jackson Ave 0.4 Ynez Road to Regional Ctr. 0.8 Regional Ctr to Margarita Rd -1.5 SOLANA WAY Ynez Road to Margarita Road 4.2 0.1 East of Margarita Roasd 1.3 -0.7 GENERAL KEARNY ROAD Regional Ctr to Margarita Road _ - East of Margarita Road 0.8 Far East of Margarita Road - 0.9 WASHINGTON (DIAZ ROAD) North of Date Street South of Date Street 1.3 North of Winchester Road 0.0 South of Winchester Road 3.6 -0.1 ADAMS AVENUE North of Date Street 2.5 South of Date Street 1.5 In community noise assessment changes, noise levels greater than 3 dB are often identified as significant, while changes less than 1 dB will not be discernible to local residents. In the range of 1 to 3 dB residents who are very sensitive to noise may perceive a slight change. No scientific evidence is available to support the use of 3 dB as the significance threshold. In laboratory testing situations humans are able to detect noise level changes of slightly less than 1 dB. However, in a community noise situation the noise exposure is over a long time period, and changes in noise levels occur over years, rather than the immediate comparison made in a laboratory situation. Therefore, the level at which changes in community noise levels become discernible is likely to be some value greater than 1 dB, and 3 dB appears to be appropriate for most people. The data in Column 1 of Table 2 indicate that the future noise levels will increase substantially (greater than 3 dBA) over existing noise levels for sensitive land uses along some streets in the vicinity of the project. This is due to the relatively low amount of traffic currently in the area A maximum change of 15.1 dB exists along Margarita Road (between Solana Way and Apricot Avenue) which will have a noise exposure just less than 70 CNEL at roadway right-of-way edge. Furthermore, Winchester Road, Washington Avenue (Diaz Road), Jefferson Avenue, Jackson Avenue, Ynez Road, Margarita Road, Nicholas Road and Margarita Hot Springs Road have noise increases greater than 3 dB. Those roadways that have noise increases greater than 3 dB and future noise levels greater than 65 CNEL may significantly impact already existing residential developments adjacent to these roadways. Such roadways include Margarita Road, Winchester Road and Nicolas Road. Roadways along planned residential areas that are not yet developed can be mitigated by the developer at the time of construction. The future noise levels are likely to increase slowly over the years rather than immediately. This problem is a regional problem due to the intense development throughout this area The Noise Element of the General Plan is intended to develop strategies to address regional problems. The Temecula Noise Element should be updated to address this area. (The California Department of Health recommends that Noise Elements be updated every five years.) The future noise increase levels due solely to the project specified in Column 2 are all less than 3 dB. This indicates the project will contribute slightly but insignificantly to the noise increase problem in the area. MCA 4 1 2.3 Noise Levels On -Site Traffic volumes reported in the traffic study were used with the FHWA Highway Traffic Noise Model to project future unmitigated noise levels for all of the roadways. The modeling results are reported in the form of distances to the 60, 65, and 70 CNEL contours. These projections do not take into account any barriers or topography that may reduce noise levels. Future traffic noise levels impacting the project site were presented in Table 3. For the project site the data is also presented graphically in Exhibit 4. Exhibit 4 shows the 60 and 65 CNEL noise contours for the project site. ' The data in Table 3 indicate that limited portions of the project site proposed for residential use (such as hotels) may experience traffic noise levels greater than 65 CNEL without some form of mitigation, specifically lots along Winchester Road, Margarita Road, General Kearny Road and Regional Center Road. Measures will be necessary to ensure that residential areas planned along these roadways will experience outdoor noise levels less than 65 CNEL, and indoor noise levels less than 45 CNEL. The usual forth of mitigation is through the construction of sound walls and sound insulation for the buildings. If the hotel areas were to be built adjacent to Winchester Road they could be exposed to noise level of 70 CNEL or greater. According to the California Land Use/Noise. Compatibility guidelines (Exhibit 3) hotel land use inside the 70 CNEL zone are "normally unacceptable", new construction or development should generally be discouraged. If new construction or development does proceed, a detailed analysis of the noise reduction requirements must be made and needed noise insulation features included in the design. ' If the commercial retail and office. spaces were to be built adjacent to Winchester Road, Apricot Road and Ynez Road, they could be exposed to a noise level of 70 CNEL or greater. According to the California Land Use/Noise Compatibility guidelines (presented previously as Exhibit 3) commercial retail and office land uses inside the 70 CNEL zone are "conditionally acceptable", new construction or development should be undertaken only after a detailed analysts of the noise reduction requirement is made and needed noise insulation features included in the design. Conventional construction, but with closed windows and fresh air supply systems or air conditioning, will normally suffice. 11 I If the commercial retail and office spaces were to be built adjacent to General Kearny Road, Regional Center Road and Margarita Road, Apricot Avenue, Ynez Road and Winchester Road they could be exposed to noise levels exceeding 65 CNEL. According to the California Land Use/Noise Compatibility guidelines (presented previously as Exhibit 3) commercial retail and office land uses inside the 70 CNEL zone are "normally acceptable", specified land use is satisfactory, based upon the assumption that any building involved are of normal conventional construction without any special noise insulation requirements. M!: d Table 3 FUTURE NOISE LEVELS 1 Distance to CNEL Contour from Centerline of Roadway (Feet) Roadway Link 70 CNEL 65 CNEL 60 CNEL DATE STREET Diaz Road to Adams Street 62 134 290 Adams Street to Jefferson Ave 63 135 291 Jefferson St. to 1-15 68 146 314 1-15 to Business Park 68 146 314 Business Park to Jackson Ave. 67 145 312 Jackson Ave to Lincoln Ave RW 111 238 , East of Lincoln Ave RW 107 230 West of Margarita Road RW 107 231 East of Margarita Road RW 98 210 W. of Murieta Hot Spring Road RW 72 156 CHERRY STREET Adams Street to Jefferson Ave RW RW 73 C STREET Adams Street to Jefferson Ave RW 53 113 , B STREET W. of Margarita Road RW RW 89 A STREET W. of Margarita Road RW RW RW , COUNTY CENTER Jackson Ave to C Street RW RW 53 WINCHESTER ROAD East of Murrieta Creek RW 128 276 , West of Jefferson Ave. RW 98 212 Jefferson Ave to 1-15 ' 79 169 365 1-15 to Ynez Road 109 235 506 E. of Ynez Road 81 175 377 W. of Regional Ctr. 75 161 348 W. of Margarita Road 81 175 377 E. of Margarita Road 76 164 352 W. of Nicolas Road 72 155 334 E. of Nicolas Road 73 157 338 W. of Margarita Hot Spr 72 155 334 E. of Murrieta Hot Spr 65 140 302 APRICOT AVENUE W. of Jefferson Avenue RW 71 153 1.15 to Ynez Road 47 101 217 Ynez Road to Regional Cir. 49 106 228 Regional Ctr to Margarita Rd RW 75 161 SOLANA WAY Ynez Road to Margarita Road RW 105 226 East of Margarita Road RW RW 76 GENERAL KEARNY ROAD Regional Ctr to Margarita Road RW 86 185 East of Margarita Road RW 89 192 Far East of Margarita Road RW 81 175 WASHINGTON AVE (DIAZ ROAD) South of Date Street 72 155 335 North of Winchester Road 59 126 272 South of Winchester Road 53 113 244 ADAMS AVENUE North of Date Street South of Date Street RW RW RW RW 86 115 , 1 Table 3 FUTURE NOISE LEVELS Distance to CNEL Contour from Centerline of Roadway (Feet) Roadway Link 70 CNEL 65 CNEL 60 CNEL I I V� Vv North of Date Street Date Street to Cherry Ave. 54 57 117 122 251 262 S. of Cherry Ave. 58 126 271 N. of Winchester Ave. 71 153 330 Winchester to Apricot Ave 61 132 285 S. of Apricot Ave 55 119 257 MADISON AVENUE N. of Date Street RW 74 160 1-15 Date Street to Winchester 302 650 1401 S. of Apricot Avenue 284 612 1318 JACKSON AVENUE N. of Date Street 57 124 267 Date Street to C Street 59 128 275 C Street to County Ctr 60 128 276 County Ctr to Winchester 67 143 309 YNEZ ROAD S. of Winchester 85 184 396 N. of Apricot Avenue 71 154 332 Apricot Ave to Solana Way 78 168 362 S. of Solana Way 82 177 380 LINCOLN AVENUE N. of Date Street RW RW RW REGIONAL CTR ROAD Winchester to General Kearny RW 80 173 General Kearny to Apricot Ave RW 80 173 MARGARITA ROAD N. of Date Street RW 88 191 Date Street to A Street RW 83 179 A Street to B Street RW 85 182 B Street to Winchester RW 112 240 S. of Winchester RW 93 201 N. of General Kearny RW 85 184 General Kearny to Apricot Ave RW 97 208 Apricot Ave to Solana Way 52 112 241 S. of Solana Way 52 112 242 NICHOLAS ROAD S. of Winchester RW 68 146 MARGARITA HOT SPRINGS ROAD N. of Date Street Date Street to Winchester RW RW 75 103 162 221 S. of Winchester RW 80 172 RW - Contour falls on roadway. I I ��' _ � asp � �•. ••oo .; ' -, 1 L''' Verve KUL __ (. •.V N _ Exhibit 4 Future On -Site CNEL Noise Levels 1p. en Exhibit 4 Future On -Site CNEL Noise Levels ' 3.0 MITIGATION MEASURES 3.1 Construction Noise Impacts Construction adjacent to existing residential development should be limited to the hours of 7 a.m. to 7 p.m. on Monday through Friday. Construction should not be allowed on weekends or federal holidays. 