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Home My WebLink AboutPD 2021-0040; 786 PALM AVENUE; LIMITED GEOTECHNICAL EVALUATION; 2020-08-14 LIMITED GEOTECHNICAL EVALUATION FOR 786 PALM AVENUE CARLSBAD, CALIFORNIA 92008 PREPARED FOR AB 3 2834 LA MIRADA Drive, Suite E VISTA, CALIFORNIA 92081 PREPARED BY GEOTEK, INC. 1384 POINSETTIA AVENUE VISTA, CALIFORNIA 92081 PROJECT NO. 3653-SD AUGUST 14, 2020 August 14, 2020 Project No. 3653-SD AB 3 C/O P&E coast Construction 2834 La Mirada Drive, Suite E Vista, California 92081 Subject: Limited Geotechnical Evaluation Proposed Residence with ADU 786 Palm Avenue APN 214-39-011 Carlsbad, California 92008 We are pleased to provide herein the results of our limited geotechnical evaluation for the proposed Residence and Accessory Dwelling Unit (ADU) on the subject site located at 786 Palm Avenue, Carlsbad, California 92008. This report presents the results of our limited evaluation, discussion of our findings and recommendations. In our opinion, planned site development appears feasible from a geotechnical viewpoint provided the recommendations presented herein are incorporated into the design and construction. No significant grade changes are planned. The opportunity to be of service is sincerely appreciated. If you should have any questions, please do not hesitate to call our office. Respectfully Submitted, GeoTek, Inc. Timothy E. Metcalfe, CEG 1142 Principal Geologist Chris E Lillback RCE 35007 Senior Project Engineer AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad, California 92008 Page i TABLE OF CONTENTS 1. PURPOSE AND SCOPE OF SERVICES .................................................................................................... 1 2. SITE DESCRIPTION AND PROPOSED DEVELOPMENT .................................................................... 1 2.1 SITE DESCRIPTION .................................................................................................................................... 1 2.2 PROPOSED DEVELOPMENT ........................................................................................................................ 1 3. FIELD STUDY AND LABORATORY TESTING ...................................................................................... 2 3.1 SITE WORK ............................................................................................................................................... 2 3.2 LABORATORY TESTING ............................................................................................................................ 2 4. GEOLOGIC AND SOILS CONDITIONS ................................................................................................... 2 4.1 REGIONAL SETTING .................................................................................................................................. 2 4.2 GENERAL SOIL CONDITIONS ..................................................................................................................... 3 4.3 SURFACE AND GROUND WATER ................................................................................................................ 3 4.3.1 Surface Water ................................................................................................................................. 3 4.3.2 Groundwater .................................................................................................................................. 3 4.3.3 Infiltration ...................................................................................................................................... 3 4.4 FAULTING AND SEISMICITY ...................................................................................................................... 3 4.4.1 Seismic Design Parameters ............................................................................................................ 3 4.5 OTHER SEISMIC HAZARDS ........................................................................................................................ 4 5. CONCLUSIONS AND RECOMMENDATIONS ........................................................................................ 4 5.1 GENERAL .................................................................................................................................................. 4 5.2 EARTHWORK CONSIDERATIONS................................................................................................................ 5 5.2.1 Site Clearing and Preparation ....................................................................................................... 5 5.2.2 Engineered Fills ............................................................................................................................. 5 5.2.3 Removal Recommendations ........................................................................................................... 5 5.2.4 Removal Bottoms............................................................................................................................ 5 5.2.5 Excavation Characteristics ............................................................................................................ 6 5.2.6 Shrinkage and Bulking ................................................................................................................... 6 5.2.7 Trench Excavations and Backfill.................................................................................................... 