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Home My WebLink AboutCT 82-12; Carlsbad Highlands; Soils Report; 1986-06-25- - - REPORT OF PRELIMINARY GEOTECHNICAL INVESTIGATION CARLSEAD TRACT NUMBER 82-12 CANNON ROAD CARLSBAD, CALIFORNIA c+%'=w l%Lmwwx - PREPARED FOR: Alex Tucker Development Corporation 3636 4th Avenue San Diego, California 92103 - PREPARED BY: Southern California Soil 6 Testing, Inc. Post Office Box 20627 6280 Riverdale Street San Diego, California 92120 - - ) Alex Tucker Development Corporation 3636 4th Avenue SCSBT 8621081 San Diego, SUBJECT: Gentlemen: California 92103 Report No. 1 Report of Preliminary Geotechnical Investigation, Carlsbad Tract Number 82-12, Cannon Road, Carlsbad, California. In accordance with your request, we have performed a preliminary geotechnical investigation for the subject project. The findings and recorrmendations of our study are presented herewith. In general, we found the site suitable for the proposed development provided the recommendations presented in the attached report are followed. Existing soil conditions encountered which will require special site preparation consideration are: relatively deep compressible alluvium requiring removal and replacement as compacted fill; relatively weak claystones requiring the buttressing of some slopes; and hard granitic rock requiring blasting. Each of these conditions relates only to specific portions of the site. If you have any questions regarding this report, or if we may be of further service, pleae do not hesitate to contact our office. Respectfully submitted, SOU ERN C IFORNIA SOIL & TESTING, INC. *&h$& CHC:DBA:JRH:niw cc: (3) Submitted (3) Manitou Engineering (1) SCS&T, Escondido - - .- - - TABLE OF CONTENTS PAGE Introduction and Project Description ...................................... Project Scope ............................................................. : Findings .................................................................. 3 Site Description ...................................................... 3 General Geology and Subsurface Conditions ............................. 4 Geologic Setting and Soil Conditions ............................. 1) Basement Complex-Cretaceous Granitics (Kgr) .............. 4" 2) Lusardi Formation (Kl) ................................... 4 3) Tertiary Paleosol (Tp) ................................... 4) Santiago Formation (Es) .................................. : 5) Quaternary Terrace Deposits (Qt) ...................... ...6 6) Quaternary Alluvium (Qal) Surface Water ...... ......... .................................................................. ..$ . Groundwater ...................................................... 8 Seismic Survey and Rippability Characteristics ..................... ...9 General .......................................................... 1981 Traverse Results, Traverse No. 1 through No. 5 ......... ; Traverse No. 6 and Traverse No. 7 .......................... 1986 Traverse Results, Traverse No. S-l through No. S-6 .... ii Traverse No. S-7 through S-12 .............................. Rippability Characteristics of Granitics ............................. :: Rippable Condition (O-4,500 Ft./Set.) ........................... Marginally Rippable Condition (4,500-5,500 Ft./Set.) ............ :: Nonrippable Condition (5,500 Ft./Set. & Greater)................1 2 Seismic Traverse Limitations .................................... Conclusions .............................................................. :: General .............................................................. 13 Alluvium ................................................... Santiago Formation Claystones .............................. :: Granitic Hardrock .......................................... 15 Recommendations .......................................................... Grading .............................................................. :i Site Preparation ................................................ 16 Settlement Monuments ............................................ Select Grading .................................................. :: Undercutting .................................................... Rock Disposal ................................................... :i Drainage ........................................................ Subdrains ....................................................... :i Earthwork ....................................................... Slope Stability ...................................................... iii Foundations .......................................................... Settlement ...................................................... ii General ......................................................... Bearing Capacity ................................................ 2 Special Lots .................................................... Special Setbacks ................................................ ;: Condominium Structures .......................................... Expansive Characteristics ....................................... ;: Foundation and Grading Plan Review .............................. Earth Retaining Structures ........................................... :: Passive Pressure................................................2 2 Active Pressure ................................................. 22 Backfill ........................................................ 22 Factor of Safety ................................................ Limitations .............................................................. ;: Review, Observation and Testing ...................................... 23 - - - 1 ’ TABLE OF CONTENTS (continued) PAGE Uniformity of Conditions ............................................. 23 Change in Scope......................................................2 4 Time Limitations ..................................................... 24 Professional Standard ................................................ 24 Client's Responsibility..............................................2 5 Field Explorations ..................................................... ..2 5 Laboratory Testing ....................................................... 26 FIGURES Figure 1 TABLES Table I Table II PLATES Plate 1 Plate 2A Plate 28 Plate 3 Plate 4-22 Plate 23-46 Plate 47-49 Plate 50 Plate 51-53 Plate 54 Plate 55 Plate 56-67 Plate 68 Plate 69 Plate 70 ATTACHMENTS Site Vicinity Map, Follows Page 1 Generalized Engineering Characteristics of Geologic Units, Page 7 Foundation Recommendations, Follows Page 21 Plot Plan Buttress Subsurface Exploration Legend Boring Logs Trench Logs Grain Size Distribution Maximum Dry Density and Optimum Moisture Content Expansion Index Test Results Direct Shear Test Results Consolidation Test Results Single Point Consolidation Test Results Seismic Traverse Logs Oversize Rock Disposal Typical Canyon Subdrain Cross-Section Slope Stability Calculations APPENDICES Appendix A, Applicable Data from February 2, 1981 Report Appendix B, Recommended Grading Specification and Special Provisions -i i - ! - > - s%%“r?+kfrER’h~ cc,44 SFODRFINNI IA* sSo01 ILL AANNDD TTEESSTTI INNGG. I NNcC. 6~Bi~~YMllltLS~‘5i)C~letJBPC~C!r.~?~~. * rE=cc+C*-~ . . p.~ap8*~P?-‘5~m,P~~PE~l;lr~91PPO 63%- ECvZC+Fi?dt= 542. E5Cbf44%9bQlP! cr*+* FT. e%aebs **rttec 7=*~.bL14 PRELIMINARY GEOTECHNICAL INVESTIGATION CARLSBAO TRACT NUMBER 82-12 CANNON ROAD CARLSBAD, CALIFORNIA INTRDDUCTION AND PROJECT DESCRIPTION This report presents the results of our preliminary geotechnical investigation for the subject project, which is to be located north of Cannon Road and west of Leisure Village, in the City of Carlsbad, California. The site location is shown on the vicinity map provided as Figure 1 on the following page. It is also our understanding that the site will be developed to receive a residential development consisting of single-family residences, duplexes, townhouses and condominiums. It is anticipated that the structures will be up to three stories high and of wood-frame construction. Shallow foundations and conventional slab-on-grade floor systems are proposed. Grading will consist of cuts and fill approximately 50 feet deep. Proposed cut and fill slopes will be constructed at a 2:l (horizontal to vertical) inclination to maximum heights not exceeding 50 feet and 60 feet, respectively. - To assist in the preparation of this report we were provided with a tentative map prepared by Manitou Engineering, dated June 14, 1982. In addition, we have reviewed our geologic reconnaissance report for the subject project dated February 2, 1981. The applicable data from said - i s=rnLurrm==ku ~.aAllRmmr+4,laa 33rnllLL arwro TrE!zE6TTIIw4m%. II WA 02.. V N SOUTHERN CALIFORNIA Carlsbad Hiqhlands SOIL 8 TESTING, INC. 81: SMS DATE: 6-26-86 JOB NUMBER: 8621081 Fiqure No. 1 SCSBT 8621081 June 25. 1986 Page 2 > - , .- - - - 1 - ) report are presented in Appendix A. The site configuration, topography and approximate locations of our subsurface explorations are shown on Plate Number 1 of this report. PROJECT SCOPE This investigation consisted of: surface reconnaissance, subsurface explorations, obtaining representative disturbed and undisturbed samples, laboratory testing, analysis of the field and laboratory data, research of available geological literature pertaining to the site, and preparation of this report. More specifically, the intent of this analysis was to: a) b) cl dl e) f) Explore the subsurface conditions to the depths influenced by the Evaluate, by laboratory tests, the pertinent engineering properties of the various strata which will influence the development, including their bearing capacities, expansive characteristics and settlement potential. Describe the general geology at the site including possible geologic hazards which could have an effect on the site development. - Address potential construction difficulties and provide recommendations concerning these problems. Develop soil engineering criteria for site grading and provide design information regarding the stability of cut and fill slopes. Recomnend an appropriate foundation system for the type of structures anticipated and develop soil engineering design criteria for the recommended foundation design. - SCS&T 8621081 June 25, 1986 FINDINGS Page 3 SITE DESCRIPTION - - L The site is an irregular shaped parcel of undeveloped land consisting of approximately 263 acres, located westerly of the southern terminus of Cannon Road and north of its proposed extension, in Carlsbad, California. The site is bounded by undeveloped land on the northerly portion of the eastern boundary; a portion of Cannon Road, Leisure Village and undeveloped land on the southern portion of the eastern boundary; undeveloped land on the southern and northern boundaries and agricultural land on the west. Topographically, the site consists of hilly terrain with moderate to steep slopes and several large, well defined, drainage canyons. There are three major drainage canyons on the site. The first is located in the southeastern corner, drains in a southwesterly direction and contains surface water flow throughout the year. The second major canyon is located in the southwestern portion of the site. This canyon drains in a southerly direction with surface water flowing throughout the year in the southern extension of this canyon. A spring located in this canyon, as well as in two converging secondary drainage courses, appears to be the source of the water noted in this canyon. The third major canyon is located in the northern and northwestern portions of the site. No surface water was noted in this canyon, and the canyon drains in a western and southwestern direction. In addition, many smaller secondary drainage courses converge with the major drainage canyons. Vegetation consists of dense, large shrubs and trees within the drainage coarses, moderately dense to dense chaparral on the southern portion of the site and dense native grasses and shrubs on the remaining northern and western portions. No structures exist on site. Utilities consist of a water main which traverses the northern portion of the site, as well as being adjacent to the western portion of the northern property line. Several manholes for the water main were noted above the ground surface. - - - - SCSBT 8621081 June 25. 