3.2 Off -Site Noise Impacts No significant off-site impacts are projected for this project. Noise levels in the surrounding areas will increase substantially in years to come. However, the increases are due to regional development, and the proposed project by itself will contribute little but insignificantly to the ultimate noise levels. ' 3.3 On -Site Noise Impacts Mitigation measures are needed to reduce noise levels in outdoor and indoor residential areas exposed to noise levels greater than 65 CNEL. Specifically, lots along Winchester Road, Margarita Road, General Kearny Road and Regional Center Road may experience noise levels exceeding 65 CNEL without some form of mitigation. The area bounded by these roadways is the only portion of the project in which hotels are planned. The measures below are presented to ' demonstrate feasibility, and should not be interpreted as design specifications. A more detailed noise analysis will be warranted when grading plans are developed. The FHWA Model described previously and future traffic volumes were used to assess the feasibility of sound barriers in reducing the noise levels along the roadways of concern. A 5 foot observer height as recommended in the FHWA Model was utilized. It was assumed that a noise barrier would be constructed at the residential property line and that the observer was located 5 feet from the barrier. It has been assumed that no second story balconies will face the roadway for units located inside the 65 CNEL impact zone. In general, second story balconies should not overlook major roadways due to potential noise impacts. However, if such balconies are planned additional noise mitigation will be necessary. Noise barrier heights were calculated for sample locations along Winchester Road, Margarita Road, General Kearny Road and Regional Center Road In most areas the barrier will have to reduce the noise level by approximately 1 to 5 dBA. Walls of 3 to 5 feet may be required along General Kearny Road, Regional Center Road and Margarita road. Walls of 6 feet or greater may be required along Winchester Road. However, it is not aesthetic to have walls exceeding 6 feet. A more desirable alternative is a combination berm and wall which would reduce the wall height considerably. The noise barrier heights projected may be reduced considerably through site design, such as setbacks from the roadways, grade separations, and exterior living area orientation. The barriers could be a berm, wall, or a combination berm and wall. Walls should not contain holes or gaps, and should be constructed of slumpstone or other masonry material. Final noise barrier heights should be determined when final grading plans are developed that show hotel setbacks, and precise pad elevations. Exhibit 5 presents a standard condition utilized by the County of Orange. We recommend that a similar condition be attached to this project. This will insure that the project meets the indoor and Ioutdoor noise standards for the City of Temecula L I MGA 6 N1 All residential lots and dwellings shall be sound attenuated against present and projected noise, which shall be the sum of all noise impacting the project, so as not to exceed an exterior standard of 65 dB CNEL in outdoor living areas and an interior standard of 45 dB CHEL in all habit- able rooms. Evidence prepared under the supervision of a County -certified acoustical consultant that these standards will be satisfied in a manner consistent with applicable zoning regulations shall be submitted as follows: A. Prior to the recordation of a final tract/parcel map or prior to the issuance of Grading Permits, at the sole discretion of the County, an Acoustical Analysis Report shall be submitted to the Manager, Develop- ment Services Division, for approval. The report shall describe in detail the exterior noise environment and preliminary mitigation meas- ures. Acoustical design features to achieve interior noise standards may be included in the report in which case it may also satisfy •S" below. B. Prior to the issuance of any building permits, an acoustical analysis report describing the acoustical design features of the structures required to satisfy the exterior and interior noise standards shall be submitted to the Manager, Development Services Division for approval along with satisfactory evidence which indicates that the sound attenuation measures specified in the approved acoustical report(s) have been incorporated into the design of the project. C. D. Prior to the issuance of any Certificates of Use and Occupancy, field testing in accordance with Title 25 regulations may be required by the Manager, Building Inspection Division, to verify compliance with STC and IIC design standards. Exhibit 5 r Example Condition of Approval I I I I I I I 1 I 1 I Since the City of Temecula does not have standards for commercial retail, office and hotel land uses, the interior noise criteria as specified in the County of Orange "Noise Element and Land Use/Noise Compatibility Manual" should be applied. The indoor noise criteria specified that an acoustical report will need to be completed prior to issuance of building permits to show mitigation measures, if any, needed to meet the county's interior noise standards for the commercial retail, office and hotel buildings. The County of Orange standards require that commercial retail and office buildings are not to exceed 50 CNEL for the interior, hotel buildings are not to exceed 45 CNEL for the interior and 65 CNEL for exterior living areas. MGA 7 I I I IJ I I I [1 C) 1 I MGA APPENDIX Traffic Data Used to Calculate Noise Levels 8 I ••••• ADT (in thousands) ••••• Future Future Roadway Link Speed Existing w/ Protect w/o Prolect DATE STREET Diaz Road to Adams Street 45 28.3 28.8 Adams Street to Jefferson Ave 45 - 28.5 29.6 Jefferson St. to 1-15 45 - 32.0 30.8 1-15 to Business Park 45 - 32.0 30.6 Business Park to Jackson Ave. 45 - 31.6 30.5 ' Jackson Ave to Lincoln Ave 45 21.1 21.4 East of Lincoln Ave 45 - 20.0 21.2 West of Margarita Road 45 - 20.2 21.6 East of Margarita Road 45 17.5 17.9 W. of Margarita Hot Spring Road 45 _ 11.2 9.5 CHERRY STREET Adams Street to Jefferson Ave 35 - 6.7 5.1 WINCHESTER ROAD East of Murrieta Creek 45 15.1 26.3 23.8 West of Jefferson Ave. 45 15.1 17.7 16.6 Jefferson Ave to 1-15 45 31.6 _ 40.0 40.2 1-15 to Ynez Road 45 32.2 653 60.0 E. of Ynez Road 45 17.1 42.1 39.4 W. of Regional Ctr. 45 17.1 37.2 38.1 W. of Margarita Road 45 17.1 42.0 38.1 E. of Margarita Road 45 15.9 36.0 35.8 W. of Nicolas Road E. of Nicolas Road 45 45 15.9 15.0 35.0 35.7 31.3 33.0 W. of Margarita Hot Spr 45 15.0 35.0 30.4 E. of Margarita Hot Spr 45 9.8 30.2 29.2 APRICOT AVENUE W. of Jefferson Avenue 40 14.6 15.5 1-15 to Jackson Ave 40 - 24.5 22.5 Ynez Road to Regional Ctr. 40 - 26.5 22.0 Regional Ctr to Margarita Rd 40 - 15.7 22.0 SOLANA WAY Ynez Road to Margarita Road 40 10.0 26.1 25.6 East of Margarita Roasd 40 3.8 5.1 6.0 GENERAL KEARNY ROAD Regional Ctr to Margarita Road 40 - 19.4 - East of Margarita Road 40 20.4 16.9 Far East of Margarita Road 40 17.8 14.5 WASHINGTON (DIAZ ROAD) - North of Date Street 45 South of Date Street 45 35.2 25.9 North of Winchester Road 45 - 25.8 25.9 South of Winchester Road 45 95 21.9 22.3 ADAMS AVENUE North of Date Street 40 6.1 3.4 ' South of Date Street 40 _ 9.5 6.7 JEFFERSON AVENUE North of Date Street 45 11.1 22.9 23.5 Date Street to Cherry Ave. 45 - 24.4 24.1 ' S. of Cherry Ave. 45 11.0 25.6 23.4 N. of Winchester Ave. 45 14.9 34.4 33.3 Winchester to Apricot Ave 45 22.5 27.7 26.8 S. of Apricot Ave 45 - 23.7 22.6 MADISON AVENUE N. of Date Street 35 21.7 16.1 I-15 Date Street to Winchester 55 53.7 128.2 113.4 S. of Apricot Avenue 55 49.8 117.0 112.3 I •'••• ADT (in thousands) •"" Future Future Roadway Link Speed Existina w/ Profect w/o Prolect JACKSON AVENUE N. of Date Street 45 - 25.0 23.8 Date Street to C Street 45 - 26.2 22.7 C Street to County Ctr 45 - 26.4 23.5 County Ctr to Winchester 45 8.4 31.2 29.3 YNEZ ROAD S. of Winchester 45 25.2 45.3 42.6 N. of Apricot Avenue 45 25.2 34.7 39.0 Apricot Ave to Solana Way 45 20.4 39.5 32.6 S. of Solana Way 45 16.1 42.6 41.5 LINCOLN AVENUE N. of Date Street 40 - 1.6 1.8 MARGARITA ROAD N. of Date Street 40 - 20.2 14.6 Date Street to A Street 40 - 18.4 11.5 A Street to B Street 40 18.9 11.6 B Street to Winchester 40 1.5 28.6 20.0 S. of Winchester 40 - - 21.9 18.5 N. of Genera: Kearny 40 - 19.1 16.6 General Kearny to Apricot Ave 40 - 23.1 29.6 Apricot Ave to Solana Way 40 0.9 28.6 26.7 S. of Solana Way 40 5.7 28.9 27.2 NICHOLAS ROAD S. of Winchester 40 4.9 13.5 11.1 MARGARITA HOT SPRINGS ROAD N. of Date Street 40 - 15.8 16.9 Date Street to Winchester 40 5.9 25.3 24.6 S. of Winchester 40 - 17.3 18.4 THE LEVANDER COMPANY, iNc. 1815 Via EI Prado, Suite 308, Redondo beach, California 80277 (213)540-1546 HMRANDUM FAX (213)543.5135 ' To: Mr. Douglas L. Wood Date: April 5, 1991 Douglas Wood &,ociates ' FrM: Dale H. LevanderFile; #1342 Ronald W. Wade ' Subject: ATTF:'RNATF`. FISCAL FROJ PIONS--TEMEMIA REGIONAL CENTER SPECIFIC PLAN At your request, we have prepared this memorandum as a supplement to our report of March 19, 1991, which evaluated the fiscal impacts of a land -use alternative derived from a modified land -use plan prepared by Turrini & Brink. Building space estimates used in the March 19 report were based Wort discussions with Bedford Properties, Inc. arra prototypical development ' densities from our files. Since preparation of this report, Turrini & Brink has prepared estimates of building space for the revised land use plan based on two alternative retail forms: o A regional center. ' o A power center. ' As can be seen from Table 1, the total amount of building space reflected in the Marg 19 report and that in the two later alternatives is quite close, ranging from 2,600,000 square feet to 2,858,000 square feet. Projected cash flows are also relatively close: ' o $13.7 million to $15.2 million during the ten-year development period. ' o $2.3 million to $2.8 million for Year 11 and beyond. Detailed projections are contained in the initial report and the two sets ' of computer printouts attached. If you have any ccai ents or questions concerning the above, please give us a call. IEHIA F1W: jw: S97 cc: Mr. Barry Burnell, Tannin & Brink Attachment Table 1 ALTERNA= CCMPARISONS Temecula Regional Center Specific Plan PRa7ECPED CASH FLOW ($00015) Total 10 -year Devel Period 15,204 15,407 13,667 Year 11 and Beyond (Annual) 2,689 2,787 2,260 Source: Bedford Properties, Inc.; Douglas Mood & Associates; T&B Alternatives Report of Regional Power 3/19/91 Center Center BUILDING SPACE (SF) Retail Camnercial Core 1,125,000 1,125,000 800,000 Other Retail -Type 500,000 500,000 500,000 Fast Food/Restaurant 27,000 32,000 32,000 Financial Office 13,000 16,000 16,000 Hotel 125,000 175,000 250,000 General Office 810,000 810.000 1,260,000 Total 2,600,000 2,658,000 2,858,000 # HOTEL ROOMS 250 350 500 PRa7ECPED CASH FLOW ($00015) Total 10 -year Devel Period 15,204 15,407 13,667 Year 11 and Beyond (Annual) 2,689 2,787 2,260 Source: Bedford Properties, Inc.; Douglas Mood & Associates; Table At SAVARY CASH FLOW (IN 1998 LTtSTANT Da.LARS) Alternative At Regional Center CITY OF TETECIU FISCAL IMPACTS Temecula Regional Center Specific Plan le -Year Developaent Period Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr IB 2 MING ITEMS 7 1 I Revenues 67 i Secured Property Tax -Fire 788 i Secured Property Tax General 959 T Property Tax -Unsecured 175 B Sales Tam 18,691 a Transient Dmpawy In 912 a Franchises a I Civil Penalties a ? Traffic Fires e 1 Property Tranef Tax -Resale 1 I Motor Vehicle In Lieu a S Cigarette Tax / i State bas Tax 1 r Total Revenues 21,514 Expetditurea Owls 1342CR2 2X2 84/14/91 Year 11 I geyord 7 7 51 67 76 125 134 132 168 168 9 9 62 8t 93 152 164 185 254 204 2 2 11 15 17 28 311 34 37 37 234 234 1,769 1,954 1,954 3,011 3,010 3,263 3,263 3,263 11 e 0 8 a 190 1911 190 332 332 e e e e 1 e e 0 a e e e 1 e e e e e e e 1 e e 1 1 1 a e 1 1 1 e e e e e e e e e 1 e e e e 1 e e e e e e e 0 1 e e e e e e e e 1 / 1 e e e e 252 252 1,891 2,116 2,140 3,514 3,528 3, 824 4,184 4,104 I Poli" Protection 4710 1 25 25 191 tri 267 431 459 314 SSB I Animal Control e 1 1 a e a 1 / 1 0 0 ! Fire Protection 4065 8 19 19 146 " 182 m 320 358 392 425 1 Street Maintenance 261 7 12 27 27 31 31 31 31 31 31 1 Park Maintenance 0 8 e e a 0 B 0 8 8 e S Recreation services 0 1 a e 0 0 1 a 0 e 8 i Adainistration 1,007 1 11 14 73 90 lee 158 168 107 203 r Total Expenditures I 6,041 8 67 86 437 543 683 949 1,089 1,124 1,218 I Net Surplus/(Deficit) I 15,470 (1) 185 166. 