6 5.3 DESIGN RECOMMENDATIONS ................................................................................................................... 7 5.3.1 Foundation Design Criteria ........................................................................................................... 7 5.3.2 Miscellaneous Foundation Recommendations ............................................................................... 8 5.3.3 Moisture and Vapor Retarding System .......................................................................................... 8 5.3.4 Concrete Construction ................................................................................................................... 9 5.4 POST CONSTRUCTION CONSIDERATIONS ................................................................................................ 10 5.4.1 Landscape Maintenance and Planting ......................................................................................... 10 5.4.2 Drainage ...................................................................................................................................... 10 5.5 CONSTRUCTION OBSERVATIONS ............................................................................................................. 10 6. INTENT ......................................................................................................................................................... 11 7. LIMITATIONS ............................................................................................................................................. 11 8. SELECTED REFERENCES ....................................................................................................................... 12 ENCLOSURES Figure 1 – Site Location Map Figure 2 – Auger Location Map Figure 2 – Regional Geologic Map AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 1 1. PURPOSE AND SCOPE OF SERVICES The purpose of the limited study was to evaluate the geotechnical conditions at the site relative to the anticipated site improvements. Services provided for this study included the following: ➢ Research and review of readily available geologic data and general information pertinent to the site, ➢ Review of data in our files, ➢ On site observations, excavation of two manual auger holes (one on site and one on the adjacent parcel to the east), obtaining one sample for laboratory analysis, ➢ Review of site seismicity, ➢ Geologic and geotechnical analyses of the data obtained, ➢ Compilation of this geotechnical report which presents our findings, conclusions, and recommendations for construction of the proposed site improvements. 2. SITE DESCRIPTION AND PROPOSED DEVELOPMENT 2.1 SITE DESCRIPTION The subject site is located at 786 Palm Avenue, (Palm) Carlsbad, California 92008 (see Figure 1). The roughly 3450 square feet (sf) site is APN 214-39-011. It lies on the northwest side of Palm, west of Jefferson Street and adjacent to an alley on the west. The site is currently occupied by a one-story residence, apparently constructed in the 1950’s based on review of aerial photograph available online. Prior to that it appears that the site was undeveloped with possible agricultural use in the 1930’s and 1940’s. The site is fairly flat. It appears to drain toward the alley and Palm. 2.2 PROPOSED DEVELOPMENT Based on Plans provided to Mr. Joe Barbano and discussions, we understand that the planned construction consists a two story residence with an accessory dwelling unit. The existing structure will be demolished. No significant grading is planned as the site is currently fairly level. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 2 3. FIELD STUDY AND LABORATORY TESTING 3.1 SITE WORK A limited field study was performed excavating two manual auger holes to assess shallow subsurface conditions and obtain a sample of soil for review laboratory testing. One of the borings was done on the adjacent site. Based on our test excavations, regional mapping, and experience in the area, the site is underlain by old paralic deposits. Locally these are very loose near the surface and become relatively more dense at a depth of about 3 to 3½ ft. As encountered the material is a slightly silty Sand. Observed moisture contents were typically considered to be slightly moist. Auger Locations and Logs are presented on Figure 2. 3.2 LABORATORY TESTING No specific laboratory testing was considered necessary as Visual and tactical assessment indicated that the soils are slightly silty sand and non-plastic. This is consistent with prior testing but this firm from prior work on nearby sites. Testing in the area on paralic deposits also found that water-soluble sulfate content fall into the negligible range per Table 4.2.1 of ACI 318. 