1986 Page 4 GENERAL GEOLOGY AND SUBSURFACE CONDITIONS - - GEOLOGIC SETTING AND SOIL CONDITIONS: The site is underlain by materials of both igneous and sedimentary orgin. Approximately 50% of the site is underlain by Cretaceous granitic rocks and the remaining are areas underlain by Cretaceous, Tertiary and Quaternary sediments. A brief description of the materials encountered, in general decreasing order of age is presented. - 1) BASEMENT COMPLEX - CRETACEOUS GRANITICS (Kgr): The oldest material exposed is the granitic bedrock and is located on the southern portion of the site. The granitic rock consists primarily of granodioritic composition. Granodiorite conmkonly weathers to rounded outcrops and boulders in a matrix of decomposed granite. The easet of excavation for the granitics are addressed in the seismic survey section of this report. Specifically, the granitic areas of the site exposed surface boulders which range to an approximate maximum of eight feet in diameter. The surface soils consist of decomposed granitic, silty sands. -.I ) Some fractures within the granitic rock can be expected to contain groundwater. Thus, water seepage from fractures exposed in the proposed cuts may occur. This problem, would best be mitigated during grading if and when they occur. This condition is further addressed in the slope stability section of this report. 2) LUSARDI FORMATION (Kl): The Lusardi Formation consists of conglomerates and sandstones that rest nonconformably on the basement complex. The Lusardi Formation is limited to small exposures in the northern areas of the western portion of the si te. The conglomeratic materials consist of granitic and metavolcanic boulders and cobbles in a matrix of coarse-grained sandstone and siltstone. The sandstone portion of the formation SCSST 8621081 June 25, 1986 Page 5 - consists of clayey to silty sandstone. The Lusardi Formation appears to be nonconformably overlain by the younger paleosols and Eocene sediments. 3) TERTIARY PALEOSOL (Tp): Isolated areas of lavender, pink, olive green and white paleosols were encountered. The paleosols are the results of the torrid climate and relatively stable geologic conditions that were present in the San Diego area during the early Cenozoic era. The resulting ancient soil (paleosol) is lateritic and consists of lowly expansive clays and clayey sandstone. A thin residual cap of ironstone concretions and siliceous pebbles is present on much of the paleosol. The thickness of the paleosol appears to range from a few feet to in excess of fifteen feet. 4) SANTIAGO FORMATION (Es): Exposures of the Eocene Santiago Formation cover the northern and much of the western portions of the site. The western exposures of the Santiago Formation consist largely of interbedded, greenish claystones, siltstones and sandstones. These sediments appear to nonconformably overlie the basement complex and the Lusardi Formation. Easterly of these interbedded claystones, siltstones and sandstones the Santiago Formation predominantly consists of a pale, greenish grey sandstone with occasional thin lenses of claystone. Where encountered in the sandstone portions of the Santiago Formation the claystone lenses dip from approximately three degrees to five degrees in a northeast to northwest direction. The massive claystone beds, as well as the claystone lenses encountered within the Santiago Formation, have been associated with slope stability problems and may require special grading considerations if deep and/or steep cut slopes are proposed for the Santiago Formation. Recomnendations for mitigating potential hazards associated with the Santiago Formation are presented in the slope stability section of this report. SCSBT 8621081 June 25, 1986 Page 6 .- 1 ., - - - 5) QUATERNARY TERRACE DEPOSITS (Qt): Isolated areas of older Quaternary terrace deposits were encountered at the site. The terrace deposits appear to be limited to the canyon areas of the granitic portion of the site and were found to be in excess of eleven feet in depth. These deposits consist of moist, medium dense, porous, reddish brown, coarse to silty sands. Due to the porosity of these soils, some settlement may occur under applied loads. This material will require remedial grading as described in the site preparation section of this report. 61 QUATERNARY ALLUVIUM (Qal): Alluvium consisting of soft to medium stiff and loose to medium dense deposits of clays, silts and sands are present in the existing drainage courses. In general, these deposits range in thickness from approximately one foot to over ten feet. Due to their ubiquitous occurrence, the alluvial deposits are not delineated on the geologic map except in the larger channels. In addition, the western most extent of the site is underlain by alluvial sediments to a depth in excess of twenty five feet below the existing grade. This alluvium was soft and loose to a depth of approximately sixteen feet and the water table was encountered at a depth of approximately 8.5 feet. The alluvial deposits will require remedial grading. This grading will be hampered at the proposed Cannon Road extension (southeast corner of the site) by the existing stream flow and in the western portion of the site due to the relatively high water table. Recommendations addressing these potential problems are presented in the site preparation section of this report. Table No. 1 (below) presents some of the pertinent engineering characteristics of the materials encountered at the site. SCSBT 8621081 June 25. 1986 Page 7 - 2 TABLE I GCIIERALIZED ENGI!:EERI!IG CIIARACTERISTICS OF GEOLOGIC UNITS Unit Name and Symbol Topsoils Amount of Slope Rippability Oversix Material Expansive Stability/Erosion Compressibility Potential Rippable Nmi nal Younger ..~ Alluvium-Oyal Rippable Nominal Older Alluvium-Qcal Rippable Nominal , .- Santiago Formation-Es (Sandstone & Siltstone) Rippable Nominal Moderately to Highly Erodible Moderately to Highly Erodible Moderately Erodible Generally Good Moderate to High Low to Hiqh Moderate to High Moderate to High Moderate to Iliqh Lou to High LOW LOW to IQderate Santiaqo Fornwtion-Es (Mudstone) - Tertiary Paleosol-Tp .~ Lusardi Formation-K1 Rippablc Granitic Rcxks- Generally W Rippable to (6ranodiorite) I 15 Feet Granitic Rocks- Kgr (Tonalite) Marginally Hippable to Nonrippable Rippable Rippable to Marginally Rippable Nominal LOW LOW to Moderate LOW to Moderate Moderate to High Generally Poor Fair P(odcratcly Erodible Good Good LOW Moderate to Hiqh LOW LOW Law LOW Nominal Nominal Nominal Nominal SURFACE WATER: A stream, which appears to flow throughout the year, exists in the drainage coarse located in the southeast corner of the site. The stream will need to be redirected and channeled to facilitate remedial grading of the loose and saturated alluvium. This may entail diverting the stream flow around the areas to receive remedial grading as well as dewatering those areas. In addition, seepage from what appears to be a series of springs exists in the drainage coarses located in the granitic area near the southwest corner of the site (see Plate Number 1). Portions of the spring are located SCSBT 8621081 June 25, 1986 Page 8 outside of the proposed project area and do not appear to present a potential problem for the site as presently planned. However, mitigating measures (in the form of subdrains) will need to be implemented to protect the proposed fill which is to be placed in the two southwest trending, secondary drainage courses which converge in the major drainage canyon near the southwest corner of the site. 1 - , - L - - Recommendations to mitigate the potential problems due to the aforementioned surface water are presented in the engineering section of this report. It should be noted that the development known as Leisure Village, which is located east of the subject site, is presently experiencing near surface water seepage problems in the granitic areas of their development. This information was obtained via oral communication with a drill rig operator. More detailed information pertaining to the adjacent development was not readily available. GROUNDWATER: Groundwater was encountered in boring B-2 at a depth of approximately 8.5 feet below the existing grade. The depth of the groundwater in this alluvial area will hamper remedial grading operations in this area. Groundwater was also encountered in boring B-5 at a depth of approximately 42 feet. The water appears to be above the contact between the Santiago Formation and the underlying basement complex. The water level in boring B-5 rose to a depth of 29 feet below the ground surface within a few hours after drilling. This level is above the toe of the slope proposed in this area. In addition, groundwater can be expected to be encountered within some fractures in the granitic bedrock areas. Thus, cuts proposed within the granitics may expose seepage from these fractures where none are observed now. Mitigating measures for the above mentioned potential problems associated with groundwater are addressed in the engineering sections of this report. SCSBT 8621081 June 25. 