1,437 1,573 1,53! 2,99 4519 4699 2,787 -i To Expenditures 256.0 (100.8) 2732 192.6 333.3 289.0 255.0 269.4 249.8 24&0 228.0 2.787 228.8 e e 1 D&TIME ITEMS e i Revenues e Property Transfer Tax --Nem a i Fire Mitigation Fees 797 Development Control Fees 1,518 1 Total i 2,315 Expenditures fie Fire Capital Facilities 797 I Development Control Services 1,510 Total 2,315 Net surplus/(Deficit) e -i To Expenditures e.e Continued on next page............ 90 2.787 228.8 e e e e e e e e e e e e 36 e . 237 fie 41 234 41 78 63 0 e 6e a 480 139 90 439 as 158 Re e a 104 0 637 289 128 671 128 236 293 8 a 36 a 237 68 41 234 41 78 63 e e 68 0 409 139 a0 431 88 159 149 a 0 104 1 637 298 128 Sit 128 236 283 9 e e e e e e e e e 1 e N/A La N/A 0.8 U 11.0 0.6 1.8 &0 0.e- N/A 61 Table At 62 SYIBBIRY CAM FIAT (IN 1996 63 CITY ff TEMEW FISCAL 1 64 Tesecola Regional Cmter 6 65 66 67 IB -Year Bevelopeent Period SB Ites Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr IB 69 71 71 72 73 10TAL MMIN6 I QBE -TIDE ITEMS 74 75 Revenues 23,229 8 356 76 77 Expenditures 8,339 8 171 78 79 NetSurplus/(Deficit) 15,478 (8) 183 88 81 —f To Expe:ditum IBS 1 1116.8) 1821 82 83 - 84 85 B6 87 BB 89 98 91 92 93 94 95 96 97 98 99 181 111 182 103 IH 185 IK 187 IBB 1e9 118 III 112 113 114 115 116 117 IIB 119 WOW DR1185) MPAm nific Plan Alternatta At ReglovIal Center 120 Source: The Leva,der Coepany, Im. See detailed tables. $MIS 252 4318 2,324 21268 4,173 3,636 4,059 4,287 86 1,874 750 731 1,620 1,137 1,368 1,421 166 1,457 1,373 1,537 2,533 2,319 2,699 2,787 192.6 135.7 289.6 210.3 137.7 221.6 198.4 196.1 1342M 4372 84/04/91 Year it I k7o:d 4,004 1,210 2r 787 228.8 121 Table A2 1112[82 122 DEVELmw SCEIt1E Alternative A: Regional Center 5372 123 CITY OF TDFW FISCAL I)MACfS 84/64/91 124 Temecvla Regional Center Specific Plan 125 126 127 IB -Year Development Period Year 11 126 It" Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr le 1 Beyond 129 138 RSIDD7TIAL WITS COMM 111 1 132 e 133 8 134 135 136 117 Total e e e e e e e e 0 0 0 0 136 -CmIative 0 1 e e e e 1 e e e e 139 146 RESIDENTIAL AGES DEt47DM 141 61 142 6e 143 144 145 146 147 Total 69 0.0 0.8 61 6e 61 6e 61 0.0 6e 68 60 146 149 0OPERCIAL WILDING SPACE 158 CO40.M (MI's SF) 151 Rau Retail Commercial 1,125.0 7/8.8 425.8 152 other Retail -Type 508.0 100.0 90.e 968 190.0 120.1 153 Fast Fond/Restaurant 32.8 12.0 3.0 11.0 6.0 1154 financial Offim 16.8 8.0 61 155 Hotel 1359 Rooms) 175.1 100.9 75.8 156 General Office eia.e 135.1 135.0 135.0 135.1 135.9 135.0 157 Total 2,650.1 6e 1261 8.0 796.0 22A9 115.1 779.0 135.9 261.0 2161 0.0 158 159 CIM COlERCIAL KM SPACE (000's SF) IW Ball Retail Commercial 1,125.8 8.9 68 68 780.0 706.8 700.9 1,125.1 1,125.8 1,125.0 1, 123.e 1,125.9 I61 Other Retail -Type 500.0 8.9 180.1 189.0 190.0 288.0 280.8 380.8 389.8 SIB.0 506.8 500.9 162 'Fast Food/Restawant MI 0.8 12.0 12.0 12.1 15.0 15.9 26.0 26.1 32.e 32.1 32.e IW Financial Office 16.9 0.1 1.0 8.8 8.1 8.0 8.1 16.8 16.0 16.0 16.8 16.0 164 Hotel (350 Roomm) 175.1 60 9.8 60 6e 0.0 8./ 106.0 1e0.e 100.8 175.0 175.1 165 seal office BILI 0.8 0.0 0.8 0.0 135.8 270.8 495.8 540.8 675.0 016.6 810.0 166 Total 2,650.0 6e 129.8 1260 910.0 1,138.8 1,273.0 2,600 4187.0 2,448.1 2,658.1 2,658.0 167 168 COOEICIAL LM A.9Elt 169 DEVELOPS (ACES) 170 Ball Retail Commercial 168 8.1 61 68 49.8 69 60 10.2 1.0 L9 0.1 0.0 171 Ocher Retail -Type 37.1 0.0 7.4 0.8 6.7 6.7 0.0 7.4 0.0 8.9 0.6 8.0 172 Fast Food/Restaurant 2.4 68 8.9 0.8 0.9 62 6.8 0.8 0.8 11.4 1.1 e.e 173 Financial Office 1.2 0.0 0.6 0.8 1.0 9.0 0.0 0.6 6.1 8.0 0.0 0.1 174 will 1359 Rooms) 7.e 8.8 e.e 0.1 0.1 8.0 e.e 4.e 0.6 1.8 3.e 1.0 175 6eneralOffice 47.7 0.0 e.9 0.8 e.e 8.0 e.6 8.0 8.0 8.0 8.9 0.0 176 Total 175.3 0.8 8.9 0.8 56.4 14.8 8.8 51.9 6e 17.3 11.0 60 177 178 MAL RES/COM ACRS DEYELOPEB 175.3 68 69 0.9 56.4 14.8 0.0 51.8 1.0 17.3 11.8 0.9 179 180 Sources Bedford ProPertiesi The Lavender Company, Inc. IBI Table A3 192 CM Alternative At Regional Center 13 S. 183 (IF CIUWASIOUS CITY ff TF]ELLLA FISCAL IImPL75 Temecula Regional Center Specific Plan 94184 185 186 RESIDENTIAL WIT FACTORS -Per Capita Taxable Purch- meERC1A1. FRCIBRS 187 Not - % e Amt !Ise Rent —Per g Taxable Saln- Sales - Population Bevel Unircor Unircor Bldg Sp Hotel Bldg Sp Devel per g I 189 189 198 Per Units Value County �y Per Ac Boxes Per Room Valve f to Act to Annual Chit Per Rc Per Unit Total Stores Stores Ig) Per Ac (g) Per SF Total Non Res Ib r -op, Sales 1,1 191 . 192 193 194 — In 1998 Constant t — In 1998 CxrataM. i 195 1% Kill Retail Commercial 14, eS3 MRS 175.88 lee.e 175. Be 197 Other Retail -Type 13,580 HOAR 175.08 100.8 175.09 198 Fast Food/Restaurant 13,588 130.M 3M ell 1e8.0 3e8. to 199 Firercial Dffiom 13,508 130.08 8.88 1.0 1.00 Hotel 1358 Roos) 25,088 58 5" 148.89 e.BO LO bee 23.73 201 Average General Office 16,981 139.00 8.18 8.9 B.eo 202 Average 15,163 114.2e LOS e.0 LN 203 281 205 le -Year Development Period Year 11 2% Item Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr B Yr 9 Yr to B Beyond 208 289 POPIIATIM ADDO 210 211 1 1 0 0 8 0 0 0 0 e -0 0 212 0 8 0 8 0 e 8 1 1 1 e 0 213 0 e 0 0 8 0 0 8 0 0 e 0 214 0 1 e 1 0 1 0 0 1 8 8 e 215 216 217 Total I 1 0 8 e 8 e 8 0 0 0 0 218 219 DAUT1VE POWTIN 228 221 I e 0 0 0 0 0 0 e 0 8 1 222 0 0 0 e / 0 0 0 8 I 1 e 223 e 0 e 8 I e e e 0 0 1 0 224 8 1 1 8 1 1 e 0 1 0 0 0 225 226 227 Total _ 0 1 e 8 8 e 6 1 e 8 0 0 228 229 E1@lMMW ADDED E38 271 Nall Retail Comancial X31 a. 260— e e 8 1, 4ee e 0 858 0 8 0 e 272 Other Retail -Type Kato 4rm 8 208 8 too in B 288 0 24B 1 0 233 Fast Food/Restaurant 168 1 6e e e 15 0 55 B 30 e 0 234 Financial Offiom 56 1 2e 1 e 0 8 EB e e 0 I 275 Hotel (358 Rocmf) 175 B 8 8 0 8 1 lee 1 0 75 0 236 Genera O/fix 2, S35 0 1 0 0 473 473 473 473 473 . 473 0 277 Total -0 288 a 1, 58e 668 473 1,786 e e e: 8 2336 ---Cumulative 720 e 288 2811 1, Abe 2,536 3, US 4,714 4,714 4,714 4,714 4,714 248 Continued m next page .................. " 241 Table RT (Continued...... page 2) Per Am (1) 1342M 242 DEVEIDPNEIff IEAE111ES Alternative Al Regional Center am 243 CITY OF TEIEW FISCAL IMPACTS 84/04/91 244 Tommie Regional Center Specific Plan 255 245 1 256 ADDED EACH YEAH (s008's) 246 257 Res/Ccs Developed Acres Only 247 0 -Year Dralopsmt Period Year 11 248 Itm Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 0 Yr 9 Yr 18 1 Beyad 249 261 e e 250 EXISTING AS`.E.M NEIE Per Am (1) 251 252 Total Amount (000'5) 2S3 254 lard Arca 255 NEW DEVEIDANET7T NUE 1 256 ADDED EACH YEAH (s008's) 257 Res/Ccs Developed Acres Only 258 Residential 1 259 8 250 e 8 261 e e 262 e / 263 e 1 264 e e 265 Total Residential 8 266 1 e 267 Commercial e 258 Mall Retail Comm, let 112,580 269 Other Retail -Type 55,000 270 Fast Food/Resteerant 4,161 Z71 Financial Office 2,000 272 Hotel 1350 Rooms) 24, SIR 273 General office 195,300 274 Total Commercial MI, 540 275 e e 276 Total IM Deni Value 393,50 277 - Cusulative e 278 e e 279 Total Sgl-Fee 1 288 --Ctmlative e 291 e e 282 FXISTI60 ASSESSED NUE e 283 RE SLED Ise20'st e 284 Residential e 285 Commercial 13,083 286 Total 13, BBS 287 42,500 8 288 ASSESSED NUE OCNEASE (a8¢0's) 1 289 Residential 0 296 Commercial 290,456 291 Total 290,456 2% 1 0 293 Mr"TIVE ASSESSED NUE e 294 INCREASE (e808's) 1,430 295 Residential 1 2% Commercial 298,456 297 Total 290,456 298 1,040 1 299 1- / 300 Cwtinaed on neat page .................. 0 13,104.5 Per Am (1) Total lard Arca 65,180 1 201.3 Acres) Res/Ccs Developed Acres Only 74,60 1 175.3 Ams) e e e e e e e e e e e' e e 1 e e 1 e 1 e 1 e e e e e e e e e e e e e e e e e e e e e e e e e e e e e e e 1 e e e e e e e e e e e e e e e e e e e e e e e e / 1 If 78,181 0 8 42,500 8 e e 1 0 II,/B1 0 9,900 9,920 0 II,e80 8 13,200 1 1 0 1,560 8 e 3% 1 1,430 / 780 1 0 0 1,011 1 1 0 1 1,040 1 0 1- / e e 0 e 0 8 14, BBB 8 e le, 5e0 1 8 8 0 0 17,550 17,550 17,558 17,551 17,550 17,558 1 1 13,680 0 79,908 Z7, 811 17,550 87,520 17,558 311,530 20,055 0 0 13,600 1 79,900 27,840 17,558 87,520 17,558 31,530 28,05E - e 8 13,686 13,688 93,500 121,30 138,898 226,410 243,961 275,498 383,540 303,540 0 e 1 e 1 0 8 8 8 e e 0 1 1 0 1 0 e 1 8 1 1 e e e e e e e e e e e 0 664 a 4,213 1,108 593 3,1106 593 1,290 817 8 0 664 1 4,213 1,106 593 3, SM 593 1,291 817 8 e e e e e 1 e e e 1 e e 12,936 0 75,687 26,732 16,957 83,714 16,957 38,241 27,233 0 e 12,936 a 75,687 26,732 16,937 93,714 16,957 30,240 27,233 0 e e e e e e e e e e e e 12,936 12,936 68,623 115,356 132,312 216,026 232,983 263,223 290,456 290,456 e 12,936 12,936 B8,623 115,356 132,312 216,026 232,983 263,223 292,456 290,456 311 3112 Table A3 (Continued...... page 3) 1342[R2 3B3 DEAh1DP1IX1 MEASM CITY OF TIMMIA FISCAL IMPACTS Alteative n As Regional Center g2 � 704 Ta la Regional Center Specific Plan 11/7 4/91 385 306 307 3118 Itee 10 -Year Developaent Period Year tl 309 Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr i8 1 Beyond 319 ANIM TAITABLE SALES U✓CIUSES - -- -- 311 T8 CITY (70B0's) 312 313 314 Residential Purchases 315 316 0 1 e e e 0 1 0 e e e e 317 1 1 8 e 0 e e 1 e e 9 e e 9 e e 1 318 8 9 9 9 0 8 8 e 9 e "1 e 0 e e e 319 A 1 1 e / 0 e 1 B 1 1 e e 321 Total Res Purch e 9 e B 1 / e e 0 1 0 e e e 0 e 9 G 322 0 11 B 1 0 0 323 324 Regional Center Establisheent Sales 323 Mall Retail Caseercial 1,155, 11BB 0 e 0 122,580 122,500 122,588 196,975 1%,875 195,875 196,975 106,875 326 Other Retail -Type 474,258 a 17,580 17,90 33,29 49,8011 49,888 66,389 66,509 87,580 87,500 07,500 321 Fast Food/Restaurant 54,608 8 3,6110 3,689 3,680 4,508 4,500 7,808 7,800 9,600 9,600 9,689 320 Financial Office 8 0 0 0 9 8 9 8 e 8 329 Hotel 139 Rooes) 1 / 0 0 e e e 0 0 1 330 General Office 0 8 8 8 9 8 a 9 0 e 0 e 0 e 331 332 Total Estab Sales 1,683,99 8 21,100 21,1eB 159,351 176, BHB 176, Me 271,175 211,175 2^.3,975 1 293,975 e 293,975 333 334 Tota Tax Sales Increase 1,683,89 0 21,100 21,100 159,39 176,009 176,708 271,175 Z71, 175 293,915 293,975 293,975 335 WIM ROM SALES IseeB's) 336 337 Total 11,269 e 1 0 0 1 0 2,373 2,373 2,m 4,12 4,152 338 RRIC STREET MAINTENANCE CIBIR¢0 III PROECT (IN LANE MILES) 339 Maya Streets 340 Winchester Road (2-4 Lanes) 1.36 0.68 0.68 341 Yrce goad (2 -Lanes) 1.12 1.12 342 Margarita Road (2 -Lams) 2.76 1.83 1.63 343 Ibricot goad (2-4 Lanes) 6.61 8.61 344 Loop Street 0 (4 -Laws) 2.73 1.36 1.36 345 Street A (4 -Lams) 1.61 IL61 346 8.98 347 Total 8.48 1.Be 1.36 4.29 0.9 1.83 0.