4. GEOLOGIC AND SOILS CONDITIONS 4.1 REGIONAL SETTING The subject site is situated within the coastal section of the Peninsular Ranges Geomorphic Province of California. The Peninsular Ranges province occupies the southwestern portion of the state of California. The Peninsular Ranges contain the deeply eroded remnants of a single continuous volcano-plutonic arc that formed during the Mesozoic. The Peninsular Ranges’ dominant structural features are northwestward trending fault blocks. The Peninsular Ranges province is bounded by the Transverse Ranges Province to the north, the Colorado Desert Province to the east, Mexico to the south, and the Pacific Ocean to the west. Included within the province are the offshore islands of Santa Catalina, San Clemente, and Santa Barbara. Major mountain ranges within the province include the San Jacinto, Santa Ana, Santa Rosa, Agua Tibia, and Laguna Mountains. The highest elevation is found at San Jacinto Peak (10,805-feet) in the San Jacinto Mountains. Summit elevations generally decrease to the west. Slopes in the western portion of the province are gentler, similar to the Sierra Nevada. Drainage is generally provided by the San Diego, San Dieguito, San Luis Rey, Santa Margarita, Santa Ana, and San Jacinto Rivers. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 3 4.2 GENERAL SOIL CONDITIONS Regional geologic mapping suggests the area is underlain by very old paralic deposits however based on the exposed conditions, site reconnaissance, review of published geologic maps, and our general knowledge of the area, paralic deposits were encountered in the auger holes overlain by minor landscape fill. Figure 2 is a Regional Geologic Map. 4.3 SURFACE AND GROUND WATER 4.3.1 Surface Water If encountered during the construction, surface water on this site is likely the result of onsite precipitation. Proper site drainage to minimize ponding of water should be provided and is under the purview of the Civil Engineer. 4.3.2 Groundwater There is no evidence that near surface groundwater is present on the site although local perched water could be encountered especially seasonally. 4.3.3 Infiltration We understand that while permeable pavements may be incorporated in the design, no specific infiltration is planned for the site so that no testing has been done. 4.4 FAULTING AND SEISMICITY The geologic structure of the entire southern California area is dominated mainly by northwest- trending faults associated with the San Andreas system. The site is in a seismically active region. No active or potentially active fault is known to exist at this site; the site is neither situated within an “Alquist-Priolo” Earthquake Fault Zone, nor within a State of California Seismic Hazards Zone. No local agencies have identified a hazard zone for the site. 4.4.1 Seismic Design Parameters The site is located at 786 Palm Avenue. Site spectral accelerations (Ss and S1), for 0.2 and 1.0 second periods for a Class “C” site, were determined from the web site seismismaps.org, developed by SEAOC and OSHPD that uses the USGS web services. A Class “C” is considered appropriate based on the paralic deposits. The results are presented in the following table: AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 4 SITE SEISMIC PARAMETERS Mapped 0.2 sec Period Spectral Acceleration, Ss 1.073 Mapped 1.0 sec Period Spectral Acceleration, S1 0.388 Site Coefficient, Fa 1.2 Site Coefficient, Fv 1.5 Maximum Considered Earthquake Spectral Response Acceleration for 0.2 Second, SMS 1.287 Maximum Considered Earthquake Spectral Response Acceleration for 1.0 Second, SM1 .582 5% Damped Design Spectral Response Acceleration Parameter at 0.2 Second, SDS 0.858 5% Damped Design Spectral Response Acceleration Parameter at 1 second, SD1 0.358 Site Modified Ground Acceleration, PGAM 0.568 4.5 OTHER SEISMIC HAZARDS The site is in an area of gently sloping terrain underlain by paralic deposits and Santiago Formation at depth. No evidence of ancient landslides or slope instabilities at this site was observed during our study or through general research. No mapped landslides are in the immediate area of the site. Thus, the potential for landslides is considered negligible. The potential for secondary seismic hazards of seiche and tsunami are considered to be negligible due to site elevation (~126 feet MSL) and distance from an open body of water. Based on the relatively dense nature of the near surface units and the lack of shallow consistent groundwater table, the potential for liquefaction resulting in significant dynamic settlement is considered to be negligible. 5. CONCLUSIONS AND RECOMMENDATIONS 5.1 GENERAL The proposed construction appears feasible from a geotechnical viewpoint provided that the following recommendations are incorporated into the design and construction phases of development. Recommendations are provided slab-on-ground type construction. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 5 5.2 EARTHWORK CONSIDERATIONS It is our understanding that no significant grade changes are proposed. Any earthwork and grading that might be performed should be in accordance with the applicable grading ordinances of the City of Carlsbad, the 2019 California Building Code (CBC), and recommendations contained in this report. 5.2.1 Site Clearing and Preparation In areas of planned grading or improvements, the site should be cleared of existing improvements, grass and any other vegetation; roots, trash and debris, should be properly disposed of offsite. Cavities resulting from demolition and site clearing, tree removal, etc. should be observed by the project geotechnical consultant prior to replacement with engineered fill materials. The onsite soils, including the upper twelve (12) inches of soil, are considered suitable for reuse as engineered fill provided, they are free from vegetation, debris and other deleterious material. The contractor should take all precautions deemed necessary during site grading and trenching to maintain adequate safety measures and working conditions. 