1986 Page 9 1 - i - .) - SEISMIC SURVEY AND RIPPABILITY CHARACTERISTICS GENERAL: The results of our seismic survey indicate that the on-site granitic materials, located in the southern half of the site, are rippable to depths ranging from approximately three feet to eighteen feet. It should be noted that there may be hardrock and isolated "floaters" within rippable materials which may require blasting to facilitate grading operations. Seven seismic traverses were performed by our firm in January, 1981 and an additional twelve seismic traverses were performed in May, 1986. The results of these traverses, whose locations at-a shown on Plate Number 1, are summarized below and on Plates Number 56 through 67 and Appendix A. 1981 TRAVERSE RESULTS Traverse No. 1: 0 - 13' + 13' Traverse No. 2: 0 - 3' + 3' Traverse No. 3: 0 - 7' + 7' Traverse No. 4: 0 - 6' + 6' Traverse No. 5: 0 - 7' + 7' No Cut Proposed Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock Proposed 20-Foot Cut Rippable "D.G." Marginally Rippable Granitic Rock Proposed 17-Foot Cut Rippable topsoils and "D.G." Nonrippable Granitic Rock Proposed 20-Foot Cut Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock Proposed 22-Foot Cut Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock - - - - SCSBT 8621081 June 25. 1986 Traverse No. 6: 0 - 6' + 6' Proposed 5-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Traverse No. 7: 0 - 5' + 5' Proposed 7-Foot Cut Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock 1986 TRAVERSE RESULTS Traverse No. S-l: 0 - 7' + 7' Proposed 18-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Traverse No. S-Z: 0 - 17' + 17' Proposed l&Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Traverse No. S-3: 0 - 15' + 15' Proposed 40-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitfc Rock Traverse No. S-4: 0 - 18' + 18' Proposed lD-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Traverse No. S-5: 0 - 9' + 9' Proposed 20-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Page 10 Traverse No. S-6: 0 - 15' •t 15’ Proposed l&Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock , b- t SCStT 8621081 Traverse No. S-7: 0 - 5' + 5' Traverse No. S-8: 0 - 8' + 8' Traverse No. S-9: 0 - 10' + 10’ Traverse No. S-10: 0 - 8’ 8’ - 14’ t 14’ Traverse No. S-11: 0 - 15' + 15' Traverse No. S-12: 0 - 3’ 3’ - 14’ + 14’ June 25, 1986 Proposed 15-Foot Cut Rippable Topsoils and "D.G." Nonrippable Gt-anitic Rock Proposed 20-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Proposed 2-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Proposed 15-Foot Cut Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock Nonrippable Granitic Rock Proposed 19-Foot Cut Rippable Topsoils and "D.G." Nonrippable Granitic Rock Proposed 20-Foot Cut Rippable Topsoils and "D.G." Marginally Rippable Granitic Rock Nonrippable Granitic Rock Page 11 RIPPABILITY CHARACTERISTICS OF GRANITICS RIPPABLE CONDITION (0 - 4,500 FT./SEC.): This velocity range indicates rippable materials which may consist of decomposed granitics possessing random hardrock floaters. These materials will break down into slightly silty, well graded, sand, whereas the floaters will require disposal in a area or nostructural ,fill. Some areas containing numerous hardrock floaters may present utility trench problems. Further, large floaters exposed at or near finish grade may present additional problems for footing trenching. - - SCSST 8621081 June 25, 1986 Page 12 Materials within the velocity range of from 3,500 to 4.000 fps are rippable with difficulty by backhoes and other light trenching equipment. MARGINALLY RIPPABLE CONDITION (4,500 - 5,500 FT./SEC.): This range is rippable with effort by D-9 in only slightly weathered grantics. This velocity range may also include numerous floaters with the possibility of extensive areas of fractured granitics. Excavations may produce material that will partially break down into a coarse. slightly silty to clean sand, but containing a high percentage of +1/4" material. Less fractured or weathered materials may be found in this velocity range that would require blasing to facilitate removal. Materials within this velocity range are beyond the capability of backhoes and lighter trenching equipment. Difficulty of excavation would also be realized by gradalls and other heavy equipment. - - 1 - - NONRTPPABLE CONDITION (5,500 FT./SEC. & GREATER): This velocity range includes nonrippable material consisting primarily of moderately fractured granitics at lower velocities and only slightly fractured or unfractured rock at higher velocities. In its natural state, it is not desirable for building pad subgrade due to difficulty In footing and utility trench excavation. Blasting will produce oversize material requiring special disposal consideration. This upper limit has been based on rippability with a Caterpillar D-9 using a conventional #9 Single Shank Ripper. However, this upper limit of rippability may sometimes be increased to 7,000 to 8,000 fps material using the D-9 mounted #9 Series D Ripper or other heavy excavation equipment. SEISMIC TRAVERSE LIMITATIONS: The results of the seismic survey for this investigation reflect rippability conditions only for the areas of the traverses. However, the conditions of the various soil-rock units appear to be similar for the remainder of the site and may be assumed to possess similar characteristics. - ) -. ) .- SCS&T 8621081 June 25, 1986 Page 13 Our reporting is presently limited in that refraction seismic surveys do not allow for prediction a percentage of expectable oversize or hardrock floaters. Subsurface variations in the degree of weathered rock to fractured rock are not accurately predictable. The seismic refraction method requires that materials become increasingly dense with depth. In areas where denser, higher velocity materials are underlain by lower velocity materials, the lower velocity materials would not be indicated by our survey. All of the velocities used as upper limits are subject to fluctuation depending upon such local variations in rock conditions as: a) Fractures, Faults and Planes of Weakness of Any Kfnd b) Weathering and Degree of Decomposition cl Brfttleness and Crystalline Nature d) Grain Size Further, the range of rippability using a Caterpillar D-9 may be increased using different equipment. However, it should be noted that ripping of higher velocity materials may become totally dependent on the time available and the economics of the project. Ripping of higher velocity materials can be achieved but it may become economically infeasible. CONCLUSIONS GENERAL In general, no geotechnical conditions were encountered which would preclude the development of the site as presently proposed provided the recommendations presented herein are followed. The site was found to be underlain by several different soil deposits with specific geotechnical characteristics. Of these, the deposits which will primarily influence the proposed development are the alluvium, Santiago Formation claystones and granitic hardrock. Each of these deposits is discussed herein: -j SCSST 8621081 June 25, 1986 Page 14 , ALLUVIUM: Compressible alluvium extending to varying depths were encountered underlying most low lying areas and drainage swales. The bulk of this material exists at the western section of the site and at the eastern portion of the proposed Cannon Road extension (see Plate Number 1). Due to its settlement potential, the alluvial deposits are considered unsuitable, in their present condition, for the support of Settlement sensitive improvements, and, will require removal and replacement as compacted fill. The feasible removal depth in the western and easter major alluvial areas will be determined by the groundwater depth. At the western section of the site, the estimated maximum depth of compressible alluvium is 16 feet. However, due to the presence of a relatively shallow groundwater table, the maximum removal depth will probably be limited to ten feet. This condition will result fn compressible alluvium left in place after site grading. Proposed fills in this area will have a maximum height of 20 feet. Therefore, time related settlements can be anticipated. Construction in this area should not begin until the primary settlement is complete and secondary consolidation is established. It is estimated that a consolidation period of up to one month will be necessary, depending on the depth of alluvium left in place. The presence of thick brush and surface water hampered the determination of the alluvium depth in the canyon at the proposed extension of Cannon Road. However, we estiamte that it could be as much as 20 feet. SANTIAGO FORMATION CLAYSTONES: Santiago Formation deposits underlie the northern and approximately half of the western sections of the site (see Plate Number 1). Nith the exception of the deposits at the western section of the site (Borings 3, 5 and 6). this formation consists of competent, nondetrimentally expansive sandstones. However, within the aforementioned area, relatively weak claystones were encountered where a major cut slope is planned. This material will require buttressing as described in the slope stability section of this report. It should also be noted that isolated, random claystone and/or siltstone lenses are typical in the Santiago Formation. Therefore, additional areas requiring buttressing may be discovered during SCSST 8621081 June 25, 1986 Page 15 - - - - grading. In addition, the claystones are typically highly expansive and should be placed at depths such that they do not detrimentally affect the proposed development. The placement of this material is addressed in the select grading section of this report. GRANTIC HARDROCK: The granitic rock at the site was found primarily underlying the southeastern half of the site. This material presents varying degrees of decomposition with nonrippable material requiring heavy ripping and/or blasting being encountered at depths ranging from three feet to 18 feet (average depth of seven feet). Specific depths of nonrippable material are provided on the rippability section of this report and on Plate Number 1. Some of the material which may be rippable wfth heavy equipment, may not be excavatable with conventional trenching equipment. This will result in difficult foundation and utility line trenching. Therefore, undercutting of cut areas Mere these dense granitics are encountered is recomnended. An additional consideration is the placement of oversize rock generated during grading. This subject is discussed in the rock disposal section of this report. Potential slope stability problems associated with cut slopes constructed in granitic rock are related to fractures in the rock which may require rock anchors. This condition will be evaluated during grading. Additional geotechnical considerations for site development are existing compressible topsoils, porous terrace deposits, boulders within the Lusardi Formation and groundwater. The site is covered by an average of two feet of compressible topsoil. This material will require removal and replacement as compacted fill in areas to receive settlement sensitive