^1 LOS 0.08 5.811 0.80 0.80 349 349 Neighborhood Streets 150 Factor 23L0 Lima] Feet Per Developed Single-Fasily Residential Ane 151 7 Lam Lineal Feet 1 0 e e 0 1 0 e It e e 352 7 Lane Niles 0.90 0.81 0.M LOB LOB 8.98 LOB LOB 0.00 0.89 Les e 8.00 353 3554 Total All Streets 8.48 1.80 1.36 4.29 Lee 1.63 0.88 8.10 9.00 8.01 0.91 0.00 ori --Cueulative 1.69 316 7.45 7.45 8.48 8.40 8.48 8.48 8.48 0.411 8.48 3% 357 PAR ACRES TO BE MAINTAINED BY CITY 39 B Aces 8.0 0.e 0.9 8.8 Le 0.0 8.1 0.9 0.e 11.0 0.9 0.e 359 -Cusulative 0.8 0.4 0.0 0.0 0.0 8.1 9.6 6.1 0.0 368 Source: Bedford Properties; The Levardur Cospany, Inc, 351 Table At 1342M 362 IEVEIBE AND COST FMCIBN6 (IN 1998 CONSTANT BRIARS) Alternative Al Regional Center &M 363 CITY OF TEIECWI FISCAL IMPACTS $4/84/91 364 Temecula Regional Center Specific Plan 365 366 367 368 369 Item 378 8.17 371 372 =INS ITEMS 373 374 Revenues 375 Secured Property Tax—Fire 376 Secured Property Tax—General 377 Property Tax—Unsecured 378 Sales Taxes 379 Transient Occupancy In 381 Franchises 381. Civil Penalties 3B2 Traffic Fires 387 property Tramf Tax- Resale 384 Motor Vehicle In Lies 385 Cigarette Tax 386 State Sas Tax 387 388 389 Expenditures 390 Police Protection 391 Animal Control 392 Fire Protection 393 Street Maintenance 394 Park Maintenance 395 Recreation Services 3% Administration 397 398 399 IND RE -TIME ITEMS 401 412 Revenues 463 property Transfer Tax Ne 484 Fin Mitigation Fees 405 Development Control Fm 486 407 108 Expenditures 109 Fire Capital Facilities 411 Development Control Services 411 412 413 14 415 416 417 410 419 128 Source: The Levarder Company, Inc. Per Per SF Per Per per Per per Res Core Hotel Bevel tare/Lin f 11,000 Capita Wit Bldg Sp Room Acne Mile 177 7.93 18.88 1.11 LOO 6.44 8.17 219 8.879 33.27 1.89 1250. 101.16 8.218 3.44 130.00 8.168 18.88 20.08 38.81 8.551 0.58 8.50 /66.89 8.388 466.00 8.308 s of $1.08 Per uee A.P. In Ratel Applied to Cme New Bevel Yal Increase ITa M of Secured Property Taw (Table All. s of Taxable Sales (Table N). It of Room Sales (Table A3). Applied to Cumulative Population (Table 3). Applied to Cumulative Population (Table 31. Applied to Cumulative Population (Table 31. Applied to Cum Mm Devel Value— Residential Only (Excl Apartments) (Table X Applied to Cumulative Population (Table 93). Applied to Cumulative Population (Table AD. Applied to Cumulative Population iiable All. Applied to Cum Population A Building Space Completed Each Year (Table 112). Applied to Cumulative Population (Table ATI. Applied to Cum Residential Units (Table A2) A Building Span Completed (Table 3,689 Applied to Cumulative !are Miles (Table 0.31. 6,080 Applied to Park Acres iTable 0.3). Applied to Cumulative Population (Table AD. Applied to Total of Other Expenditures (Table All. Applied to Annual New Devel Value— Residential Only (Excl Apartments) (Table Applied to Residential Units A Building Span Completed Each Year (Table A21. i of Ncvr Denlopmerd Value Added Each Year liable All, Applied to Residential Units A Building Spam Completed Each Year (Table A21. Y of New Development Value Added Each Year (Table A3). I Table Al 2 Se1WNY CASH RON (IN 1990 CDGTANT MIM) 3 CITY OF TDOW FISCAL IMPACTS 4 Temecula Reginal Center Specific Plan 5 e 6 7 7 78 a Item 9 164 10 189 Il 1 12 ROWS ITEMS 13 94 14 Revenues 15 Secured Property Tax -fire 16 Secured Property tax Se m at 17 Property Tax--Onsecured 18 Sales Taxes 19 Transient Occupancy In 2e Franchises 21 Civil penalties 22 Traffic Fines 23 Property Trarsf rax -Resale 24 Motor Vehicle In Lieu 25 Cigarette Tax 26 State Gas Ta 27 Total Revenues 28 2,632 29 Expenditures 38 Poll" Protection 31 Animal Control 32 Fire Protection 33 Street Maintenance 34 Park Maintenance 35 IMseation Services 36 Administration 37 Total Expenditures 38 e 39 Not Surplus/(Deficit) 48 e 41 -% To Expenditures 42 e 43 QE -TIME ITEMS 44 e 45 Revenues 46 Property Transfer Tax -tem 47 Fire Mitigation Fees 48 Development Control Fees 49 Total 58 51 Expenditures 52 Fire Capital Facilities 53 Development Control Services 54 Total S e 56 Net Surplus/(Deficit) 57 e 58 -% To Expenditures 59 e 68 Continued on next page............ m m m m Alternative B, pow Center 19 -Year Derelopmen'. Period Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr a Yr 9 Vr U 9808's 1342CM S 372 84/04/91 Year It A Beyond 86e e 7 7 57 78 93 125 141 164 189 189 1,848 1 9 9 69 94 113 153 ill 199 231 230 191 8 2 2 13 17 21 28 31 36 42 42 16,748 a 234 234 1,963 2,148 2,148 2,379 2,379 2,632 2,632 2,632 1,186 8 0 0 0 9 8 237 237 237 475 475 e 0 e e e e e e e e e e e e e e e e e e e e e e 9 e e e e e e e e e e e e e e e e e e e e e 9 e e e e e e e e e e e e e e e e e e e e e e e e e 20,833 a 252 252 2,181 2,337 2,374 4922 4959 4268 3,567 3,567 2,863 0 25 25 212 276 320 415 459 538 See 608 e a 0 0 It e 1 0 e e e e 2, let 0 19 19 162 210 244 316 338 484 457 457 261 7 12 27 27 31 31 31 31 31 31 31 0 e e e e It e e e e 0 e e a e e e 1 e 0 1 e e a 1,861 1 11 14 Be 103 119 153 ISS 193 218 218 6,365 a 67 a6 481 621 714 915 1,899 1,158 1,387 1,387 13,667 (8) 185 166 1,620 1,716 1,668 2,816 1,958 2,118 2,268 2,268 214.7 118&81 215.2 192.6 336.4 276.6 232.6 219.2 193.4 182.3 173.8 173.8 e e e e 8 e e e 0 e e e 857 a 36 0- 267 9l 63 135 63 101 lel 9 1,788 1 68 0 450 tell 137 291 137 216 224 a 2,558 1 104 8 717 279 281 428 280 387 325 9 657 0 36 9 267 91 63 136 63 lel 191 0 1,708 8 68 a 45e 188 137 291 137 216 224 1 2,558 a 194 0 717 279 200 429 201 307 325 8 0 9 0 e 9 1 1 1 e 0 e a e.0 M/A La N/A 9.0 0.8 0.0 0.0 0.1 8.e 0.8 WA m m r m m m m m m m m m m 61 Table Al 1342[83 62 SIMRY CASH RID (IN 1991 CWWT MIM) Alternative Be Panner Carter RX2 63 - CITY OF TEIEWA FISCAL IMPACTS 64/11/91 64 Tayecula Regional Center Specific Plan Sosrcer The Lavender Caepanyl Inc. See detailed tables. I8 -Year Development Period Year 11 I Itee Total Yr 1 Yr 2 Yr 3 Yr 4 Yr S Yr 6 Yr 7 Yr 8 Yr 9 Yr 11 1 Beyond 88881 e MTAL SIMS i IBE -TIME ITEMS Revenues 22,998 1 356 252 2,818 2r 616 4574 3,349 3,159 3,575 4891 3,567 Expenditures i 8,923 8 171 B6 1, 19B 899 913 1,343 1,218 1,465 1,631 1,387 Net Broylesfftficit) 13,667 (e) 185 166 1,628 1,716 1,Ue 2, e86 1,958 2,118 4268 2,268 —% To Expenditures 153.2 (IBIS) IBL 1 19-6 135.2 198.8 181.8 149.4 161.4 144.1 138.6 173.8 Sosrcer The Lavender Caepanyl Inc. See detailed tables. 121 Table R2 122 DEVEltolENf SCHEME 123 CITY OF TDEUU FISTIL INDICIS 124 Taeecola Relioml Grder Spiclfir Plan 125 126 1V le -Yew 128 Item Total Yr 1 Yr 2 Yr 3 Yr 4 129 _ lie RESIDENTIAL UNITS CO(PI.M 00&0 Le 0.9 131 00&0 1 BBB.e $me 132 an.0 0 800,0 161 133 500.1 e 100.0 100.0 134 200.0 200.0 300.0 3Be.e 135 SM.9 50&0 162 Fast Food/Restaurant 136 0.0 12.8 12.0 12.0 137 Total e 0 0 136 --cumulative 163 e e 139 6.e 8.8 9.9 8.1 149 RESIDENTIAL ACRES BEVELM Me 16.0 16.8 141 164 e.1 250.0 0.0 142 e.0 Ll 0.0 /.1 143 125.0 125.8 258.0 250.0 IN General office 1, 26e.1 8.0 0.e 143 e.0 - 218.0 420.0 630.0 146 1, e50.9 1,26e.0 1,268.0 166 147 Total e.8 e.e &e 148 1,3130 1,5230 1,917.1 2,187.0 149 COIEICIAL BDILDIIS SPRY 2,ma. e 167 150 COMEIED (900'1 SF) 151 Retail Parr Center 099.0 12 Other Retail -Type See.e CII9ERCIAL LAHO1 AREA 108.0 153 Fast Food/Restaurant 32.0 12.0 154 Fin iml Office 16.1 &1 1S5 Hotel (500 Raoul 280 156 General (If it" 1,260.0 157 Total 2, Lao e.e 120.0 ISO Retail Power Center 56.9 e.9 0.1 159 CIN (DI ERCIAL BLDS SPAM 00's GF) Le 1.1 Alternative Bt Parr Center Development Period Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr le e 1 e e e 0 e e e e e e LB e.e e.0 LB e.e &e e.0 0.9 eee.e 90.8 9&1 188.0 128.8 3.0 11.0 Le e.0 125.0 125.e 2180 210.0 210.0 218.8 210.0 218.1 0.e MO 383.0 210.0 454.0 Me 336.8 335.0 134WO 5372 04/84/91 Yew 11 { Beyond e e 1.1 e.e 168 Retail Power Center 00&0 Le 0.9 0.9 00&0 SOL e BBB.e $me 000.E an.0 SOL e 800,0 161 Other Retail -Type 500.1 0.B 100.0 100.0 190.1 200.0 200.0 300.0 3Be.e Me.9 SM.9 50&0 162 Fast Food/Restaurant 32.0 0.0 12.8 12.0 12.0 15.0 15.0 26.0 26.0 32.0 32.1 me 163 Financial office 16.0 0.1 6.e 8.8 9.9 8.1 0.1 16.0 Me 16.0 16.8 16.0 164 Hotel 1388 Roost 250.0 0.0 e.e e.0 e.1 0.0 /.1 125.1 125.0 125.8 258.0 250.0 165 General office 1, 26e.1 8.0 0.e &0 e.0 - 218.0 420.0 630.0 840.0 1, e50.9 1,26e.0 1,268.0 166 Total 2,959.0 e.0 120.0 12e.0 1,018.0 1,3130 1,5230 1,917.1 2,187.0 4210 2,858.8 2,ma. e 167 168 CII9ERCIAL LAHO1 AREA 169 OEVELOPE➢ (ACRES) 104 Retail Power Center 56.9 e.9 0.1 0.1 56.9 Ll Le 1.1 e.1 e.e 0.1 8.e 171 Other Retail -Type 37.8 0.0 7.4 0.0 6.7 6.7 8.0 7.4 8.0 0.9 Le Le 172 Fast Food/Restaurant 2.4 0.8 e.9 0.0 be L2 0.e Le e.0 L4 , 8.8 0.0 173 Finamial Office 1.2 8.0 0.6 0.1 0.8 Le 0.8 0.6 0.0 &1 e.0 0.8 174 Hotel (508 Rooms) 10.9 8.0 8.8 0.8 0.0 8./ b0 5.8 L8 8.1 5.0 0.0 175 . Sveral Office 67.8 e.0 e./ 0.0 8.1 11.3 11.3 11.3 I1.3 11.3 11.3 &9 176 Total 175.3 e.e &9 e.0 63.6 10.2 11.3 21.1 11.3 28.6 16.3 Le m 179 TOTAL RES/MW ACRES OEt4LM 175.3 O.e 0.9 &8 636 16.2 11.3 a1 11.3 20.6 16.3 0.9 179 190 S6tmt Bedford Propertiat The Levander Company, Ins. i 181 Table A3 134 182 DEVE DmR ME0.911E5 Alternative Bs Pow Center Su 183 CITY OF TEIECU A FIMX IMPACTS N/ 184 Temecula Regional Center Specific plan 185 186 RESIDENTIAL UNIT FACTORS -per Capita Taxable P•urcb- MPWRCIAL FACTORS 187 New f e Ant 1 New —per SF Taxable Sales - 188 Population Devel Unincor Unincor Bldg Sp Hotel Bldg Sp Bevel per 4 E 189 per Units Value Camty County Per Ac Roos Per Room Value t to Ant to Annual 190 Unit Per Ac Per Unit Total Stores Stores ISF) lir Ac MSF) per SF Total No -Res No., Res Sales I,a 191- 192 193 — In 1990 Constant i — In 1990 Constant i 194 195 Retail Peer Center 14,063 180.011 175. Be IBLO 175. e8 1% Other Retail -Type 13,5118 118.08 175.00 100.1 175. Be 197 Fast Food/Restaurant 13,508 130.6 38L 08 IBLI 30L 198 Financial Office 13,508 130.80 1.00 0.1 8.00 199 Hotel 1588 Roos) 25, 0ee 51 500 140.00 0.00 & 1 0.0e 23.73 208 General Office 16,554 130.00 1.00 8.6 a. el 201 Average Average 16,36 118.98 L Be 0.8 0.00 282 203 294 26 le -Year Development Period Year 11 296 Iter Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr 11 1 Beyond 207_- 20a 289 POPULATION ADDED 210 211 a / 1 0 e 1 / 0 e a 1 1 212 1 0 1 e e e 0 0 e 0 1 e 213 - 1 1 e 0 1 e 0 a 1 1 0 1 214 1 1 t 0 i 1 e 0 0 0 1 1 215 216 217 Total a 0 0 1 1 1 e e 1 0 e e 218 219 CU M LATM POPULATION 220 221 8 1 8 1 1 1 1 a 0 1 a B 222 1 e 1 0 a 1 0 0 1 0 a 1 223 0 0 1 0 e a 1 1 0 e 1 1 224 1 e e e e e e 1 0 a e e 225 226 227 Total 8 1 0 9 e 1 a 1 1 1 1 1 228 229 EXPLOY101T ADDED 230 231 Retail Pow Center ci d° �4-,SW 1 a 1 1,608 0 e 0 0 e 1 1 232 Omer Retail -Type hoe-, a 201 a 188 IN I m 0 248 1 9 233 Fast Food/Restaurant 161 / 60 1 e 15 0 55 a 30 0 0 234 Financial Office 56 0 28 e 0 0 e 28 0 0 1 1 ' 235 Hotel (500 Rooms) 258 0 0 e a 1 0 125 0 0 125 0 236 Be* al Office 4,410 0 0 0 0 735 735 735 735 735 735 0 237 Total `lT -=4,876— 0 288 a 1,780 939 735 1,143 e- 0 e e 238 —Cumulative 0 Zea 208 2,068 2,%a 3,733 4,876 4,a76 4,876 4,076 4,676 239 240 Continued 0 rest page .................. 