5.2.2 Engineered Fills Engineered fill materials should be moisture conditioned to optimum moisture content or slightly above and compacted in horizontal lifts not exceeding 8” in loose thickness to a minimum relative compaction of 90% as determined in accordance with laboratory test procedure ASTM D 1557. 5.2.3 Removal Recommendations Removal and recompaction of the upper loose paralic deposits are recommended. This is anticipated to be 3 to 3½ from existing grade. Removals should minimally include the building envelop and approximate 5 feet outside the perimeter. In areas of non-structural improvement approximately 2 feet of removal should be completed. During removals workers should be aware that there is a possibility that an abandon septic system could be present. If encountered the system should be completely removed and backfilled with properly compacted fill. If a deep seepage pit is present optional recommendation may be offered. 5.2.4 Removal Bottoms If applicable the bottom of all removals should be scarified to a minimum depth of eight (8) inches, brought to at or above optimum moisture content, and then compacted to minimum project standards prior to fill placement. The remedial excavation bottoms of should be observed by a GeoTek representative prior to scarification. The resultant voids from remedial AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 6 grading/overexcavation should be filled with materials placed in accordance with Section 5.2.2 of this report. 5.2.5 Excavation Characteristics Excavation in the onsite soil materials is expected to be relatively easy using light to medium duty equipment in good operating condition. 5.2.6 Shrinkage and Bulking Volume loss as the result of demolition and compaction of loose soil is anticipated. The recompacted soils will likely experience a volume decrease of 10 to 15%. It may be prudent to considered bringing the building envelop to grade and using the trench spoil to complete as much of the perimeter grading as possible. This should limit the need for import and potential export. 5.2.7 Trench Excavations and Backfill In general, temporary excavations within the onsite materials should be stable at 1:1 (H:V) inclinations for cuts less than 5 feet in height. Where this condition occurs, the trenches may need to be sloped back at flatter inclinations and the slope face cleaned of loose materials and properly protected. Onsite soils generally classify as “Type C” soils per OSHA guidelines. Trench excavations should conform to Cal-OSHA regulations. The contractor should have a competent person, per OSHA requirements, on site during construction to observe conditions and to make the appropriate recommendations. Utility trench backfill should be compacted to at least 90% relative compaction (as determined per ASTM D 1557). Under-slab trenches should also be compacted to project specifications. Where applicable, based on jurisdictional requirements, the top 12 inches of backfill below subgrade for road pavements should be compacted to at least 95 percent relative compaction. Onsite materials may not be suitable for use as bedding material, but will be suitable as backfill provided particles larger than 3± inches are removed. Compaction should be achieved with a mechanical compaction device. Ponding or jetting of trench backfill is not recommended. If backfill soils have dried out, they should be thoroughly moisture conditioned prior to placement in trenches. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 7 5.3 DESIGN RECOMMENDATIONS 5.3.1 Foundation Design Criteria Foundation design criteria for a conventional foundation system, in general conformance with the 2019 CBC, are presented below. Based on the non-plastic nature of onsite soils may be classified as “very low” expansive soils (EI<20). Below is typical design criteria based on a “very low” expansion potential. These minimal recommendations and are not intended to supersede the design by the structural engineer. Shallow foundation elements, if used to support the proposed structures, perimeter walls, and other improvements should be founded either entirely in engineered fill or entirely in competent bedrock. Based on the hand auger holes structures/improvements should be founded below a depth 18 inches although the western addition may require deepened footings to encounter the bedrock. A summary of our foundation design recommendations for one and two-story structures are presented below: MINIMUM DESIGN REQUIREMENTS DESIGN PARAMETER 0≤EI≤20 Foundation Depth or Minimum Perimeter Beam Depth (below lowest adjacent grade) One story - 12” Two Story -18” Foundation Width (Inches) Per CBC minimum Minimum Slab Thickness (inches) 4 (actual) Minimum Slab Reinforcing No. 3 rebar 18” on-center, placed in the middle 1/3 of the slab Minimum Footing Reinforcement Two (4) No. 4 Reinforcing Bars- One (1) top and one (1) bottom Presaturation of Subgrade Soil (Percent of Optimum/Depth in Inches) 100% / 12 inches It should be noted that the above recommendations are based on soil support characteristics only. The structural engineer should design the slab and beam reinforcement based on actual loading conditions. The following criteria for design of foundations should be implemented into design: AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 8 5.3.1.1 Bearing Capacity For footings placed in paralic deposits fill or engineered fill performed as recommended in Section 5.2, a net allowable bearing capacity of 2,000 pounds per square foot (psf) may be used for design of continuous and perimeter footings 12 inches deep (below lowest adjacent grade) and 12 inches wide, and pad footings 24 inches square and 18 inches deep. This value may be increased by 200 pounds per square foot for each additional 12 inches in depth and 100 pounds per square foot for each additional 12 inches in width to a maximum value of 3000 psf. Additionally, an increase of one-third may be applied when considering short-term live loads (e.g. seismic and wind loads). 