improvements. Isolated areas of porous terrace deposits were encountered (see Plate Number 1). The extent of these areas is relatively minor. Due to its settlement potential, this material will also require removal and replacement as compacted fill. Although the Lusardi Formation exposed at the site is relatively minor, it is anticipated that a high percentage of boulders will be generated from cuts in this formation. Said boulders should be placed in accordance with the recomnendations provided in the SCSBT 8621081 June 25, 1986 Page 16 - rock disposal section of this report. The existing groundwater table will be a limiting factor during alluvium removal operations at the western portion of the site. In addition, surface water in the canyon at the proposed extension of Cannon Road will require special grading procedures as described in the site preparation section of this report. In addition, an aquifer condition was encountered within the area of Boring 5. A major cut slope is proposed within this area and the aquifer may affect its stability and construction. Therefore, it is advisable that an additional investigation be performed to further determine the geotechnical conditions in this specific area. RECOMMENDATIONS GRADING SITE PREPARATION: Site preparation should begin with the removal from the construction area of all deleterious matter and vegetation. Existing loose topsoils porous terracce deposits and alluvium should be removed to firm natural ground or two feet above the saturation line. Based on the findings of this report, it is estimated that average topsoil removal will be two feet. Maximum estimated alluvium removal depth is ten feet. In areas where firm natural ground is encountered, the bottom of the excavation should be scarified to a depth of 12 inches, moisture conditioned and recompacted to at least 90 percent, as determined in accordance with ASTM D1557-78, Method A or C. The material removed as well as fill derived from on-site cuts should then be placed in compacted layers until desired elevations are reached. Granular fills should be placed at a moisture content of slightly above optimum. Clayey fills should be placed at a moisture content of approximately three percent above optimum. Site preparation for the extension of Cannon Road will require the diversion of existing surface water to a depth such that a minimum alluvium removal depth of five feet to ten feet may be acheived. The material to be removed will be in a saturated condition. Therefore, it should be spread and dried or thoroughly mixed with drier soils. Special grading equipment such as a swamp cat will most likely be necessary in this area. In SCS&T 8621081 June 25, 1986 Page 17 addition, special stabilization procedures may be necessary to provide for a firm bottom of excavation. A layer of one and a half inch of gravel and/or stabilizing fabric (Mirafi 600X or equivalent) may be necessary for this purpose. It is anticipated that a minimum gravel layer thickness of 12 inches may be needed. However, it is suggested that a small trial area be prepared first to determine the most economical stabilization method. SETTLEMENT MONUMENTS: Construction in areas where only partial compressible alluvium removal is acheived (including Cannon Road) should not start until secondary consolidation is established. It is anticipated that the consolidation period will be approximately one month and, three months to six months respectively for the western area of the site and Cannon Road, respectively. Settlement monuments should be installed at areas designated by the soils engineer to monitor the resulting settlements and determine when construction can begin. SELECT GRADING: It is anticipated that highly expansive soils will be encountered within the alluvial deposits and the Santiago Formationat the western corner of the site. The presence of this material within three feet from finish grade will require special foundation consideration in the form of increased size and reinforcement. Furthermore, expansive soils at finish grade elevations would result on increased street improvement costs. Select grading consists of the placement of a three-foot cap of nondetrimentally expansive soils (expansive index less than 50) in fili pads and the removal of expansive soils from within three feet from finish grade in cut pads. The minimum horizontal limits of select grading operations are five feet beyond the perimeter of the improvements. The minimum recommended thickness of select cap for areas to receive pavements is 1.5 feet. Expansive soils should also not be placed in fill slopes within a distance from the face of slopes equal to ten feet or half of the slope height, whichever is more. In addition, soil mixtures consisting of slightly clayey silty sands and silty sands should be utilized for buttress Construction. Nondetrimentally expansive soils which may be utilized for select grading operation underlie approximately 80 percent of the site. SCS&T 8621081 June 25, 1986 Page 18 J - 1 UNDERCUTTING: It is recommended that the cut portions of daylight lots be undercut to a depth of one foot below the bottom of the proposed footings. Furthermore, consideration should be given to undercutting cut areas underlain by hard granitic rock to a depth equal to the deepest proposed footing and/or utility line trench. As an alternative, selected areas may be undercut and the deepest .trenches may be concentrated there. Ali undercut areas should be filled with properly compacted, nondetrimentally expansive soils. ROCK DISPOSAL: Oversized material (rock larger than six inches in maximum dimension) should be placed in accordance with the recommendations provided on Plate Number 68, or be placed in structural or nonstructural rock fills. Structural rock fills may be constructed by placing three foot thick layers of clean rock. Fill soils derived from cuts in the decomposed granitic rock should then be placed over the layer and washed in by flooding. This material should have a minimum sand equivalent of 30 and comply with the minimum gradation requirements of Class III Base. This procedure should be repeated until a 12-inch layer of soil remains above the rock. At this point, another three foot rock layer may be placed. The rock fill may be extended to a height of ten feet below finished grade. At this point, a one-foot-thick layer of fill should be placed on top of the rock and compacted to at least 90%. This layer should be overlain by filter fabric and nine feet of compacted soil. Nonstructural fill areas may be constructed in a similar manner. However, in this case minimum rock layer may be five feet, no filter fabric is required and, a three foot mat of compacted soil is recommended DRAINAGE: The site should be graded and maintained such that surface drainage is directed away from structures and the top of slopes into swales or other controlled drainage devices. I SUBDRAINS: It is recommended that subdrains be placed along the bottom of all canyon areas to receive more than tenfeet of fill. The subdrains should be extended upward along the canyon until overlain by not more than ten feet of fill. A subdrain detail provided in Plate Number 69. Subdrain locations will be provided by the soils engineers once final grading plans are available. SCSBT 8621081 June 25, 1986 Page 19 1 EARTHUORK: All earthwork and grading contemplated for site preparation should be accomplished in accordance with the attached Reconwnded Grading Specifications and Special Provisions. All special site preparation recommendations presented~ in the sections above will supersede those in the standard Recomnended Grading Specifications. All embankments, structural fill and fill should be compacted to at least 90% relative compaction at or slightly over optimum moisture content. Utility trench backfill within five feet of the proposed structures and beneath asphalt pavements should be compacted to minimum of 90% of its maximum dry density. The maximum dry density of each soil type should be determined in accordance with A.S.T.M. Test Method D-1557-78, Method A or C. SLOPE STABILITY - L I - .- It is anticipated that cut and fill slopes will be constructed at a 2:l (horizontal to vertical) and extend to a maximum height of 50 feet and 60 feet, respectively. In general, most of the cut slopes will expose competent formational deposits. However, relatively weak claystones of the Santiago Formation will be exposed in cut slopes to be constructed to a maximum height of 48 feet at the western portion of the site (Borings 3 and 5). The potentially detrimental effect of the claystones is two-fold since they affect the surficial as well as the gross stability of proposed cut slopes. A computerized slope stability analysis performed utilizing Bishop's Simplified Slope Stability Method indicated an unacceptable factor of safety for the proposed slope unless buttressing is performed. The buttress location and configuration are presented on Plates Number 1 and 2A and 28 of this report. The buttress should be constructed with granular material as described in the select grading section of this report. As described in the groundwater section of this report, an aquifer condition appears to exists in this area (Boring 5). It is our opinion that further study of this area is advisable since this condition may affect the stability as well as the construction of the proposed slope. It is also recommended that claystones and/or siltstones exposed in cut slopes extending to a height in excess of five feet be replaced with select soils. The width of select material required will depend on the height of the SCSBT 8621081 June 25, 1986 Page 20 - - 1 3 claystone and/or siltstone layer. However, a minimum of five feet is recommended. It is further our opinion that proposed cut slopes, with the exception of the one discussed above, and fill slopes, will possess an adequate factor of safety with respect to deep seated rotational failure (see Plate Number 70). However, adverse fractures in cut slopes exposing granitic rock may require rock anchors or other stabilizing measures. This condition will be evaluated during grading. Minor cut and fill slopes up to ten feet in height may be constructed at a 1.5:1 inclination. Fill slopes constructed at a 1.5:1 inclination should be overfilled by at least five feet and cut back to desired contours. All cut slopes should be observed by our engineering geologfst to ascertain that the actual soil conditions exposed are in general agreement with those assumed in the preparation of this report. If needed, additional recommendations will be provided during grading operations. FOUNDATIONS SETTLEMENT: With the exception of the southern section of the western corner of the site (Boring 2). it is anticipated that the proposed structures will be founded on competent natural ground