211 Table A3 IContimud...... page 2) 213 DEVELOPIQII MEAg)RES Alternative B, goer Curter 1342M242 gin CITY OF TEIEt10A FISCAL IMPACTS 240 Temecula Regional Center Specific Plan 01/0V91 215 216 217 210 Item 16-Year Development Period Year 1! 219 Total Yr 1 Yr 2 Yr 3 Yr 1 Yr 5 Yr 6 Yr 7 Yr B Yr 9 Yr I9 C Beyond Me EXISTINS ASSESSED VIRE 251 ' 252 Total Aroont It000's) 136081.5 per Acre 11) 253 251 Total Ind Area 65,088 1 201.3 Acres) m fEW DE�41Dp m MA Nes/Com Developed Acres only 71,619 I 175.3 Rcresl 256 ADDED EACH YEAR ISM's) - 257 258 Residential 259 260 e e 0 e e e e e 1 e e e 251 1 1 0 e 1 8 1 If 8 6 9 e 0 0 0 0 0 e O 262 0 0 8 0 e e 1 1 9 0 1 1 0 9 253 261 e / e e 0 0 / e 0 e e e 2E5 Total Residential 0 0 e / 1 0 8 0 0 0 1 0 1 e 8 6 0 9 O 266 1 / 0 e 0 257 Commercial 258 Retail peer Center 8B, ABB e e e e0, we / 0 0 0 8 1 269 Omer Retail-Type 55, ee9 0 11,008 a 9, gee 9,900 a 11,880 1 13,208 1 0 1 270 Fast Food/Restawant 1,168 8 ' 1,560 8 9 390 0 1,130 0 780 0 9 271 Financial Office 2,089 8 1,840 0 0 0 0 1,010 1 0 1 O 272 Hotel Ree Rooe:) ARM 0 1 8 0 0 E 17,509 0 0 17, see 8 273 General Office 163,808 If 8 1 1 27,300 27,300 27,380 27,308 27,300 27,3011 0 271 Total Cammmrcial 310,010 0 13, 60e 1 89,909 37,590 27,388 58,279 27,300 11,280 44,80 1 275 276 Total New Devel Value 340,840 0 13,690 0 89,90E 77,5% 27,3E9 58,270 27,300 11,280 11, NO O 277 278 -Cmlative 1 13,60 13,600 103,580 111,098 168,396 225,660 253,%0 295,240 310,60 340,940 279 Total Sgl-fu 0 9 0 - 0 8 0 1 1 e 0 9 280 . -Cusalative / e e 0 1 9 / If 0 0 O 281 0 262 EXISTING ASSESSED VYLIE 283 RERX D (s000-s) 281 Residential 0 1 e e e 0 e e If 0 0 285 Commercial 13, e85 0 661 0 1,744 1,358 644 1,875 041 1,510 1,217 O e 286 Total 13, BBS 0 661 9 1,744 1,356 SAA 1,875 641 1,510 1,217 0 287 288 ASSESSED VIBE INCREASE 14000's) 289 Residential e e e e e e e e 1 1 1 291 Commercial 326,956 0 I2,936 8 85,156 36,232 25,156 56,393 26,156 39,710 13,583 O O 291 Total 326,956 0 12,936 8 85,156 36,232 26,156 56,395 26,156 39,719 13,563 O 292 293 CIMIATIVE ASSESSED VALIE 291 INCREASE Ife00'0 - 295 Residential e 1 0 0 6 0 1 e 0 0 1 2% Commercial 326,956 0 12,936 12,936 98,092 131,321 160,781 217,176 213,633 293, 32 326,956 g 326,92 297 Total 326,956 1 12,936 12,936 98,11% 131,321 160,781 217,176 213,633 20,372 326,956 326,956 2% 299 ]PIN Continued m neat page.................. 391 Table A3 lContinved...... page 3) 1342CR3 382 BEVEL WIT MEASURES Alternative Ba Poser Curter SLM • 363 CITY IF TEMEUU FISCAL IRPACTB e4/84/91 384 Imecula Regional Center Specific Plan 305 306 387 10 -Year Development Period year 11 308 Itm Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr B Yr 9 Yr It 1 Beymd 389 318 IYIM TAXABLE SALES INCREASES 311 M CITY 11008's) - 312 313 314 Residential Nnvhames 315 0 B 0 1 e e e e e e e 0 316 1 e 1 0 e e e e e e e 1 317 8 e 8 1 1 8 1 8 0 / 1 8 318 8 1 1 1 0 1 0 0 6 0 e / 319 1 . 0 1 1 e e e e 1 B e e 320 1 e 1 / 8 1 1 e e e e e 321 Total Ren Pesch e e 1 e e e 1 e e e e e 322 323 3 4 Regional Center Establishrnt Balm 325 Retail Pour Center 980, we e 1 0 118,088 118,888 140, NO 140,080 148,M 148,800 148,900 148,800 326 Other Retail -Type 474,251 0 17,580 17,580 33,250 49,088 49,008 SS, 588 66,588 87,588 87,500 87,508 327 Fast Food/Restaurant 54, SM B 3, SM 3, S00 3,600 4,500 4,580 7,888 7,000 9,680 9,680 9,680 32a Financial Office 1 0 0 1 0 0 1 0 1 0 e e 329 Hotel (500 Ram) e 1 1 e e e e e e e 1 e 338 General Office e e e e e e 1 e e 0 e e 331 Total Estab Balm 1,500,058 8 21,108 21,180 176, SSB 193,50e 193,500 214,308 214,308 237,1L0 237,lee 237,180 332 333 Total Tax Salm Increase 1,588,851 1 21,100 21,108 176,850 193,58! 193,588 214,388 214,380 237, IN 237,100 237,10E 334 335 A K ROM SALES 11000191 336 Total 14,828 e e e e e e 2,%6 4966 4966 5,331 5,931 337 338 MIC STREET MRINIENARCE BARBED m PROJECT (IR LAE RILES) 339 Major streets 348 Winchester Road 12-4 Lnesl 1.36 L60 O.SS - 341 Ynez Road (2 -Lanes) 1.12 1.12 342 Rargarita Road (2 -Lancs) 2.06 1.63 1.33 343 Apricot Road (2-4 Lares) L61 L61 - 344 Loop Street B 14 -anal 2.73 1.36 1.36 345 Street A 14-Laresl 1.61 0.61 346 0.00 347 Total 8.40 1.81 1.36 4.29 US 1. Ill Leg 8.80 LOB LOB LBB 8.80 340 349 Neighborhood Streets 35B Factor 230.8 Lineal Feet Per Developed Single-Faeily Residential Acre 351 1 Lane Lineal Feet e 1 1 1 0 e e e e 0 8 8 32 1 Lane Miles LOB L00 IL So 0.e0 LOS 0.80 9. se 0.08 8.00 LOD LOB LOS 353 354 Total All Streets S.48 1.80 1.36 4.29 0.00 1.W S. IS 0.88 8.88 0.88 8.88 Lee 355 --Cneulative 1.80 3.16 7.45 7.45 0.48 8.48 8.48 8.48 8.48 8.48 8.48 356 357 PAL( ACRES To BE MAINTAINED BY Cm 358 1 Aces B.e 8./ /.0 Le 0.e Le 0.9 &1 Le 0.9 ae 0.0 359 --cwelative 0.8 0.0 9.1 e.1 1.1 9.6 0.0 8.8 e.e 0.9 0.8 360 Source: Bedford Propertiml The Levarden Cospany, Inc. 361 Table At 362 REVENF W CST FACT085 (IN 1998 METANT DCLLAA5) Alternative At Power Center 363 CITY OF TEMEClU FISCAL IMPACTS 764 Tesecula Regional Center Specific Plan 363 366 7.63 367 368 369 Ites 379 % of Taxable Sales (Table Ali. 371 372 RSOING2 ITEMS 373 - Applied to Cusulative Population tTable 3). 374 Revenues 373 Secured Property Tax—Fire 376 Secured Property In General 377 property Tax-Ahnnecured 370 Sales Taxes 379 Trim int Occupancy Tax 388 Franchises 381 Civil Penalties 382 Traffic Fires 383 Property Transf Tax—Resale 384 Motor Vehicle In Lieu 383 Cigarette Tax 366 State Gas In 387 388 3,689 Applied to Cusulitive (are Kiln (Table AU. 389 ;Expenditures 391 Police Protection 391 Anisal Control 392 Fire Protection 393 Street Maintenance 394 Park Maintenance 393 Recreation Services 3% Administration 397 398 399 448 X -TIME ITEMS 401 482 Aevenues 483 Property Transfer lax -tea 404 Fire Mitigation Fees 403 Development Control Fees 486 407 488 Expenditures 489 Fire Capital Facilities 418 Development Control Services 411 412 413 414 415 416 417 418 419 428 Sourest The Levander Cospany, Inc. i Per Per SF Per Per Per Per Per An Com Hotel Bevel lane/Lin % 41,108 Capita Unit Bldg Sp Aon Acre Mile 1342LM 9.372 84/84/91 5.77 % of 81.08 per 7110 AV. In Patel Applied to Con New Bevel Val Increase C 7.63 10.66 % of Secured Property Tax (Table All. 1.11 % of Taxable Sales (Table Ali. 8.80 % of Roos Sales (Table AD. 0.N - Applied to Cusulative Population tTable 3). 6.67 Applied to Gmulatin Population (Table 3). 2.19 Applied to Cusulatin Population (Table 3). 1.179 - Applied to Gu New level Value— Residential Bnly (Excl Apartsents) (Table 33. B7 Applied to Cmdative Population (Table 93). 1.09 - Applied to Cusulative Population (Table ATI. 12.58 Applied to Cnulative Population liable All. - 181.16 6.216 3.44 Applied to Cm population s Building Space Completed Each Year (Table 921. Applied to Cumulative Population (Table All. 130.66 0.168 Applied to Cus Residential Units (Table A21 6 Building Spare Cospleted (Tab 3,689 Applied to Cusulitive (are Kiln (Table AU. 6,we Applied to Park fires 17able All. 10.68 - Applied to Cusulative Population (Table All. 20.60 38.81 Applied to Total of Other Expenditures (Table RI1. 1.5% - Applied to Annual Men Bevel Value— Residential Ad!Y IExcl Apartments)(Tab( 466.11 1.380 Applied to Residential Units t Building Space Capleted Each Year (Table A21 1.51 % of New Developsent Value Added Each Year (Table Ai). 466. Be 0.388 Applied to Besidntial Units 8 Building Space Cospleted Each Year liable A21 1.31 % of Nen Development Value Added Each Year (Table AT). M M � = M M M I I CJ 1 C] 11 FISCAL IMPACT ANALYSIS TEMECULA REGIONAL CENTER SPECIFIC PLAN --CITY OF TEMECULA— Prepared For Douglas Wood & Associates November 9, 1990 J4� M Natelson Levander Whitney, Inc. 1815 Via E1 Prado, Suite 308 Redondo Beach, California 90277 Tel: (213)540-1549 1 1 1 1 1 pV\:llWiTi Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . 1 I. Executive Summary . . . . . . . . . . . . . . . . . . . . . . 3 II. Development Program and Measures . . . . . . . . . . . . . . 5 1. Land Use and Building Facilities . . . . . . . . . . . . 5 2. Buildout Schedule . . . . . . . . . . . . . . . . . . . 5 3. Population . . . . . . . . . . . . . . . . . . . . . . . 5 4. Employment . . . . . . . . . . . . . . . . . . . . . . . 5 5. New Development Values and Assessed Value Increase . . . 5 6. Taxable Sales . . . . . . . . . . . . . . . . . . . . . 7 7. Roam Sales . . .. . . . . . . . . . . . 7 8. Public Streets to be Maintained . . . . . . . . . . . . 7 9. Flood Control Facilities . . . . . . . . . . . . . . . . 8 III. Riverside County Revenue Factors . . . . . . . . . . . . . . 9 1. Ongoing Items . . . . . . . . . . . . . . . . . . . . . 9 2. One -gime Items . . . . . . . . . . . . . . . . . . . . . 10 IV. Riverside County Expenditure Factors . . . . . . . . . . . . 12 1. Ongoing Items . . . . . . . . . . . . . . . . . . . . 12 2. One -Time Items . . . . . . . . . . . . . . . . . . . . . 13 V. Detailed Projections and Fiscal Model . . . . . . . . . . . . 14 Appendix. . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Introduction At the request of Douglas Wood & Associates, and on behalf of their client Bedford Properties, we have prepared this fiscal impact analysis of the Temecala Regional Center Specific Plan. The subject site is located within the newly incorporated City of Temecula. This is the second fiscal analysis we have prepared of this project. At client request an earlier ' analysis was prepared under the assumption that the project remained in unincorporated County area. Because of tine limitations, this analysis utilizes a considerable amount of detailed research prepared for the ' earlier analysis, particularly evaluation of service requirements and costs thereof. No detailed contact was made with City officials. Thus, our analysis is subject to revision at a later date to incorporate City inputs. ' However, we are confident that this analysis presents a fair statement of overall fiscal impacts of the Temecula Regional Center Specific Plan on the City of Temecula. ' An accepted revenue -cost methodology has been utilized including: o Utilization of 1990 constant dollars without consideration of ' future inflationary impacts on either revenues or expenditures. o Case study analysis of those revenue items which are most directly affected by new development activity; principally property taxes, sales taxes, and room taxes. o Case study analysis of those services which are most directly ' affected by new development, principally police protection, fire protection, and street maintenance. o Utilization of appropriate projection factors (per square foot, per acre, per lane mile, etc.). o Assumption that the level of governmental services to be provided to the area under study will be equal to those currently prevailing in the City. ' o Assumption that existing sources of revenue will prevail. In this analysis, we are dealing with a projected ten-year development ' period. Within this timeframe, we have considered both annual (ongoing) financial items and one-time financial items, the latter involving cost and revenue aspects of the development process itself. ' This analysis utilizes information from the following sources: ' o Project description from the draft environmental impact report prepared by Douglas Wood & Associates. 