5.3.1.2 Design Settlement Value Based on our evaluation, structural foundations may be designed to withstand a total settlement of approximately ¾- inch and maximum differential settlement of one-half of the total settlement. 5.3.1.3 Lateral Resistance For footings founded on engineered fill materials the passive earth pressure may be computed as an equivalent fluid having a density of 250 psf per foot of depth, to a maximum earth pressure of 2,500 psf. A coefficient of friction between soil and concrete of 0.30 may be used with dead load forces. When combining passive pressure and frictional resistance, the passive pressure component should be reduced by one-third. 5.3.2 Miscellaneous Foundation Recommendations A grade beam, 12 inches wide by 18 inches deep (minimum), should be utilized across large openings. The base of the grade beam should be at the same elevation or deeper than the bottom of the adjoining footings. To minimize moisture penetration beneath the slab on grade areas, utility trenches should be backfilled with engineered fill, lean concrete or concrete slurry where they intercept the perimeter footing or thickened slab edge. Soils from the footing excavations should not be placed in the slab-on-grade areas unless properly compacted and tested. The excavations should be free of loose/sloughed materials and be neatly trimmed at the time of concrete placement. 5.3.3 Moisture and Vapor Retarding System A moisture and vapor retarding system should be placed below slabs-on-grade where moisture migration through the slab is undesirable. Guidelines for these systems are provided in the 2016 California Green Building Standards Code (CALGreen) Section 4.505.2 and the 2019 CBC Section 1910.1. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 9 It should be realized that the effectiveness of the vapor retarding membrane can be adversely impacted as the result of construction related punctures (e.g. stake penetrations, tears, punctures from walking on the aggregate layer, etc.). These occurrences should be limited as much as possible during construction. Thicker membranes are generally more resistant to accidental puncture than thinner ones. Products specifically designed for use as moisture/vapor retarders may also be more puncture resistant. Moisture and vapor retarding systems are intended to provide a certain level of resistance to vapor and moisture transmission through the concrete, but do not eliminate it. The acceptable level of moisture transmission through the slab is to a large extent based on the type of flooring used and atmospheric conditions. Ultimately, the vapor retarding system should be comprised of suitable elements to limit migration of water and reduce transmission of water vapor through the slab to acceptable levels. The selected elements should have suitable properties (i.e. thickness, composition, strength, and permeance) to achieve the desired performance level. Consideration should be given to consulting with an individual possessing specific expertise in this area for additional evaluation. 5.3.4 Concrete Construction 5.3.4.1 General Concrete construction should follow the CBC and ACI guidelines regarding design, mix placement and curing of the concrete. If desired, GeoTek can provide quality control testing of the concrete during construction. 5.3.4.2 Concrete Soluble Sulfate Results of the from nearby sites have indicated “not applicable” (i.e. negligible) conditions per Table 4.2.1 of ACI 318. Accordingly, no special concrete mix design provisions with regard to minimum compressive strength, cement type, or water/cement ratio are required to resist sulfate attack. 5.3.4.3 Concrete Flatwork Exterior concrete flatwork may be poured directly on compacted native soils. Driveways should be a minimum of 5 inches thick and reinforced with should a minimum of No 3 reinforcing bars place 18 inches on center in two directions. Other flatwork should be a minimum of 4 inches thick and maybe be reinforced with 6x6 No 6 WWM or No. 3 reinforcing bars place 24 inches on center in two directions. Control joints should be placed at approximately 24 times the thickness of the slab. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 10 5.4 POST CONSTRUCTION CONSIDERATIONS 5.4.1 Landscape Maintenance and Planting Water has been shown to weaken the inherent strength of soil. Positive surface drainage away from graded slopes should be maintained and only the amount of irrigation necessary to sustain plant life should be provided for planted slopes. Controlling surface drainage and runoff, and maintaining a suitable vegetation cover can minimize erosion. Plants selected for landscaping should be lightweight, deep-rooted types that require little water and are capable of surviving the prevailing climate. Overwatering should be avoided. The soils should be maintained in a solid to semi-solid state as defined by the materials Atterberg Limits. Care should be taken when adding soil amendments to avoid excessive watering. Leaching as a method of soil preparation prior to planting is not recommended. 