and/or compacted fill. Due to the presence of a relatively high water table, total compressible alluvium removal at the aforementioned area will not be feasible. Settlement monuments will be installed in this area to monitor the settlements resulting from the placement of proposed fills. Construction will not start until primary consolidation is completed. In our opinion, the anticipated total and/or differential settlements for the proposed structures due to foundation loads may be considered within tolerable limits provided the recommendations presented in this report are followed. However, it should be recognized that due to their inherent characteristics, fill deposits tend to settle due to their own weight and increases in moisture content within the soil mass. The amount of settlement is proportional to the depth of fill and its relative compaction. Our experience indicates that this potential is particularly evident in residential subdivisions due to heavy irrigation. The intent of the recommendations contained in this report is to mitigate the detrimental effects of these potential settlements. SCSBT 8621081 June 25, 1986 Page 21 GENERAL: Conventional spread footings may be used to support the structures with the exception of proposed condominium buildings. he dimensions and reinforcement of footings will depend on the height of the structure and the underlying soils at the completion of grading. The following table presents recommendations for footing dimensions and reinforcing as well as concrete slabs-on-grade recommendations for the different possible foundation soil conditions anticipated. BEARING CAPACITY: The allowable soil bearing pressure for the afore- mentioned foundations may be considered to be 2000 psf. The bearing capacity may be increased by one-third when considering wind and/or seismic loading. SPECIAL LOTS: Special foundation consideration will be needed for daylight lots where the fill differential exceeds 20 feet. This recommendations may include additional foundation and concrete slab-on-grade depth and/or reinforcement, post-tensioned foundations or undercutting of cut portions of the lot to reduce the fill thickness differential. SPECIAL SETBACKS: Footings located adjacent to or within slopes should be extended to a depth such that a minimum horizontal distance of five feet and seven feet exists between the exterior footing face and the face of 2:l and 1.5:1 slopes, respectively. In addition, adjacent footings founded at different bearing levels should be located so that the slope from bearing level to bearing level is flatter than one horizontal to one vertical unit. CONDOMINIUM STRUCTURES: Due to the high liabilities associated with condominium projects, we recommended that post tensioned foundations be utilized for the support of proposed condominium structures, Post tensioned foundation recomnendations should be provided by a structural engineer. One-inch differential settlement in ten feet may be assumed for design purposes. AREAS UNDERLAIN BY NONEXPANSIVE COMPACTED FILL TABLE 11 FOUNDATION RECOMMENDATIONS AND/OR COMPETENT FORMATIONAL DEPOSITS Footing Depth Footing Width Footing _Ty_pe of Structure (Inches)* (Inches)++ Reinforcement** Concrete Slab-on-Grade ------ One Story Two Stories Three Stories Footings underlain by fill differential in excess of ten feet, including recompacted ._ 12 12 2 No. 4 Bars 4-inch thick slab underlain by 4-inch clean one top and sand layer. 6"x6"-W1.4xW1.4 welded wire one bottom mesh. 18 12 2 No. 4 Bars one top and one bottom 4-inch thick slab underlain by 4-inch clean sand layer. 6"x6"-W1.4xW1.4 welded wire mesh. 24 12 2 No. 4 Bars one top and one bottom 4-i&h thick slab underlain by 4-inch clean sand layer. 6"x6"-W1.4xW1.4 welded wire mesh. 4-inch thick slab underlain by 4-inch clean sand layer. 6"x6"-W2.9xW2.9 welded wire or No. 3 reinforcing bars placed at 24 inches . ^ - . 18 12 4 No. 4 Bars two top and two bottom soi Is.+++ on center eacn way ana 12 incnes into tooting. * From lowest adjacent finish grade. ** Reinforcement recommendations not intended to be in lieu of reinforcement necessary to satisfy structural considerations. t Where moisture sensitive floor coverings are planned, the slab should be underlain by a visqueen barrier. A l-inch-thick layer of sand should be provided above the visqueen to allow for proper curing. t+ For isolated footings minimum width is 24 inches by 24 inches. +++ See special lots section. SCSST 8621081 June 25, 1986 Page 22 - I EXPANSIVE CHARACTERISTICS: The expansive characteristics of the prevailing foundation soils are assumed to be nondetrimentally expansive. The recommendations of this report reflect this condition. FOUNDATION AND GRADING PLAN REVIEW The final foundation and grading plans should be submitted to this office for review by the soils engineer and the engineering geologist. The purpose of this review is to ascertain that the recommendations contained in this report have been incorporated in the plans. ) - EARTH RETAINING STRUCTURES PASSIVE PRESSURE: The passive pressure for the prevailing soil conditions may be considered to be 400 pounds per square foot per foot of depth up to a maximum of pressure of 2500 psf. The passive pressure may be increased one-third for seismic loading. he coefficient of friction for concrete to soil may be assumed to be 0.40 for the resistance to lateral movement. When combining frictional and passive resistance, the latter should be reduced by one-third. ACTIVE PRESSURE: The active soil pressure for the design of earth retaining structures with level backfills may be assumed to be equivalent to the pressure of a fluid weighing 30 pounds per cubic foot for walls free to yield at the top (unrestrained walls). For restrained walls an equivalent fluid pressure of 45 pounds per cubic foot may be used for a design parameter. These pressures do not consider any surcharge loading. If surcharge loadings are anticipated, this office should be contacted for the necessary change in soil pressure. All earth retaining structures should have adequate weep holes or a subdrain system to prevent the buildup of hydrostatic pressure behind the wall. - BACKFILL: All backfill soils should be compacted to at least 90% relative compaction. Expansive or clayey soils should not be used for backfill material within a distance of five feet from the back of the wall. The retaining structure should not be backfilled until the materials in the wall have reached an adequate strength. .- SCSAT 8621081 June 25, 1986 Page 23 FACTOR OF SAFETY: With the exception of the concrete to soil friction coefficient, the above values do not include a factor of safety. Appropriate factors of safety should be incorporated into the design of all earth retaining structures to reduce the possibility of overturning and sliding. LIMITATIONS REVIEW, OBSERVATION AND TESTING The recomnendations presented in this report are contingent upon our review of final plans and specifications. The soil engineer and engineering geologist should review and verify the compliance of the final grading plan with this report and with Chapter 70 of the Uniform Building Code. It is recommended that Southern California Soil & Testing, Inc. be retained to provide continuous soil engineering services during the earthwork operations. This is to observe compliance with the design concepts, specifications or recommendations and to allow design changes in the event that subsurface conditions differ from those anticipated prior to start of construction. L UNIFORMITY OF CONDITIONS , - The recormnendations and opinions expressed in this report reflect our best estimate of the project requirements based on an evaluation of the subsurface soil conditions encountered at the subsurface exploration locations and the assumption that the soil conditions do not deviate appreciably from those encountered. It should be recognized that the performance of the foundations and/or cut and fill slopes may be influenced by undisclosed or unforeseen variations in the soil conditions that may occur in the intermediate and unexplored areas. Any unusual conditions not covered in this report that may be encountered during site development should be brought to the attention of the soils engineer so that he may make modifications if necessary. SCS&T 8621081 June 25, 1986 Page 24 CHANGE IN SCOPE This office should be advised of any changes in the project scope or proposed site grading so that it may be determined if the recommendations contained herein are appropriate. This should be verified in writing or modified by a written addendum. TIME LIMITATIONS - The findings of this report are valid as of this date. Changes in the condition of a property can, hodever, occur with the passage of time, whether they be due to natural processes or the work of man on this or adjacent properties. In addition, changes in the State-of-the-Art and/or Government Codes may occur. Due to such changes, the findings of this report may be invalidated wholly or in part by changes beyond our control. Therefore, this report should not be relied upon after a period of two years without a review by us verifying the suitability of the conclusions and recoimnendations. PROFESSIONAL STANDARD In the performance of our professional services, we comply with that level of care and skill ordinarily exercised by members of our profession currently practicing under similar conditions and in the same locality. The client recognizes that subsurface conditions may vary from those encountered at the locations where our borings. surveys, and explorations are made, and that our data, interpretations, and recommendations are based solely on the information obtained by us. We will be responsible for those data, interpretations, and recommendations, but shall not be responsible for the interpretations by others of the information developed. Our services consist of professional consultation and observation only. and no warranty of any kind whatsoever, express or implied, is made or intended in connection with the work performed or to be performed by us, or by our proposal for consulting or other services, or by our furnishing of oral or written reports or findings. SCS&T 8621081 June 25, 1986 Page 25 CLIENT'S RESPONSIBILITY .- 1 .