0 officials of Bedford Properties, the developers of the Temecula Regional Center, who have provided information on ccnmk-rcial land uses, and anticipated buildout schedules. o Discussions with the acting Planning Director for the City of Temecula o Discussions with Riverside County officials concerning costs of providing contracted services, including police protection, fire protection, and street maintenance. o Riverside County Assessor rolls, providing measures of current assessed values. o Discussions with Riverside County Auditor -Controller concerning property tax rate allocations, which have not yet been established by County staff for the City of Temecula. o Reports from the State Board of Equalization providing a basis for more closely identifying the effective sales tax rate realized by the City of Temecula. 0 our file of prototypical new development measures, obtained from extensive prior research, covering development densities, new development values, and taxable sales generation factors for coamiercial land uses under consideration. We want to note that the projected development utilized in this analysis— in terms of both land use and timing—is based upon expectations of the developer and his planning consultant. We have not undertaken an independent market analysis of the project. This report is summary in nature, presenting principal findings and conclusions, including an Executive Summary in Section I following. Appendix A contains detailed computer calculations covered in this report. With respect to the coupiter calculations, it should be noted that the commuter program is available to prepare alternate projections upon request. Appendix C contains a list of governmental officials contacted. Additional research data are available from our files upon request. 2 I. EXECUTIVE SUMMARY The Temecula Regional Center Specific Plan project enccmpasses a lard area ' of approximately 241 acres, and is planned for over 3.0 million square feet of commercial building space including a 375 zoom hotel. This development is projected to occur over a ten-year period. ' Key measures of resultant development at full buildout are as follows: ' o New development values (to go on Assessor rolls) of $345.9 million, versus $15.7 million assessed value currently. o Taxable sales of $374,4 million annually. o Room sales of $4.4 million annually. 1 1 I I L1 L1 I These measures have been used to compute various revenue and cost estimates. All dollar figures are in 1990 constant dollars. The Temecula Regional Center project is estimated to provide a net surplus to the City of Temecula of approximately $21.1 million during the ten-year development period and $3.6 million annually thereafter approximately, as follows: ��L Secured Property Tax—Fire it n It general Unsecured Property Tax Sales Tax Transient Occupancy Tax One -Time Items Total Expenditures Police Protection Fire Protection Street Maintenance Administration Ore -Time Items Total Net Surplus 3 10 -Year Year 11 Development & Beyond Period (Annual) $000's $ 928 $ 191 1,130 232 206 42 24,921 4,156 925 356 2.635 — 30,744 4,977 3,183 634 2,425 483 261 31 1,174 230 2.635 — 9,678 1,377 21,066 3,599 217.7% 261.3% These projections are in 1990 constant dollars. As indicated above, the principal revenue by far is sales tax generation. As also shown, the cost of fire protection—which is assumed to be taken over by the City—will be substantially more than fire protection taxes to be transferred to the City. In this respect, we feel that our projections are appropriately conservative. Please refer to Appendix Table Al for annual summaries and Appendix Tables A2 thru A4 for detailed calculations. 4 II. 1 DE'VEMPMMENr PROGRAM AND MEASURES 1 1. LAND USE AND BUILDING FACIIS'IIFS ' Projected land uses, as detailed in Table 1, include a major retail commercial core and a 375 room hotel. Acreage allocations and coverage for commercial use were provided by project planners. Further definition of i commercial building space is based upon our discussions with the developer, as well as our prototypical files. Commercial building space is projected to be constructed within a ten years. The buildout schedule has been provided by the developer. Detailed annual quantities for individual categories are found in Appendix Table A2. 3. POPULATION ' Because no residential development is included in this project, no population is projected in this analysis. 4. EMPLOYMENT Temecula Regional Center commercial facilities will employ an estimated 7,766 persons at full buildout, based upon prototypical employment factors detailed in Appendix Table A3. This measure is not utilized directly in mutation of detailed revenues and costs. ' 5. NEW DEVELOPMEKr VA= AND ASSESSED VALUE INCREASES ' Existing &s --sed value of the property is $15.7 million, based upon our review of detailed assessor parcel records. At full buildout, we estimate new commercial facilities will be valued at $345.9 million. This figure is expressed in 1990 constant dollars, without consideration of ongoing inflation. In detailed property tax computations, we have utilized a net increase figure of $330.2 million. ' Detailed projections by land use and year are presented in Appendix Table A3. Prototypical commercial valuation factors have been utilized, ranging 1 5 Table 1 LAND USE & BUILDING FACILITIES AT FULL BUILDOUT Land Camnereial Commercial Area Building Building Space (Acres) Space (SF) Per Acre COMMERCIAL FACILITIES Retail Commercial Core 80.0 1,125,000 14,063 Other Retail -Type Buildings 51.8 725,800 14,000 Fast F004/Restaurant 3.4 48,000 14,000 Financial Office 1.8 25,000 14,000 Hotel (375 Rooms) 7.5 187,500 25,000 General Office 54.8 907,000 16,563 Total Commercial 199.3 3,017,500 FLOOD CONTROL C1iP,EaIEL 10.7 ROADS 31.1 Grand Total 241.1 3,017,500 Source: Bedford Properties; Douglas Wood & Associates; Natelson Levander Whitney, Inc. from a high of $140 per square foot of building space for hotel facilities to a low of $100 per square foot for the regional mall. ' 6. TAXABLE SALES Taxable sales to be generated by the Temecula Regional Center retail establishments are estimated at $374.4 million annually by the end of Year 10 (full buildout) . Annual projections are detailed in Appendix Table A3. Total establishment sales are based upon per -square -foot factors derived from our analysis of sales performance of commercial projects throughout ' Southern California. Our analysis considers vacancy factors. ' 7. ROCM SAIES This analysis assumes that a total of 375 hotel rooms will be constructed, 200 zooms in year 7 and the remaining 175 rooms in year 10. We have assumed a $50 per night room rate and a 65% occupancy level. 8. PUBLIC STREETS TO BE MAINPA= Based upon scaling of the land use map, we estimate that—at time of full ' buildout—the Temecula Regional Center will contain an estimated 3.40 street miles, as follows: # Imes Charged Street To Lane Miles Total Pr i Miles Major Streets Winchester Road 0.68 4 2 1.36 Ynez Road 0.56 4 2 1.12 ' Margarita Road 1.03 4 2 2.06 Apricot Road 0.30 4 2 0.61 Loop Street 0.68 4 4 2.73 Street A 0_15 4 4 0_60 Total 3.40 8.48 Only one-half of the perimeter streets have been charged to the project. It is assumed that maintenance for the other half of the streets will be charged to adjacent projects. ' We have also meted 8.48 total lane -miles attributable to the project as indicated above, consistent with County cost factors which are related to lane miles. The lane -mile maintenance cost generated by total has been the development. utilized in estimating Please refer to Appendix Table A3 for annual completions. 7 9. FLOOD CONTROL FACILITIES Required storm drain facilities will be constructed at the expense of the developer. Zhe ongoing maintenance will be provided by Riverside County. III. ' RIVERSIDE COUNN REVENUE FACTORS 1. ONGOING ITEMS ' (1) Property Taxes—Secured We estimate that the City of Temecula will receive 12.80% of the $1.00 per $100 assessed value tax rate, as follows: County Fire Transfer 5.77% ' County General Transfer 7.03 12.80 This allocation is preliminary, inasmuch as the County Auditor/Controller has not yet—at time of this report—released allocations for next year. The above estimates are based upon previous allocations for Tax Rate Area 094-036, in which the project is located, as follows: ' o Transfer at 100% of the County Fire Protection District allocation of 5.77%. o Transfer of 25% of the County General allocation of 28.10%. The County General estimate is based on the County's current practice for handling annexations, whereas for new incorporations a more detailed computational approach is used. Nevertheless, inasmuch as property taxes are a relatively small part of the City's total revenue picture for this ' project, we are confident that the figures utilized are appropriate for preliminary financial estimation purposes. ' (2) Property Taxes-�Jnsecured Erased on prototypical experience, unsecured property taxes have been ' estimated at 10% of property taxes generated by commercial establishments. (3) Sales Tax ' Sales tax is estimated at 1.11% of taxable sales discussed earlier. This rate is couposed of two elements: ' o The statutory 1.00% tax rate applicable to cities arra counties, the latter for taxable sales realized in unincorporated areas. o An additional 0.11%, which accounts for additional tax payments made to city and county governments by the State Board of Equalization. 9 These additional revenues are identified in the SBOE's regular sales tax reports as "unallocated" amounts at both the County and the State level. These taxable sales cannot be identified to specific locations and thus, cannot be directly allocated to city or county governments. These "unallocated" amounts are in actuality allocated to cities and counties on the basis of reported taxable sales. Please refer to Appendix Table B1 for statistical backup. (4) Transient Occuoancv Tax This tax is based upon 8.0o of hotel/motel room sales. (5) Per -Capita Items A number of revenues are collected by cities on a population basis. These include: o Motor vehicle in -lieu. o Cigarette tax. o State gas tax. o Civil penalties. o Traffic fines. Inasmuch as the project contains no residential units and thus no population, these factors are disregarded in this analysis. (6) Franchise Fees These fees are disregarded in this analysis. (7) . Property Transfer Tax—Resale This analysis assumes that acumeroial properties to be developed will not be sold, and consequently that no property transfer tax will be collected. 