5.4.2 Drainage The need to maintain proper surface drainage and subsurface systems cannot be overly emphasized. Positive site drainage should be maintained at all times. Drainage should not flow uncontrolled down any descending slope. Water should be directed away from foundations and not allowed to pond or seep into the ground. Drainage should be directed toward approved area(s) and not be blocked by other improvements. 5.5 CONSTRUCTION OBSERVATIONS GeoTek representatives should be present during site grading and foundation construction to check for proper implementation of the geotechnical recommendations. These representatives should perform at least the following duties: • Observe site clearing and grubbing operations for proper removal of unsuitable materials. • Observe and test bottom of removals prior to fill placement. • Evaluate the suitability of on-site and import materials for fill placement, and collect soil samples for laboratory testing where necessary. • Observe the fill for uniformity during placement including utility trenches. Also, test the fill for field density and relative compaction. • Observe and probe foundation materials to confirm suitability of bearing materials. If requested, GeoTek will provide a construction observation and compaction report to comply with the requirements of the governmental agencies having jurisdiction over the project for the AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue, Carlsbad Page 11 site. We recommend that these agencies be notified prior to commencement of construction so that necessary construction permits can be obtained. 6. INTENT It is the intent of this report to aid in the preliminary design for the proposed improvements. Implementation of the advice presented in Section 5 of this report is intended to reduce risk associated with construction projects. The professional opinions and geotechnical advice contained in this report are not intended to imply total performance of the project or guarantee that unusual or variable conditions will not be discovered during or after construction. The scope of our evaluation is limited to observation of existing excavation and near surface condition. This evaluation does not and should in no way be construed to encompass any areas beyond the specific area of proposed improvements as indicated to us by the client. Further, no evaluation of any existing site improvements is included. The scope is based on our understanding of the project and the client’s needs, and geotechnical engineering standards normally used on similar projects in this region. 7. LIMITATIONS The materials observed on the project site appear to be representative of the area; however, soil and bedrock materials vary in character between excavations and natural outcrops or conditions exposed during site construction. Site conditions may vary due to seasonal changes or other factors. GeoTek, Inc. assumes no responsibility or liability for work, testing or recommendations performed or provided by others. Since our recommendations are based on the site conditions observed and encountered, and laboratory testing, our conclusions and recommendations are professional opinions that are limited to the extent of the available data. Observations during construction are important to allow for any change in recommendations found to be warranted. These opinions have been derived in accordance with current standards of practice and no warranty is expressed or implied. Standards of practice are subject to change with time. AB 3 Project No. 3653-SD Limited Geotechnical Evaluation August 14, 2020 786 Palm Avenue Page 12 8. SELECTED REFERENCES ASTM, 2011, “Soil and Rock: American Society for Testing and Materials,” vol. 4.08 for ASTM test methods D-420 to D-5876,; and vol. 4.09 for ASTM test method D-5877 to latest. California Code of Regulations, Title 24, 2019 “California Residential Building Code,” 3 volumes. California Division of Mines and Geology (CDMG), 2008, “Guidelines for Evaluating and Mitigating Seismic Hazards in California,” Special Publication 117A GeoTek, Inc., In-house proprietary information. Seismic Design Values for Buildings (http://seismic.org). Geologic Map of the Oceanside 30' X 60' Quadrangle, California, Compiled by Michael P. Kennedy and Siang S. Tan, 2005 Digital Preparation by Kelly R. Bovard1, Rachel M. Alvarez1and Michael J. Watson1 U.S. Geological Survey, Department of Earth Sciences, University of California, Riverside 1384 Poinsettia Avenue, Suite A Vista, California 92081-8505 Figure 1 Site Location Map 786 Palm Ave –Lot 11 Carlsbad, California August 2020 Not to scale From:https://sdgis.sandag.org/ SITE 1384 Poinsettia Avenue, Suite A Vista, California 92081-8505 Figure 2 Auger Location Map AB-3 Palm Avenue (Lot 11) Carlsbad, California August 2020 HA-1 LOT 10 Scale in Feet 0 50 100 HA-2 HA-1 LOT 11 N.A.P 1384 Poinsettia Avenue, Suite A Vista, California 92081-8505 Figure 3 Regional Geologic Map AB3 -Palm Avenue Carlsbad, California August 2020 Not to scale From: Geologic Map Of The Oceanside 30' X 60' Quadrangle, California” Compiled by Michael P. Kennedy and Siang S. Tan,2005, published by. U.S. Geological Survey. SITE