- It is the responsibility of Alex Tucker Development Corporation, or their representatives to ensure that the information and recommendations contained herein are brought to the attention of the engineer and architect for the project and incorporated into the project's plans and specifications. It is further their responsibility to take the necessary measures to insure that the contractor and their subcontractors carry out such recomnendations during construction. FIELD EXPLORATIONS Forty-three subsurface explorations were made at the locations indicated on the attached Plate Number 1 on May 2 through 15, 1986. These explorations consisted of borings drilled utiliring a truck mounted drill rig and trenches excavated utilizing a backhoe. In addition, seismic traverse lines were performed. The field work was conducted under the observation of our engineering geology personnel. The explorations were carefully logged when made. These logs are presented on the following Plates Number 4 through 46. The seismic traverse logs are presented on the following Plates Number 56 through 67. Logs of the subsurface explorations and seismic traverses performed in conjunction with our 1981 investigation are presented in Appendix A. The soils are described in accordance with the Unified Soils Classification System as illustrated on the attached simplified chart on Plate 3. In addition, a verbal textural description, the wet color, the apparent moisture, and the density or consistency are provided. The density of granular soils is given as either very loose, loose, medium dense, dense. or very dense. The consistency of silts or clays is given as either very soft, soft, medium stiff, stiff. very stiff, or hard. Disturbed and undisturbed samples of typical and representative soils were obtained and returned to the laboratory for testing. Page 26 SCSST 8621081 June 25, 1986 LABORATORY TESTING Laboratory tests were performed in accordance with the generally accepted American Society for Testing and Materials (A.S.T.M.) test methods or suggested procedures. A brief description of the tests performed is presented below: - .- - a) b) cl d) el MOISTURE-DENSITY: Field moisture content and dry density were determined for representative samples obtained. This information was an aid to classification and permitted recognition of variations in material consistency with depth. The dry unit weight is determined in pounds per cubic foot, and the field moisture content is determined as a percentage of the soil's dry weight. The results are sunsnarized in the trench logs. CLASSIFICATION: Field classifications were verified in the laboratory by visual examination. The final soil classifications are in accordance with the Unified Soil Classification System. GRAIN SIZE DISTRIBUTION: The grain size distribution was determined for representative samples of the native soils in accordance with A.S.T.M. Standard Test D-422. The results of these tests are presented on Plates Number 47 through 49. COMPACTION TEST: The maximum dry density and optimum moisture content of typical soils were determined in the laboratory in accordance with A.S.T.M. Standard Test D-1557-70, Method A. The results of these tests are presented on the attached Plate Number 50. EXPANSION INDEX TEST: An expansion index test on remolded samples was performed on representative samples of soils likely to be used as compacted fill. The test was performed on the ..- - - SCSBT 8521081 June 25, 1986 Page 27 portion of the sample passing the #4 standard seive. The sample was brought to optimum moisture content then dried back to a constant moisture content for 12 hours at 230 +/- 9 degrees Fahrenheit. The specimen was then compacted in a 4-inch-diameter mold in two equal layers by means of a tamper, then trimmed to a final height of 1 inch, and brought to a saturation of approximately 50%. The specimen was placed in a consolidometer with porous stones at the top and bottom, a total normal load of 12.63 pounds was placed (144.7 psf), and the sample was allowed to consolidate for a period of 10 minutes. The sample was allowed to become saturated, and the change in vertical movement was recorded until the rate of expansion become nominal. The expansion index is reported on the attached Plate Number 50 as the total vertical displacement times the fraction of the sample passing the #4 sieve times 1000. CLASSIFICATION OF EXPANSIVE SOIL EXPANSION INDEX POTENTIAL EXPANSION l-20 very low 21-50 low 51-90 medium 91-130 high Above 130 very high f) DIRECT SHEAR TESTS: Direct shear tests were performed to determine the failure envelope based on yield shear strength. The shear box was designed to accomodate a sample having diameters of 2.375 inches or 2.50 inches and a height of 1.0 inch. Samples were tested at different vertical loads and a saturated moisture content. The shear stress was applied at a constant rate of strain of approximately 0.05 inches per minute. The results of these tests are presented on attached Plates Number 51 through 53. SCSAT 8621081 June 25, 1986 Page 28 9) - - CONSOLIDATION TEST: A consolidation test was performed on a selected "undisturbed" sample, The consolidation apparatus was designated to accomodate a I inch high 2.375 inch or 2.500 inch diameter soil sample laterally confined by a brass ring. Porous stones were placed in contact with the top and bottom of the sample to permit the addition or release of pore fluid during testing. Loads were applied to the sample in a geometric progression after vertical movement ceased, and resulting deformations were recorded. The percent consolidation for each load cycle is reported as the ration of the amount of vertical compression to the original one-inch sample height. The test sample was inundated at some point in the test cycle to determine its behavior under the anticipated footing load as soil moisture increases. Tine results of this test is presented in the form of a curve on Plates Number _ through -, In addition time rates were performed at selected loads. The results of these tests are presented in the form of a curve on Plate !iJmber 54. .- hl SINGLE POINT CONSOLIDATION TEST: Single point consolidation tests were performed on selected "undisturbed" sample to measure the potential for collapse and to gain limited information of the consolidation characteristics of the sampled soils. Tine consolidation apparatus was designed to accomodate a l-inch-high by 2.375-inch or 2.500-inch diameter soil sample laterally confined by a brass ring. Porous stones were placed in contact with the top and bottom of the sample to permit the addition or release of pore fluid during testing. Selected loads were applied to the samples and the resulting deformations were recorded. The percent consolidation for each load cycle is reported as the ratio of the amount of vertical compression to the original one-inch sample height. The test samples were inundated to determine their behavior under the anticipated footing load as soil moisture increases. The results of these tests are presented on Plate Number 55. SIDE VIEW MIRADRAIN FILTER FABRIC FILTER FABRIC CRUSHED ROCK IOCK BL’ANKET DRAIN NO SCALE Q. l * :: “,; *a :O 3* “,: :s 00 U,. .t - ,Y,,I..,‘.“n,.r ..n,,.~<.~L, ,,ca,,r. --/-r-p ‘BLANKET DRAIN $ -+&I : : . . v >:#j ” ; : .’ ‘. : . . * .nr~cr~m~r~~nonr.“.~~.oo,r.ro~r~or.a;on~...,r I I I 20’ I FRONT VIEW _- .~ - - - / - - - - - 1 - ..’ - - - SUBSURFACE EXPLORATION LEGEND UNIFIED SOIL CLASSIFICATION (*ART SOIL DESCRIPTION GROUP SYMSOL COARSE GRAINED. more than half of material is laraer than No. 200 sieve SC XAVELS CLEAN GRAVELS (orean half of :oatse fraction is araer than NO. 4 GU GP ;ie;e size but xnaller than 3". GRAVELS UITH FINES GM (Appreciable amount of fines.) GC ;ANDS CLEAN SANDS SW Ethan half of oarse fraction is SP mailer than NO. 4 zieve size. SANDS UIJH FINES St4 (Appreciable amount of fines1 SC I. FINE GRAINED. more than half of material Is smaller than No. 200 sieve SIX!. SILTS AND CLAYS ML Liquid Limit less than 50 CL OL SILTS AND CLAYS NH Liquid Limit greater than 50 CH ON HIGHLY ORGANIC SOILS PJ lY?:::L NXES U?il *ra4ec ;rave1s. gravel- sand mir:u-es. little or no fines. Poorly grrsed gravels, gravel sand mixtures, little or no fines. Silty gravels, poorly graded gravel-saq4-silt mixtures. Clayey gravels. poorly graded gravel-sand. clay mirtures. Uell gra4'4 sand, gravelly sands. lirrle or no fines. Pocrly grated sands. gravelly sands, 1i:tle or no fines. Silty san?s. poorly graded sand and silty mixtures. Clayey sands, poorly graded sand an4 clay mixtures. Inorganic silts and w-y fine sands. rock flour. sandy silt or cltyty-silt-sand mixtures ria slight plas- ticity. Inorganic clays of low to medium plasticity, gravelly clays, sandy clays, silty clays, lean clays. Organic silts and organic silty clays or low plasticity. Inorganic silts, micaceous or didtnmxeous fine sandy or silty soils, elastic silts. Inorganic clays of high plasticity. fat clays. Organic clays of rnediuo to high plasticity. Peat and other highly organic soils. - Water level at time of excavation CK - Undisturbed chunk sample or as indicated BG - Bulk sample - Undisturbed, driven ring sample or tube sample SP - Standard penetration sample SOUTHERN CALIFORNIA Carlsbad Tract 82-12 SOIL & TEStlNG,INC. B”: SMS DATE: 6-19-86 JOB NUMBER: 86210Rl PJ& Nn. 3 ,” 5 0 ; BORING NUMBER 1 ; Y ,:> ; 3 -: > Y I : w ; =I- 4 z=+ ;;; u, (E - Y ; WE W;; E Y 2 0 ELEVATION > 0 :*z l <; 2 Ok. Ul: P, = 5 ; ; :, *pz”d : E!ii= ou Y)Y 2 mz 4 ” 0 I,? : 0 g;; ,: 2 z :o’= 0 g i ( I z 00 LfKZ 2 z 0 = I DESCRIPTION 0 0 0 0 e u SM Brown SILTY SAND Humid Loose l--- (Alluvium) --------- --- ____ SC Brown Moist Loose 2- CLAYEY SAND - us 14 3- ------ w---m_- _______ _ 4- CL Brown Moist Medium Stiff SANDY CLAY 5r - us 13 97.0 24.8 6- BAG 7- --------- __-_____ a- SC Brown Moist Medium CLAYEY SAND With Cobble Stiff 9- REFUSAL ON COBBLE AT 9.5' SOUTHERM CALIFORNIA SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-5-s, JOB NUMBER: 8621081 Plate No. 4 : z c i 7 ; BORING NUMBER 2 ,:> g y .? L - z- z=+ ii w 1 = I- < 5 : ;:g 2 Y E- ,I w 3 ,y;i z i -‘? ELEVATION <<:‘o = L WZ ; OH: b 2 r-J -xx; : if:= 0” mu) :, w 4 j . 0 : 07 : G ,“;;m ,* Gg 2, ul * I :o’u 00 ::; ,“. : a 0 ; ! DESCRIPTION , 0 0 f3 , 0 CL/ SC Brown Humid Soft 1- SANDY CLAY/CLAYEY SAND (Alluvium) --- 2- Medium Stiff - us To 34 3’ Stiff 4- c- -’ --- -- --- -- - .- - .- - m- - 5- SC Brown Moist Loose - us CLAYEY SAND 13 6 _ BAG L 7- a- --- -- A Wet Water - - - -=- 9- 7 Table Satura- ted lo---- --- - -- - --- - - _ __ __ - us cL Greenish Brown Satura- Medium 7 ted Stiff 95.9 28.3 11- SANDY CLAY 12- 13- 14-b ------ L--_- -_ _____ _ SM Brown Satura- Medium SILTY SANo ted Stiff 15 SOUTHERN CALIFORNIA SUBSURFACE EXPLORATION 101 SOIL &TESTING, INC. LOGGED BY: J,, DATE LOGGED: 5-5-t JOB NUMBER:8621081 Plate No. 5 : ; c 7 ; BORING NUMBER 2 g;; z = < z = 5 : 0 G ,” - 2:; z ; au = a, ;z !.i ELEVATION 3 + z ? WZ z ; * u) : s fL= 00 t, ml7a 4 Pv)O . 0 u) ::o Py yj; =o : z <I -x0= u. z : I; II DESCRIPTION 00 :=2 0 0 0 15 c? 91 Brown Satura- Loose - us ted 9 16 - - -- _ S.I.lTYUAML - _ __ - - - -_ _ __ CL Greenish Brown Wet To Stiff SANDY CLAY Moist 17- 18- 19 - ZO- - us 21 106.0 20.4 21- 22- 14 - 15 - - us 14 16 BORING ENDED AT 26' S~OUTHERN CALIFORNIA . SUBSURFACE EXPLORATION L( SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-5 JOB NUMBER: 8621081 Plate No. 6 2 zi c -T ; BORING NUMBER 3 ; Y ,:> g y .