2. ONE-TIME ITEMS (1) Property Transfer Tax—New As with property transfer tax for resale, this analysis assures that commercial properties developed will not be sold at the outset of development. Thus, they are disregarded in this analysis. (2) Fire Mitiqation Fees This analysis assumes that the City takes over the Fire Protection function. Also, it assumes that the City will charge fire mitigation fees in accordance with current county practice. Effective as of July 1, 1990, the County Structural Fire Protection District collects a one-time fee of 10 30 cents per square foot of conmercial building space, the factor utilized in this analysis. This fee is assumed to equal capital facility cost requirements, discussed subsequently. (3) DeveloWient Control Fees Based upon Southern California prototypical experience, we estimate that development control fees are equal to 0.5% of new development value added each year. These are one-time fees which can be set to cover rebated development control costs. It is assumed that this function is a break- even situation. I I I I IV. RIVERSIDE COURrY EXPENDMURE FACIORS , L1 1. ONGOING (1) Police Protection , Annual police protection cost is estimated at 21.0 cents per square foot of ' .commercial building space. This factor is that projected by the County Sheriff to cover police protection costs in unincorporated areas of the County. This analysis assumes that the City will contract for police protection services from the Sheriff's Department at this level. , (2) Fire Protection As noted earlier, this analysis assumes that the fire protection function ' is taken over by the City; but that the City in turn contracts for services with the Country Structural Fire Protection District. In this analysis, we have utilized District factors applicable to unincorporated areas within ' the County under the assumption that this level of service will be contracted by the City. On this basis, ongoing fire protection costs attributable to new development are projected at 16.0 cents per square foot , of commercial building space annually. (3) Street Maintenance , Street maintenance is estimated at $3,689 per lane mile per year. This factor is that provided to us by the Riverside County Road Department, applicable to their experience in unincorporated areas of the County. our ' analysis assumes that the City will contract for services from the Road Department at this level. Per -Capita Factors ' (4) Several City costs are population driven, including: o Animal control. o Park maintenance. o Recreation services. , Inasmuch as the project will contain no residential units and population, these factors are disregarded in this analysis. (5) Administration , Administration costs are estimated at 20% of other costs. preliminary factor, based upon our analysis of many other This is a cities in the 12 State. Most City administrative costs are in the range of l0% to 150 of other costs; and thus we judge that our 20% factor is appropriately conservative for preliminary estimation purposes. 2. ONE-JPIl`iE IMIS (1) Fire Capital Facilities Capital costs of fire protection are estimated at 30.0 cents per square foot of commercial building space. These costs are assumed to equal projected mitigation fees as discussed earlier. ' (2) Development Control Services Development control functions include those activities directly supportive of new development, including a variety of planning, building control, and engineering faux -tions. This analysis assess that these costs will be equal to development control fees charged for new development, inasmuch as the County can establish fees sufficient to cover costs. This methodology ' has been employed in many other cost -revenue evaluations. 1 I LJ LI �1 7 1 13 RA DETAILED PROTECTIONS AND FISCAL M:)DEL A full set of detailed projections are contained in Appendix A. This set of projections covets a ten-year projection period: o Each of the ten years during the development period. o An additional year beyond full buildout. Detailed projections are in the form of four tables: o Table A1. A two-page summary of projected City cash flaws by fund. o Table A2. A one-page table presenting base development schedules of ccmrerclal building space and residential values. o Table A3. A three-page table presenting annual and cumulative measures used to compute various revenues and expenditures— including new development values, assessed value increases, taxable sales, room sales, and lane miles of publicly maintained streets. o Table A4. A one-page table presenting unit revenue and expenditure factors by fund. These appendix tables have been prepared in a form so that the basis of all Mations can be determined without reference to additional documentation. Detailed computer printouts are contained in capiter disk form. These disks can be made available to client staff for their subsequent use. In addition, we will assist the client in further evaluation of project alternatives if appropriate. The fiscal model is in Symphony Spreadsheet form and requires approximately 100,000 bytes of ccupater memory. 14 1 H7 11 I 1 A A Computer Projections B Unallocated Taxable Sales C Governmental Officials Contacted 1 1 15 Table AI 1328CR1 SlMMARY CASH FLOW (IN 1990 CONSTANT DOLLARS) SLD2 CITY OF TE7ECLEA FISCAL IMPACTS 11/07/90 Temecula Regional Center Specific Plan 18 -Year Development Period - Year II It" Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr 18 $ beyord - --- $000'5 ONGOING ITEMS Revenues Secured Property Tax -Fire 928 0 11 17 61 78 95 143 161 172 191 191 Secured Property Tax-6ereral 1,130 0 13 20 74 95 115 174 197 210 232 232 Property Tax -Unsecured 2% 0 2 4 14 17 21 32 36 38 42 42 Sales Taxes 24,921 0 412 652 2,266 2,521 2,761 3,841 4,156 4,156 4,156 4,156 Transient Occupancy Tax 925 0 0 0 6 0 0 190 190 190 356 356 franchises 8 0 0 0 0 0 0 0 B 0 0 0 Civil Penalties 0 0 0 0 0 0 0 0 0 0 0 0 Traffic Fires 0 0 8 0 0 0 0 0 0- 0 0 0 Property Transf Tax -Resale 0 0 0 0 0 0 0 0 0 8 0 0 Motor Vehicle In Lieu 0 0 0 0 0 0 0 0 0 0 0 0 Cigarette Tax 0 0 0 6 0 0 0 0 0 8 8 0 State Gas Tax 0 0 0 0 0 0 0 0 0 0 8 0 Total Revenues 28,110 0 438 692 2,415 2,711 2,992 4,379 4,740 4,766 4,977 4,977 Expenditures Police Protection 3,103 0 36 57 225 277 330 492 551 582 634 634 Animal Control 0 0 0 0 0 0, 0 0 0 0 0 0 Fire Protection 2,425 0 27 43 171 211 251 375 420 444 403 483 Street Maintenance 261 7 12 27 27 31 31 31 31 31 31 31 Park Maintenance - 0 8 a 0 0 0 0 0 0 0 0 0 Recreation Services 0 0 0 0 0 8 0 0 0 0 8 0 Administration 1,174 1 15 25 85 104 122 180 200 211 230 230 Total Expenditures 7,0" 8 89 153 508 624 735 1,079 1,202 1,269 1,377 1,377 Net Surplus/(Deficit) 21,066 (8) 348 540 1,907 2,087 2,257 3,301 3,537 3,497 3,599 3,599 -Y To Expenditures 299.1 (100.0) 389.2 353.0 375.3 334.7 307.3 306,0 294.3 275.6 261.3 261.3 ONE-TIME ITEMS ' Revenues Property Transfer Tax -New 8 0 0 0 0 0 0 8 6 0 0 0 Fire Nitigation Fees 905 0 51 30 240 75 75 233 83 45 73 0 Development Control Fees 1,738 0 96 56 4% 153 153 436 169 98 163 0 Total 2,635 0 147 86 646 228 228 666 253 143 237 0 Expenditures Fire Capital Facilities 905 0 51 30 240 75 75 233 83 45 73 0 Development Conhvl Services 1,730 0 96 56 406 153 153 436 169 98 163 0 Total 2,635 0 147 66 646 228 228 668 253 143 237 0 Net Surplus/(Deficit) 0 0 0 0 0 D 0 0 0 0 0 0 --Y To Expenditures 0.0 N/A 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.8 N/A Continued on next page..........,. 61 Table Al 62 9119WRY CASH FLOW (IN 1990 CONSTANT DOLLARS) 63 CITY OF TEXCLlR FISCAL IMPACTS 64 Temecula Regional Center Specific plan 65 66 67 IB -Year 68 Item Total Yr 1 Yr 2 Yr 3 69 78 71 72 73 TOTAL CN'GOINO I CIE -TINE ITEMS 74 75 Revenues 30,744 0 585 T78 3,860 2,939 3,220 76 77 Expenditures 9,670 0 236 239 1,154 852 %3 78 79 Net Surplus/(Deficit) 21,%6 (8) 348 540 1,907 2,887 2,257 Be — Development period Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr 10 IK""Ir 01 —11 To Expenditures 217.7 (100.0) 147.3 226.1 165.3 245.1 234.4 62 83 84 85 86 87 88 89 90 91 92 93 94 95 97 98 99 100 101 102 1N 104 11+5 106 107 128 109 110 11 112 113 114 115 116 117 118 119 120 Source; Natelson Levander Whitney, Inc. See detailed tables. 13MRI 9.372 11/07/90 Year 11 I Beyond 5,047 4,992 4,909 5,213 4,977 1,747 1,455 1,411 1,614 1,3T7 3,301 3,537 3,497 3,599 3,599 188.9 243.1 247.0 223.0 261.3 m m m=== w m= m==== A m 121 Table A2 I=R1 122 DEVELOPMENT SCFEDLILE q.112 123 CITY OF TE7EW FISCAL IMPACTS 11/07/90 124 Teuecula Regional Center Specific Plan 125 126 127 18 -Year - Developsent Period - Year 11 128 Item Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 0 Yr 9 Yr 10 1 beyond 129 138 RESIDENTIAL WITS COMPLETED 131 0 132 B 133 0 134 135 136 137 Total 0 0 0 0 0 B B 0 0 0 8 0 138 --Cmulative B 8 0 0 0 0 0 0 0 0 0 139 140 RESIDENTIAL ACRES DEVELOPED 141 0.9 142 0.0 143 144 145 146 147 Total 0.0 6.0 0.0 0.0 0.0 0.0 0.8 0.0 0.0 0.0 0.8 0.6 140 149 COMMERCIAL BUILDING SPACE 150 COMPLETED (000's SF) 151 Retail Comercial Core 1,125.0 700.0 425.0 152 Other Retail -Type Buildings . 725.8 145.8 92.0 94.0 94.0 92.0 94.0 114.8 153 Fast Food/Restaurant 48.8 IS.B 3.0 6.0 6.8 3.0 6.0 9.0 154 Financial Office 25.0 10.8 5.0 5.0 5.0 155 Hotel 187.5 100.0 87.5 156 General Office 907.0 150.0 150.0 150.8 150.0 150.0 157.8 157 Total 3,017.5 0.0 170.0 I00.B ON.0 250.0 250.0 775.0 278.0 150.0 244.5 0.0 158 159 qAM COMMERCIAL BLDG SIMILE (000's SF) 160 Retail Comercial Core 1,125.0 0.0 0.0 0.8 700.8 700.8 700.0 1,125.0 1,125.0 1,125.0 1,125.0 1,125.0 161 Other Retail -Type Buildings 725.0 0.0 145.0 237.0 331.0 425.0 517.6 611.0 725.0 725.0 725.0 725.0 162 Fast Food/Restaurant 48.0 0.0 15.0 18.8 24.0 30.0 33.0 39.0 48.0 48.0 48.0 48.0 163 Financial Office 25.0 0.0 10.0 15.0 15.0 15.0 20.0 20.0 25.8 25.0 - 25.0 25.0 164 Hotel 187.5 0.0 0.0 0.0 8.0 0.0 0.8 IP0.0 100.0 100.0 187.5 187.5 165 General Office 907.0 0.0 0.0 0.6 0..0 150.0 300.0 450.0 600.0 750.0 907.0 977.0 166 Total 3,017.5 0.0 170.0 270.0 1,070.0 1,320.0 1,570.0 2,345.0 2,623.0 2,773.0 3,017.5 3,017.5 167 168 COMMERCIAL LAND AREA 169 DEVELOPED (ACRES) 170 Retail Comercial Core 80.0 0.0 0.0 0.0 49.8 0.0 0.0 30.2 0.0 0.0 0.0 0.0 171 Other Retail -Type Buildings 51.8 0.0 10.4 6.6 6.7 6.7 6.6 6.7 8.1 0.0 0.0 0.0 172 Fast Food/Restaurant 3.4 0.0 1.1 0.2 0.4 0.4 0.2 0.4 0.6 0.0 0.0 0.0 173 Financial Office 1.0 0.0 0.7 0.4 0.0 0.0 0.4 0.0 0.4 0.0 0.0 0.0 174 Hotel 7.5 0.0 0.0 0.0 0.0 0.0 0.0 4.0 0.0 0.0 3.5 0.0 175 General Office 54.8 0.0 0.0 0.0 0.0 9.1 9.1 9.1 9.1 9.1 9.5 0.0 176 Total 199.3 0.0 12.1 7.1 56.9 16.2 16.2 50.4 18.2 9.1 13.8 0.0 177 178 TOTAL RES/CDK4 ACRES DEVELOPED 199.3 - 0.0 12.1 7.1 56.9 16.2 16.2 50.4 18.2 9.1 13.0 0.0 179 180 Source; Bedford Pivpertiesp Natelson Levarder Whitney, Inc. 181 Table A3 - 182 DEVELOPMENT MEASURES 183 CITY OF TDECLU FISCAL IMPACTS 184 Temecula Regional Center Specific Plan 185 186 RESIDENTIAL UNIT FACTORS -Per Capita Taxable Porch- COMMERCIAL FACTORS 187 188. Population New bevel 3 P Uninoor Rot 8 Unincor New —Per SF Taxable Sales- 189 Per Units Value County County Bldg Sp per Ac Hotel Bldg Sp Rooms Per Room Devel Value f to Pat to per SF 190 191 unit Per Rc Per Unit Total Stores Stores (SF) Per Pc (SF) Per SF Total Non-Res IWn-Res Annual Sales 1 192 — 193 — In 1990 Constant P — - 194 In 1990 Constant P 195 196 Retail Commercial Core 14,063 I0e.00 175.00 108.0 175.00 197 Other Retail-Type Buildi 14, NO I10. 