< z 3 = < z=+ ;:o’ ; z : - = w G w UtEl uz4*;L ? O = h’ OY -‘!! ELEVATION :+, = L IU; + ; 2 zl :a; fL= 0” :, tl a mn, . 4 u 0 ln to LL ;;rm ,e 0 ,” ;: <z 40= ,u3 i bf : 00 &x=0 z ; E = I DESCRIPTION ” u 0 o-----~~~~~ 0 0 CL/ Dark Brown SILTY CLAY, Humid Medium l- CH Dissicated Stiff (Topsoil) 2- CL Green SILTY SAND Moist Very (Santiago Formation) Stiff 3- 4- - us 39 5- 6- 7- a- 9- - us Red Brown, Red Greenish Hard 49 lG- Brown 11- 1.T 1T 14- - us ML& Red Brown CLAYEY SILT & Very CL Brown SILTY CLAY Stiff 2B 15 - SOUTHERN CALIFORNIA SUBSURFACE EX.Pi~ORATION LOG SOIL &TESTING, INC. LOGGED BV: J,, DATE LOGGED: c,-5+ JOB NUMBER: &21,,Bl Plate No. 7 20- - us CL Green SILTY CLAY Moist Very 70 106.4 20.9 21- Hard 22- 23- 24- 2E 26- SC Grading Into CLAYEY SAND Moist Very Dense 27 BAG 28- 2T - us 81/11” 119.9 14.0 3G- 31- 32- 33- REFUSAL AT 33.5' ON ROCK SOUTHERN CALIFORNIA SUBSURFACE E,XPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-5-86 JOB NUMBER: 8621081 Plate No. 8 1 - , - - - .~- L ) - - I - - E ,’ ; 7 > ; BORING NUMBER 4 l Y ,:> =I- q ; y A” z 5 LC F ; ; ; Y 2 2. In :=z *e. z Le - w ; 3 I- 5 0 ,’ ELEVATION 2 G 2?2 Fit z ,’ w ; ; 4 ” Y’ : ii. 0 z u) t 0 ::Z” ,“+ : <z -lo= y;‘17J.l ,-P 6; “0 ::; : d 2 = 0 = I DESCRIPTION fl u 0 0 ” 0 SM Red Brown SILTY SAND Humid Medium 'Dense l- (Decomposed Granitic Rock1 L-- Dense 2- 3- 4----.----- Light Brown 5 BAG 6 J- 8- 9- lo- ll- 12- 13 REFUSAL AT 13' SOUTHERN CALIFORNIA SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-5-86 JOB NUMBER: 863,nFl, Plau 9 , - 1 - - L ,- ) - I - : ; ; -: > ; BORING NUMBER 5 I- w ,:> ; Y a z c =I- * - 2 ==I- ;;o ;i G : - Y ; B 0 : !!i -‘: ELEVATION 5 w;;, cc c : bi vim 05 2 v) 22: u<; z W; E!i= ou zl= -- L w t- 5 G 0 : u) P 0 it:” 3 4 a 40= Ei; iG _p 0 s f4 Y 2 = s DESCRIPTION 00 :u> D 0 0 u E ” 0 Cl/ Green SILTY CLAY, Humid Medium 1- CH Dissilated ____ Stiff (Topsoil) Moist 2- 3- SC Yellow Greenish Tan Moist Medium CLAYEY SAND Dense TD 4- (Santiago Formation) Dense 5- - US SM Grading Into SILTY SAND 34 6- _ BAG J+- a-- -----.-e-- ____ SC Green CLAYEY SAND Moist Medium 9- Dense To Dense lo-- - ---- ----_____ SC/ Yellow Greenish Tan SM ll- CLAYEY SILTY SAND 13 3 ? 7- 14- CL Green 'SILTY SAND Moisf Hard 15 SOUTHERN CALIFORNIA SU-BSlJ,RFACE EXPLORATION LOG SOIL &TESTING,INC. LOGGED 8Y: JH DATE LOGGED: 5-5-86 JOE NUMBER: 8621081 Plate No. 10 p” zi c 7 ; BORING NUMBER 5 ; w & gwr ; 2 - F- 2 I- < Z ;;G ;; w T w w 5 i”;, : - = 2 oY i 0 ELEVATION a*; = = 5 > 0 a+z =+. 2 ; ; =, 2; IU: = 0” .z tl I ml5 * u 0 vf : 0 L”. z,“; >-p 0 : ;: 4 I ;,z= i ,’ : 00 :a0 2 z 0’ = z DESCRIPTION 0 ;i 0 15 - :: Moist Hard 35 SILTY CLAY 'CLAYEY SAND? 25-w- llL -=-SILTY SAND 51 26 - 27 - - PB 28 - 29 v Water - Table (Measured At End Of 30 - Day) 32 - . m 35 - - us Green & Red Brown Very JO 108.5 20.5 36 - Hard - Pale Green CLAYEY SAND Satura- Very 92 BORING ENDED AT 42' ted Dense SOUTHERN CALIFORNIA SvBS!JRFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-5-86 JOB NUMBER: 8621081 Plate No. 11 - - ) .- - .- 1 3 - it f, 0 7 - > ; BORING NUMBER6 I- w ,:> E yj .‘; E z=+ FZ-J G x 3 2 I- 4 ,” - w ; Y z 0 z 2 ?? ELEVATION z 5 wwv, 05L 2 k u;z 4<;; = ; ; 2 0 : cn mln : 2;;: ;:z ;; =: :, Y e 0 0 Pz . es *o= ,y;;, _o -L- -I s m : z DESCRIPTION 00 2:: 0 :g : ; 0 0 0 z ” 0 SC/W Brown CLAYEY SILTY SAND Humid Loose 1- (Topsoil) 2 SC Greenish CLAYEY SAND Humid Meduim To Dense 3- (Santiago Formation) Moist TD Dense 4- 5- - US SM/SC Grading Into Pale Humid 43 6- Yellowish Green Slightly CLAYEY SILTY SAND 7- 7 7 7 - a- ML Green SANDY SILT Moist Very Stiff 9- 1C 1:- - BAG UT- - 15- - us 16 Pale Green To Pale Yellow Humid Hard 50/5” 115.3 15.6 To Moist SOUTHERN CALIFORNIA . ,SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-7-86 JOB NUMBER: 8621081 . Plate No. 12 7 ,” 5 ; BORING NUMBER 6 c Y ,L r~ ; i z i x 1! = = < z @z 5;; a<= z : - Y z w w 3 > 0 E ;: d 0 ELEVATION : 05 2 LA :Y?: W; :z= 0” = L :, ; ; a c : * atn Lv)O ,“- PZ . * ; - L :i; >-o oz 2 . 0 v) : ao= “0 :uo : s 0 : ; DESCAlPTlON z ” 0 0 u 17 - ML Green To Pale Green Humid Very 18- SANDY SILT To Hard Moist 2 PB 2 ! 27- 28 REFUSAL AT 28' SOUTHERN CALIFORNIA ,SUBSURFACE EXPLORATION LOC SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-7-81 JOB NUMBER: 8621081 Plate No. 13 i 5 d . . L ) - , 2 :, c -. 2 = < ; BORING NUMBER 7 7 & : ,L gw2 : z=+ ;z; ;; zlr Y ii > 0 Y : p’ 2” w”;, 0; ELEVATION : 2 (L;z =c. **; z 3 J- W: z ; ; : -zi * u 0 : u) 4rJl 2,; +cn= 00 Lu :;; az . 0 g i CT * : * z ‘(cl= gi; ,-o lJ0 ,y,o g s 0 = I: DESCRIPTION 0 0 0 0 0 0 CL Brown To Greenish Brown Humid Medium I- SANDY CLAY, Dissicated Dense (Topsoil) --- 2 Moist CL Green SANDY CLAY Grading Moist Medium Stiff 3- Into SANDY CLAY / CLAYEY TO SAND Stiff 4- SC/CL (Weathered Santiago Formation) Stiff 5- SC Pale Yellow Green To Pale Moist Dense - us Green CLAYEY SAND 43 (Santiago Formation) --- ---_- - -_ - SC Yellow Brown CLAYEY SILTY Moist Dense 19- SAND 25 SOUTHERN CALIFORNIA . SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-?-E JOB NUMBER: 8621081 Plate No. 14 - L 1 - - - 1 3 2 5 ,:> ; -. > gy1 z ; BORING NUMBER 7 5 z =+ ; s - ;; =* 4 f”;, <a: ; 2 ar w; 5 0 E -‘: ELEVATION ,” 2 25; 0 == “& E’;= 0” ii w ; - 4 * 4 L E : 0 PO70 . 0 :o’u ;i; z -0 5; i ,’ a x z 0 = I DESCRlPTtON “0 ZK2 0 0 u 0 0 ” 10 - US SM Lavender & Rusty Yellow tiumid Very 50/55” !l Brown SILTY SAND Dense (Paleosoil) !2 !3 Pm-.- ----------_- --___ SC/ Light Brown With Lavender Humid Very !4 - SM Tint & Pale Greenish To Dense Moist Brown CLAYEY SILTY SAND !5 - !6 PB 27 ?a - 29 - 30 - US ML CLAYEY SANDY SILT Very 50/W’ 105.6 15.7 Hard 31 - ?2 - 33 - 34 - BORING ENDED AT 35' 35 d SOUTHERN CALIFORNIA _ SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: s-7-86 JO8 NUMBER: 8621081 Plate No. 15 ~1 .- I - - - - .1 > - - I - -~ -‘, : 2 z ; BORING NUMBER 8 z z = 4 5 : Y ; w = p’ OLI -‘g ELEVATION w 3 > 0 : ,’ ; ; : I ro;, T O 0 2 v) : ; 3 4 s ; p’ I DESCRIPTION ” : 19-’ St-1 Pale Olive Grem Moist Very SILTY SAND Dense 24- 25-- -_- - - --_ Yellow Brown 26- 27---------- Yellow Brown & Pale Olive 2a- Green 29- _ us 30- 50/4" 31- 32- 33--------- REFUSAL AT 33' SOUTHERrl CALIFORNIA SUBSURFACE EXPLORATION LOG - SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-14-8 JOB NUMBER: 8621081 Plate ND. 17 - - .- , - I - - - .- 1 - 2 - - - ‘~ , E 0’ c y > ; BORING NUMBER B I- Y =, 52, g:; z UI; ;i =I- * ;z- 3, @z - u s - z= y- > 0 E !t 2 0 ELEVATION w 3 g+; ;=: =: =g ; ; P ti Ok : ,’ uow +v); 00 4 v 0; 2 aLo0 g 4 In 0 az ; i ? : 2 u) z < 1 40= p; ,cz DESCRIPTION *o :u: : I: z = I * 0 0 _p 0 0 SM Light Grey SILTY SAND Humid Medium Dense I- (Topsoil) -- Moist Oense 2- SM Pale Greenish Grey Moist Dense _ BAG To Very SILTY SAND --- Dense Humid 3- (Santiago Fromation) To L Moist 4- -?- - us Very 88 Dense 5- 6- J- 8- 9---- -- Olive Green lO- 1” " 3AG 13 18- -------- - us Pale Olive Green 90/9" 19 SOU-iHERN CALIFORNIA . SUBSURFACE EXPLORATION LOG .-- SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-14-86 JOB NUMBER: 8621081 Plate No. 16 - - - - - - 2 ,~ -. -Y ,” - > ; BORING NUMBER 9 I- Y ,L c “’ = + fl: z=+ ::; ; CL- VI r : - t : z Y ri 2 ELEVATION Us 3 I- fi : ml,? 05. : :+ L ,??I aa-, z WZ :z= ou z :, Y ; ; PinO 0 : (0 :o oy 4 ‘ . : a z *cl= g;; l -o 0; -l* 5 0 E ; DESCRIPTION “0 ,“uo g z ” c 0 - c 0 SM Yellow Brown SILTY SAND Humid Dense l- (Paleosoil) - BAG 2- ----- ----_-._ - -- .---_ _ BAG ML White SANDY SILT Humid Very Hard 3L - -------- -.- ---- - sC, Yellow Brown & Pinkish To Humid Dense 4- SM Red Brown CLAYEY SILTY SAND 5-------- Pinkish To Red Brown 6- Speckled White 7 BAG 8 --- Highly Weeathered Very 7215.5’ Dense 5013” BORING ENDED AT 28' SOfJTHERN CALIFORNIA SUBSURFACE EXPLOR4TION LOC SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-14-8, JOB NUMBER: 8621081 Plate No. 18 f z 0 7 ; BORING NUMBER 10 ; Y ,:> gY ; i-i = = a z=+ x ;;; ;; : - Y ii ul5 W;, = P Y d U ELEVATION :+ u.lz L = 2 2 o Ok. : L? 42: W: I- ; it EL= 00 :, WY) PWO 4 0 z * . 0 ,” 0 ii; F oz - : 2 < v) 4 z :o’u E : 00 EKO 0 5 0 DESCRIPTION : ; ” z ” 0 0 ” SM Pale Yellow Tan Moist Loose 1- SILTY SAND To Medium (Fill) Dense 2- 3- 4- SM Brown SILTY SAND Humid Medium (Topsoil) Dense 5 SM Pale Greenish Grey Moist Dense SILTY SAND (Santiago Formation) Very 50/4” Dense =: 30- BORING ENDED AT 30' SOUTHERN CALIFORNIA SUBSURFACE EXPLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-14-86 JOB NUMBER: 8621081 Plate No. 19 - - - .- .- - - 1 .~ - .~ - w 5 0 7 e BORING NUMBER 2 ; gwz z = k- q 11 ,L - L: w- z=+ ;;G ; (4% : ; - w T 0 E w si 0 ELEVATION z = 5 0 ;: oy , L! 2 ,“+u: 4 In 4!?“u Ul: E’,= 0” i ; ; 0” 2 u) mn;; av)o :, Y :o 4.z * u . ,y;;, >11 6; L < cn 1 4x -lo= Y % “0 :a0 : x 0 F ; DESCRIPTION ” n 0 0 u 0 - SC Red Brown Loose Humid To 1- CLAYEY SILTY (Topsoil) --- Medium Dense 2- SM Yellow Brown Moist Dense SILTY SAND 3- (Decomposed Granitic Rock:-- - Humid 4- 5- 6- J- 8' 9 - BAG 16 11---- -- -- - Fractured Rock 12- -- Very Dense 13- 14 REFUSAL AT 14' SOUTHERN CALIFORNIA . SUBSURFACE EX,PLORATION LOG SOIL &TESTING, INC. LOGGED BY: JH DATE LOGGED: 5-14-8 JOE NUMBER:8621081 Plate No. 20 .- - - .- ) - - c : it z ; BORING NUMBER 12 ,:> gwr z 2 = = 4 : ,” z=+ WY;, ;;; v, ; : - w ; Y > 0 F 2 2” ;; ELEVATION :: IE+ 4a; z I- UZ 2 2 ; ; 2 I mv, 4 u) *r?: : G Pu)O EL= 00 Low 4 u . 0 z-4 m 42 ::a ;,a ,-P 0; ii : : s 0 = z? DESCRIPTION oo ,y!lz ,” 0 n u 0 ” 0 SC Yellow Brown & Brown Humid Loose I- CLAYEY SAND --- (Topsoil) Moist __ _ 2- Medium Dense 3 SM/ Pale Yellow Brown Moist Dense SC 4- CLAYEY Very SILTY SAND . (Santiago Formation 5- '1,---- Yellow Brown ------ 6- bag Pale Grey Yellow Brown 7--’ -- ! Pale Greenisb Yellow Tan 8' g-- ---- - --__ - CK SM SILTY SAND Very 5015.5” lo- Dense 11- -----___ lZ- Yellow Brown Humid To Moist . 13- 14- SOUTHERN CALIFORNIA SUBSURFACE F,XPLORATION LOG SOIL &TESTING, INC. LOGGED 81: JH D&TE LOGGED: 5-14-86 JOB NUMBER: 8621081 Plate No. 21 L I - - - ) .- - 1 - - : 2 ,L ; g w .E z UC 2 -. > pBORlNGNUMBER12 gi z,m ;z; ;, =I- 4 Y G - t?u;; F Y -’ !! ELEVATION Y 3 .I<: 2 5 t- > o L a 02 2 :, :5; lU= :z: 00 ii z 8.. ; * v : I *II) P In 2 0 z ::” : -c I *o= ;i; >1 0 i : DESCRIPTION 00 :a2 ,” 5 E = z 0 0 0 P 0 5 91 Yellow Brown Humid Very 6- SILTY SAND To Dense Moist Pale Greenish To Yellowish Tan --- Pale Olive Grey 5015.5" ?8 29 - 30 - 31 - SC/ Humid Very SM Pinkish To Red Brown Dense Speckled White SILTY CLAYEY SAND (Paleosoil) 32 - 33- 34 us BORING ENDED AT 34.5' 50/5” SOUTHERN CALIFORNIA SUBSURFACE EXPLORATION LOG -- SOIL &TESTING, INC. LOGGED ay: JH DATE LOGGED: 5-I4- JOB NUMBER: 8621081 Plate No. 22 - 3 - - ) - - - - .Il .- > - - / .- - -1 ; 2 0” ; TRENCH NUMBER 1 !