00 225.00 100.0 225.00 198 Fast Food/Restaurant 14,000 1.30.00 300.00 100.0 ..00.02 199 Financial Office 14,000 130.00 0.00 0.0 0.00 2N Hotel 25,008 50 508 140.00 B.e9 0.0 0,00 23.73 201 Average General Office 16,563 130.00 0.00 6.8 B.ee 202 Average 15,144 114.63 0.80 0.0 8.08 203 204 205 18-Year Development Period Year 11 205 Item Total Yr I Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr 10 1 Beyond 207 208 — 209 POPULATION ADDED 219 211 8 0 0 0 0 0 0 0 8 0 0 0 212 0 0 0 0 B 0 0 0 0 0 0 g 213 0 0 8 0 B 0 9 0 B 0 B 0 214 9 6 B 0 0 0 0 0 0 0 6 0 215 216 217 Total B 6 0 0 0 0 0 B 0 0 0 0 218 219 CLBLLATIIE POPULATION 220 221 B 0 0 0 0 0 0 0 0 B B A -222 0 0 0 0 0 0 0 0 0 0 0 B 223 0 0 - 0 0 0 0 B 0 0 0 0 9 224 0 0 0 0 9 0 0 0 0 0 0 8 225 226 - 227 Total 0 6 9 B B 0 0 0 0 0 0 0 228 229 EMPLOYMENT ADDED 230 231 Retail Commercial Core 2,250 0 0 0 1,408 0 8 850 B 0 0 0 232 Other Retail-Type Buildings 1,450 0 290 184 188 IBB 184 IBB 228 0 0 233 Fast Food/Restaurant 24B B 15 IS 38 alt IS 30 45 0 B 0 234 Financial Office 88 0 35 18 0 8 t8 B 18 0 0 0 235 Hotel IBB 0 B B 0 0 0 100 0 0 88 0 0 - 236 General Office 3,175 0 0 0 8 525 525 525 525 525 553 0 237 Total 7,766 B 400 217 I,61B 743 742 1,693 973 525 856 0 238 ---Cumulative 0 400 617 2,235 2,978 1,719 5,412 6,385 6,910 7,766 7,766 239 246 Continued on next page.................. M M M M M = M M = M M M M M M 241 Table A3 (Continued...... page 2) 125CR1 242 W410POW WSWES 91,72 243 CITY OF TEMECLXA FISCAL IMPACTS 11/07/90 244 Temecula Regional Center Specific Plan 245 246 247 10 -Year Development Period Year 11 248 Itee Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr 10 1 Beyond 249 250 EXISTING ASSESSED VALLE Per Acre 11) 251 252 Total Amount (1000's) 253 254 255 AEN DEVELOPMENT VALLE 241.6 Acres) 256 ADDED EACH YEAR (4021s) 257 78,616 250 Residential 259 B A 260 B 0 261 0 A 262 0 A 263 B 0 264 0 0 265 Total Residential 0 266 0 0 267 Commercial 0 268 Retail Commercial Core 112,500 269 Other Retail -Type Buildings 79,750 270 Fast Food/Restaurant 6,240 271 Financial Office 3,250 272 Hotel 26,250 273 General Office 117,910 274 Total Commercial 345,900 275 0 0 276 Total New Devel Value 345,980 2T7 -Cusulative 0 278 0 0 279 Total Sgl-Fam 0 280 -Cuulative 0 281 0 0 282 EXISTING ASSESSED VALLE 0 283 REPLACED 11800'51 B 264 Residential 0 285 Commercial 15,665 286 Total 15,665 287 0 0 288 ASSESSED VALLE INCREASE (3000's) 15,950 289 Residential 0 290 Commercial 330,235 291 Total 330,235 M 1,950 390 293 O-KOTIVE ASSESSED VALLE 390 294 INCREASE ($W s) B 295 Residential 0 2% Commercial 330,235 297 Total 330,235 298 0 B 299 0 0 308 Continued on next Page .................. 0 15,665.0 Per Acre 11) Total Lard Area 65,000 ( 241.6 Acres) Res/Coo. Developed Acres Only 78,616 1 199.3 Acres) 0 B B B B 0 0 0 0 8 0 B 0 B B B 0 B 0 B 0 B 0 0 0 B 0 0 B 0 B 8 0 B 0 0 B B 0 B 0 0 0 0 0 B 0 B B 0 0 0 B 8 0 0 0 0 0 0 0 B 0 0 0 0 0 0 0 B 0 0 0 B B 8 0 B 0 0 70, ON B B 42,500 0 0 0 0 0 15,950 10,120 10,340 10,348 10,120 10,340 12,540 0 0 0 0 1,950 390 780 780 390 780 1,170 B 0 0 0 1,300 650 0 0 650 0 650 0 B 0 0 0 0 6 0 0 14,000 0 0 12,250 0 0 0 0 0 19,500 19,500 19,500 19,500 19,500 20,410 0 0 19,200 11,160 81,120 30,628 30,660 87,120 33,860 19,5W 32,668 0 0 19,200 11,160 81,120 30,620 30,660 87,120 33,860 19,500 32,6U 0 0 19,200 30,360 111,480 142, IN 172,760 259,880 293,740 313,240 345,900 345,900 0 0 B B 0 0 0 0 0 0' 0 0 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 0 0 8 0 0 0 0 955 562 4,475 1,274 1,274 3,964 1,431 712 1,020 0 B 955 562 4,475 1,274 1,274 3,964 1,431 712 1,020 0 0 0 B 0 0 B 0 0 0 0 0 0 18,245 10,598 76,645 29,346 29,386 83,156 32,429 18,789 31,640 0 0 18,245 10,598 76,645 29,346 29,386 83,156 32,429 18,788 31,640 0 0 0 0 0 0 0 B 0 0 0 0 0 16,245 28,844 105,489 134,835 164,222 247,378 279,807 298,595 330,235 330,235 0 10,245 28,844 105,489 134,835 164,222 247,378 279,807 298,595 330,235 330,235 301 Table A3 (Continued...... page 3) 1728LR1 3N DEVELOPMENT MEASURES ' 9572 303 CITY OF TEMECUA FISCAL IMPACTS 11707/90 304 Tmecula Regional Center Specific Plan 305 306 307 IB -Year - Development Period - Year II 308. It Total Yr 1 Yr 2 Yr 3 Yr 4 Yr 5 Yr 6 Yr 7 Yr 8 Yr 9 Yr IB 1 Beyond 309, 310 ANNUAI. TAXABLE SALES INCREASES 311 TO CITY (3000's) 312 313 314 Residential Purchases 315 0 0 0 8 8 0 0 0 B B 0- 0 316 0 0 B 0 B B 0 0 0 0 0 0 317 0 0 0 0 8 0 0 0 B 0 B e 310 0 0 0 0 0 0 0 0 0 B 0 B 319 B 0 0 B 8 8 0 8 B 0 B 0 320 0 0 0 0 0 0 B 0 0 B 8 0 321 Total Res Purch 0 0 8 0 0 0 0 0 0 0 322 B 0 323 324 Regional Center Establishment Ales 325 Retail Comercial Core 1, 155, ON 0 0 0 122,500 122,508 122,500 196,875 196,875 196,875 196,875 196,875 326 Other Retail -Type Buildings - 999,225 0 32,625 53,325 74,475 95,625 116,325 137,475 163,125 163,125 163,125 163,125 327 Fast Food/Restaurant 98, BN 8 4,500 5,400 7,208 9. ON 9,908 11,700 14,400 14,480 14,400 14,400 328 Financial Office 0 0 0 0 B 0 0 0 0 0 0 329 Hotel 0 0 0 0 6 0 6 0 0 8 0 0 0 330 General Office 8 0 a B 0 B 0 0 0 0 0 331 Total Estab Ales 2,245,125 6 37,125 58,725 204,175 227,125 248,725 346,050 374,400 374,/00 374,400 0 374,480 332 333 Total Tax Ales Increase 2,245,125 _0 37,125 58,725 204,175 227,125 248,725 346,050 374,400 374,400 374,400 374,400 334 335 ANNUAL ROOM SALES (SAO's) 336 Total 11,566 0 0 8 0 0 0 2,373 2,373 2,373 4,448 4,448 337 338 PUBLIC STREET MAINTENANCE CHARGED TO PROJECT (IN LANE MILES) 339 Major Streets 340 Winchester Road (2-4 Lanes) 1.36 0.68 0.68 341 Ynea Road (2 -Lanes) 1.12 1.12 342 Margarita Road (2 -Lames) 2.06 1.03 1.03 343 Apricot Road (2-4 Lanes) 0.61 0.61 344 Loop Street 8 L4 -Lanes; 2.73 1.36 1.36 345 Street A (4 -Lanes) 0.61 0.61 346 0.00 347 Total 8.48 1.80 1.36 4.29 0.N 1.N 0.00 0.00 0.08 0.00 0.00 0.00 348 349 Neighborhood Streets 350 -Factor 230.0 Lineal Feet Per Developed Single-Fanily Residential Acre 351 1 Lace Lineal Feet 0 0 0 0 0 0 8 0 0 0 0 0 352 1 Lane Miles 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 B.N 0.00 0.00 353 354 Total All Streets 6.48 1.80 1.36 4.29 0.00 1.03 0.00 0.00 0.00 0.00 0.00 0.00 355 --Cuuulative 1.80 3.16 7.45 7.45 0.48 8.48 0.48 8.48 0.46 6.48 8.48 356 357 PARA ACRES TO BE -MAINTAINED BY CITY 358 1 Acres 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 359 ---Cmulat ive 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 360 Source; Redford Properties; Natelson Levander Whitney, Inc. Table A4 REVENUE RIB COST FACTORS (IN 1990 CONSTANT DOLLARS) CITY OF TEMECU A FISCAL IMPACTS Temecula Regional Center Specific Plan Per Per SF Per Per Per Per per Res Come Hotel Bevel Late/Lin Item % 11,000 Capita Unit Bldg Sp Room Acre Mile Comment M&CR1 5272 11/07/90 Revenues Secured property Tax -Fire 5.77 % of 11.00 Per $100 A.V. Tax Rate; Applied to Cum New Bevel Val Increase 1 Secured Property Tax --General 7.03 Property Tax-thnsecured 10.00 % of Secured Property Tax (Table W. Sales Taxes 1.11 % of Taxable Sales (Table A3). Transient Occupancy Tax 8.00 % of Room Sales (Table 0. Franchises 6.44 Applied to Cumulative Population (Table 3). Civil Penalties 0.07 Applied to Cumulative Population (Table 3). Traffic Fines 2.19 - Applied to Cumulative Population (Table 3). Property Transf Tax -Resale 0.879 Applied to Cum Nex Devel Value- Residential Only (Excl Apartments) (Table Motor Vehicle In Lieu 33.27 Applied to Cumulative Population (Table 43). Cigarette Tax 1.09 Applied to Cumulative Population (Table A3). State bas Tax 12.50 Applied to Cumulative Population (Table 43). Expenditures Police Protection 101.16 0.216 Applied to Cum Population I Building Space Completed Each Year (Table A2). Animal Control 3.44 Applied to Cumulative Population (Table 93). Fire Protection 130.1+a 0.160 Applied to Cum Residential Units (Table A2) I Building Space Completed (Tab Street Maintenance 3,689 Applied to Cumulative Lane Miles (Table AM. Park Maintenance 6,006 Applied to Park Acres (Table A3). Recreation Services 18.00 Applied to Cumulative Population (Table AM. Administration 26.00 38.01 Applied to Total of Other Expenditures (Table All. ME -TIME ITEMS Revenues Property Transfer Tax --Nem 0.550 Applied to Annual New Bevel Value- Residential Only (Excl Apartments) (Tab Fire Mitigation Fees 466.00 0.300 Applied to Residential Units I Building Space Completed Each Year (Table h Development Control Fees 0.50 % of Rev Development Value Added Each Year (Table A3). Expenditures Fire Capital Facilities 466.M 0.3E0 Applied to Residential Units I Building Spare Completed Each Year (Table A2. Development Conhnl Services 0.50 % of New Development Value Added Each Year (Table A3). Source: Natelson Levander Aitney, Inc. Table Bl UtALLOCATED TAXABLE SALFS AT STA`IE AND RIVERSIDE COUNTY LEVELS STATE OF CALIFORNIA Total Taxable Sales Identifiable to County Location Net "Unallocated" — % "Unallocated" To Identifiable Total Taxable Sales Identifiable to a City or Unincorporated Area Net "Unallocated" —% "Unallocated" To Identifiable • ►• • • �• • •AI 1985 1986 1987 1988 - - - - - - -. - - - $0001s - - - - - - - - - - - - 2061809,128 201,442,691 5,366,437 2.66% 214,910,748 209,066,759 5,843,989 2.80°6 232,564,584 226,519,384 6,045,200 2.67% 5,402,546 5,958,886 6,740,821 4,995,073 5,550,897 6,222,423 407,473 407,989 5181398 8.16% 7.35% 8.33% 10.82% 10.15% 11.00% (4 -Year Average = 10.62%) Source: State Board of Fq alization; Natelson Levander Whitney, Inc. s:65 249,755,187 243,480,785 6,274,402 2.585o' 7,549,881 6,994,950 554,931 7.93% 10.54% -7i .. . at, li . gly .% ""gas Adm;nisttative Office John Johnson Auditor -Controller Raymond Boyer Jeff Ashbaker Sheriff John Jones Fire District Ray Regis Walter Andrews Road Department Ed Studor CITY OF TIIECSAA Planning Director Gary Thornhill