- Y ’ > -: L l El= ::* E ; ii w3, FG = w tiu a: uu;; z- is+ : 0’ $5 ELEVATION l u) ,LZ ;: I- 2 w w si = s 2 ;g ,’ 0, E ;=cc -0 : 6: : 5 0 DESCRIPTION E” z s 0 i; 0 =0 0 u 0 SC Grey Brown Humid Loose 1- CLAYEY SAND -- --- -- 2-b (Topsoil) Moist Medium Dense SC Light Tan CLAYEY SAND Moist Medium (Santiago Formation) Dense To 3---------- Dense SM Grading Into Pale Yellow \ - -. To Greenish Tan Dense 1- SILTY SAND CK 5- BAG j- 7- 3- - CK I TRENCH ENDED AT 9' SOUTHERN CALIFORNIA .SUBSURFkCE EXPLORATION LOG SOIL & TESTINGJNC. LOGGED BY: JH DATE LOGGED: 5-2-86 JOB t4UYBER:9621081 Plate No.' 23 2 z p” ; TRENCH NUMBER 2 +LlJ :> : x ; -: = ,z E= &zk w- : Ji 40 ::; - - ELEVATION =z z- 5b 2; ; P !!i 2: * Y t- 2 ;; ,‘,o ;; “if :: _o ;; : : <I 5 2:: ii; z s,: In : u 0 40 DESCRIPTION 0 0 0 SM Brown To Red Brown Humid Loose I- SILTY SAND (Topsoil) SM Red Brown SILTY SAND Humid Dense 2- (Decomposed Granitic Rock) Fractures Dipping N15'-20°W 3, ---- -BAG Very 46 CK Dense 5- 6- 7 ~,-YC;:'I.~ !?E'LS~',L F,T 7' TRENCH NUMBER 3 3 SM Brown SILTY SAND Humid Loose I- - (Alluvium) -m-----m----------- SC Brown CLAYEY SAND Moist Loose ?- ------ 3- Moist Medium CK To Wet Dense 107.5 14.3 I- SM Red Brown To Yellow Medium Moist \Dense To Brown SILTY SAND Dense i- (Decomposed Granitic Rock) {L Dense - .L -- Very TRENCH ENDED AT 5.5' Dense SdUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOC SOIL & TESTINGJNC. LOGGED BY: JH DATE LOGGED: 5-2-B6 JO6 NUYBER: 8621081 Plate No. 24 - - - - - - , - - - -1 .- ~3 - 7 - - ) - 1 -2 1 5 ; : ; TRENCH NUMBER 4 i” b:* ztk z ii ; T z z l d ; ELEVATION :; 2:; iii w- w < - Y z- 5b : p’u)* :r :: 6’“” ;; z GE ; i &z t-3 030 -p < . : :, z %=cc ; :g i; = c ” DESCRIPTION go a 0 ‘ 0 - M_ Brown SILTY SAND (Topsoil) ------_ ~,,.a --~QAlz'_, - __-_ _ CL& Brown SANDY CLAY & SANDY Moist Soft 1 SC/CL CLAY/CLAYEY SAND To Wet 2- SM Pale Greenish To Yellowish Moist Medium Brown SILTY SAND Dense -- -- 3- (Santiago Formation) Dense 4- --- Very CK Dense 115.0 11.2 BAG ECONOMIC REFDSAL AT 6.5' TRENCH NUMBER 5 3 SW Red Brown Mottled Yellow Humid Loose ML & Tan SILTY SAND / SANDY BAG SILT TeiiG io Very (Paleosoil) Dense CK 3- TRENCH ENDED AT 3.5' SOUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: DATE LOGGED: JH 5-7-&j JO8 NUMBER: 8621081 Plate No. 25 g TRENCH NUMBER 6 ; i! c&u A; E -. * x = +4; z= zz- - Y- UI~U) : ; ; : P !Y 2: ELEVATION 42 CCL2 l&4= =“: 2 ( ri 2,: 0: lny ‘d l : iTg rl m 0’ :o’g c 5 a ; z x 0 E : DESCRIPTION 0 0 0 : D SM Brown SILTY SAND Humid Loose 1’ (Alluvium) '- - - Moist ----- 2- SC Dark Grey & Brown Wet To Loose CLAYEY SAND Saturated 3- 1- --- - ---- -_- SC/ Mcttled Red Brown & Grey Wet j- CK -- Loose To SM CLAYEY SILN SAN0 Medium 109.9 16.2 -- - j- + Water Saturated F Table r, t- I ML/ Blue Grey SANDY CLAYEY SILT/ Moist Stiff CL o- SANDY SILTY CLAY (Santiago Formation) SCkTHERN CAiJFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTlNG,INC. LOGGED BV: JH DATE LOGGED: 5-2-86 JOB NUMBER: 8621081 Plate No. 26 ,- -, - - - 1 - - - - - _1 , .- - - 1 -. ), .- - - - 1 - I - . . I - f z i : 0 1 2 3 4 5 6 7, 3, - CK BAI CK \ a/ SC ;M - rRENCH NUMBER 7 ELEVATION DESCRIPTION Grey Slightly CLAYEY SILTY Humid SAND -- (Alluvium) Moist Pale Greenish Tan SILTY SAND (Weathered Santiago Formation) TRENCH ENDED AT 8' -- Moist Wet Moist Loose -- - .oose To ledium lense 95.4 14.3 .oose To Medium Dense \ Medium- Dense L Dense - SOUTHhi CALIFORNIA ,SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: 5-2- JO8 NUMBER: 8621081 Plate No:27 - - - -I - ) -~ - - - - 1 - ?I - - - - . i 1 - 7 z ; p’ “I cl I-- L- ,- I- -C 6 3- 1-i :K CK CH SM rRENCH NUMBER 8 ELEVATION - DESCRIPTION Dark Grey SANDY CLAY (Topsoil) Green Brown Cobble SILTY. SAND, Maximum Size 10" To I (Lusardi Formation) rRENCH ENDED AT 11' Humid Medium Stiff -- Moist Moist Dense &HER” CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: - - JOB NUMBER: 8621081 Plate No. 28 - - - - 1 J - - - - 1 ,- 1 - - ,I - - : E - TRENCH NUMBER 9 CY tp r gzt z ;i Y- ii Y UJ 0 z : : := luwu) lx z; - w -‘o z- : 2: o Y ELEVATION =z Z&Z 5; “zj ;; 2,: :; 5 ZY 5: ,4 : < < s :gg ; 5; i,” o w : 0 0 s 0 =0 OESCRIPTICN 0 0 CH Dark Green Grey SANDY CLAY, Humid Medium Stiff BAG Disiccated --- (Topsoil) Moist CL/ Green SANDY SSILTY CLAY - CK CH Moist Medium (Santiago Formation) Stiff --- Medium Stiff To BAG Stiff ------ -- SC/ Pale Green CLAYEY SILTY SANC Moist Dense SM -- SM Pale Green SILTY SAND Moist To Dense Very Moist CK 111.3 17.7 SW BAG SC Grading Into CLAYEY Very SILTY SAND 3- l- CK TRENCH ENDED AT 11.5' SdlJTHERN CALIFORNIA .SUBSURFACE EXPtORATlON LOG SOIL & TESTINGJNC. LOGGED BY: JH DATE LOGGED: 5-2- JOB NUMBER: 862,081 Plate No. 29 - - - I - I - -. - 1 - :/ - - , - - ,- - 1-- 1- CK j-- \ j- _ CK I, i- I- O-- SC - SF CL lRENCH NUMBER 10 iLEVATlON DESCRIPTION Light Brown CLAYEY SAND (Topsoil) Light Grey To Pale Greenish Grey SILTY SAND (Santiago Formation) 'l/Z" CLtY LENSE, DIPS 11 N50W Pale Green SANDY CLAY, Jjp> 10' N 60°W - Light Grey To Pale Greenish key SILTY SAND :RENCH ENDED AT 10' Humid --- Moist Moist Humid To Moist -- Moist Loose Medium Dense --a Dense --- Dense To ery Dense Very Hard -- Dense Tc lery Dens > I- u, z- Y - o :: z 0 112.9 8.3 - S&THERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: 5-g-86 JOB NUMBER: 8621081 Plate No. 30 - ) )- - ) - ) - - - - - L - ) : E ; TRENCH NUMBER 11 i” 6s ;i t ;i ; -: Y- : = ,c? 5:: a z- !?I+ ;; -- E ,” Ok ELEVATION “,5 s:, =+z 2 ml.., EG 2”” so : mo q k: : <I :gg c 6; =;: 0 x 0 z! :, : 0 =0 DESCRIPTION 0 0 0 0 - BAG SM Light Brown Moist Loose 1’ SILTY SAND (Alluvium) --- Moist z- 3' S"/ Dark Brown Slightly CLAYEY Moist Loose 4 BAG SC SILTY SAND CK 5 -- SM Light Grey SILTY SAND Moist loose 6- SM Light Grey SILTY SAND Moist Dense CK 7- (Santiago Fromaton) T?E:lCll Ei?Eb .!T 7.5' TRENCH NUMBER 12 0 SC Brown Mottled Humid Loose l- CLAYEY SAND --- (Alluvium) Medium --- Dense 2- Moist Tedium- Dense To Dense Light Greenish Grey To Pale Moist Medium Green Tan SILTY SAND, Upper Dense --- 1' Porous Dense (Santiago Formation) SOUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL b TESTING,lNC. LOGGED BY: JH DATE LOGGED: 5-9- JO6 NUMBER: 8621081 Plate No. 31 - - ? .- - - - 2 - ~~1 - - - - 2 z F TRENCH NUMBER 13 2: ,G* ;i = ,G 5:: z : u, “Z ; z =z lccz z- 5; yo z c - - z !Y OY ELEVATION L?u % ii “2 2” 2-0 EC -a LY Is;= 5; :, : 0,: :=a ifi” $ := 0 u OESCRIPTION ‘zi :: 0 SC Brown To Greenish Brown Humid Loose l- CLAYEY SAND, Cobbles On Surface 2- (Alluvium) sAG SC/ Grading Into SANDY CLAY/ Medium CL CLAYEY SAND Dense t- Medium Si;f$fTo 1 j- CK CL Grading Into Pale Yellow Moist Medium Greenish SANDY CLAY Stiff To \ Stiff i- '. - SC Grading Into Dark Brown Moist Medium \ Mottled Yellow Brown Dense I_ CLAYEY SAND - CL Grading Into Pale Green & Moist Stiff To Yellow Green SANDY CLAY Very Stiff L SC Pale Green CLAYEY SAND \&is& Dense To - Very Dense od (Lusardi Formation) Humid To Moist TRENCH ENDED AT 10' SOUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL 6 TESTING,INC. LOGDED BY: JH DATE LOGGED: - - JOB NUMBER: 8621081 Plate No. 32 w E i ; TRENCH NUMBER 14 k” 6.Q 2 : ;i ; 7 -t- a =z;; w - y c “,5 iii = -‘L! cc&Z z- ;: > ; 2 OY ELEVATION 2; g :: LouI 2’ “z 2 ; : -0 ii 2: =: Y, a L 0 *OS o 0: E 2 0 3 : : 0 0 UC c OESCRIPTION 0 L 0 - SC Red Brown Htzid Locse 1- CLAYEY SILTY SAND --- (Topsoil) Medium Dense 2 - CK SM Red Brown Porous Humid Medium Dense 3- SILTY SAND (Subsoil) I SM Pale Green Humid Very SILTY SAND Dense j- CK (Lusardi Formation) BAG j- I- 3 Id TRENCH ENDED AT 8' SdUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL S TESTING,INC. LOGGED BY: JH DATE LOGGED: - - JOd NUMBER: 8621081 Plate No. 33 zi z : ; TRENCH NUMBER 15 +ul I- 0 ’ > z ;i ; 7 z l := ztk Y- WO z ;i 20 3 - - 2:: z- 5+ 2 ;: ECEVATION !t 0% 2; 2 2 Yu *In- 2-0 :; LY 5; it 25 -0 i : -2 a L 6 5 l og ,“r z 2 0 : 6 0 0 OESCRlPTlON 0 ?I 0 CL Dark Grey CLAY, Some &mid _ Medium Boulders On Surface Moist Stiff 1- (Ttopsoil) 2- SC/SM Pale Green CLAYEY SILTY Moist Medium SM SAND Grading Into SILTY Dense To ~Dense 3- SAND L (Santiago Formation) DenseTa Very 4- Dense 5- 6- 7- ML/ Pale Green SAINDY CLAYEY SILT,Moist Very CL Slightly Fractured Stiff B- 3 .- SC Grading Into CLAYEY SILTY Very Very SAND Moist To Dense lo- Wet 11-i TRENCH ENDED AT 11' SCkJTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & tEStlNG,INC. DATE LOGGED: 5-9-86 Plate No. 34 .- .- p” : ; TRENCH NUMBER 16 cl&l G> z -: = ,: z= ;zt c ;i Y- ; z Y~ul i-i :? -- a: : Y $; ELEVATION 2” CCL2 z- 2;: “d; 5; zw ;t z i :: :=a -D 5; :1: o : : d “,” z ,“r 0 2 0 DESCRIPTION ” : 0-r CL Dark Grey Humid Medium 1’ SANDY CLAY -A- Dense (Topsoil) Moist SC/ Yellow Tan Mottled CLAYEY Moist 2- Medium SM SILTY SAND Dense 3- (Santiago Formation) _Contacipc. 6' N 50' F CL Pale Green SANDY CLAY, Moist Very 1- Stiff &iiiahtlvr- ML Pale Green SANDY SILT Moist 5 Very Stiff j- SC/ Pale Yellow Tan To Yellow Moist Very SM Green Slightly Dense r- CLAYEY SILTY SAND Humid i- To Moist I TRENCH ENDED AT 9' SdUTHERN CALIFORNIA ,SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: 5-g-86 JO8 NUYBER: 8621081 Plate No.~ 35 - - 1 ~) - - - 2 EJ* G : ; TRENCH NUMBER 17 + Y E ; Y z = ,: ifI= ;zt ;i lui! UJ c z- 2 i: -- z P 5 gi ELEVATION a? g:; 22 cn w z; 5’; iiw :: 5 ,‘,-0 -0 ; 6 : :; :=u z 6; ;; =0 In : DESCRIPTION $0 0 ‘: u 0 iL Red Brown SANDY CLAY Humid Medium l- (Alluvium) -se Stiff CK Moist 2- SC Yellow Brown Mottled, Moist Medium CLAYEY SAND To Wet Dense 3 SC Mottled Yellow Brown & Moist Dense SG Greenish Brown BAG SM CLAYEY SAND TO CLAYEY SILTY SAND (Santiago Formation) 6- CK J- B- 3 TRENCH ENDED AT 9' SiUTHERN CALIFORiIA .SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: 5-g-86 JO8 NUYBER:8621081 Plate No. 36 - -. , - - - 3 - .- - - - 8 : :, i: TRENCH NUMBER Ii, I-Y G> z E ifI= :zb s 5 -: = = ,z w- 3 uyz u, =“- -- z Y 05 ELEVATION IL $7. Z= 5; LY ;: a YI : “2, ;L 00 2 - ,: “5 5: 0 2 : < s :=a z zig iif= 0 DESCRIPTION “,” 0 ‘s :: 0 SM Brown SILTY SAND Humid Loose l- (Topsoil) --- Moist 3- 4- r, _ CK SM Pale Greenish & Light Grey Moist Very BAG Dense SILTY SAND, CEMENTED 5 (Santiago Formation) ';EF::.C;.L ~.; ..' TRENCH NUMBER 19 I ’ SM Brown SILTY SAND(Topsoi1) Humid Loose Brown CLAYEY SAND Humid Medium l- BAG SC --- (Subsoil) Moist Stiff > SM Pale Yellow Tan To Pale Moist Dense !- Greenish Tan -mm SILTY SAND Very Dense I- (Santiago Formation) j CK BAG TRENCH ENDED AT 9' SdUTHERN &LIiORNIA .SUBSURFACE EXPLORATION LOG LOGGED BY: JH DATE LOGGED: SOIL & TEStlNG,INC. - - JOB NUMBER: 86210B1 Plate No. 37 -. .~ - - 3 -- - - - 1 - 3 - - - - 2 !t z * * E 7 ; TRENCH NUMBER 20 = ,: :” $ g:+ ::i if- ,i! 5 z ; y15- ELEVATION I- 0”; 5; ;p 5 L: I- k ; mtn. $Z ‘“0’ “, m 2 Gw 6; -I: <:I 0 :, ‘: $ := : + 0 x0 DESCRIPTION u 8 I SM Brown SILTY SAND (Topsoil) Humid Loose 1 SC/ Brown SANDY CLAY/CLAYEY Humid Medium CL Dense BAG SAND (Subsoil) L----- > Moist Dense/ Stiff 3 _ CK SM/ Light Brown CLAYEY SILTY Moist Medium SC& Dense I- CL SAND With 1" To 2" CLAYSTONE LENSES Dipping 2'-5' NE j- (Santiago Formation) CK i- I CK SM Pale Yellow SILTY SAND Humid Dense S- BAG 1 TRENCH ENDED AT 9' SOUTHERN CALIFORNIA .SUBSURFACE EXPLORATIOM LOG SOIL & TESTINGJNC. LOGGED BY: JH DATE LOGGED: 5-g-~” JO6 NUMBER: B621081 Plate No. 38 1 - - - p” z ; TRENCH NUMBER 21 G> i=; z ;i z Y- 5 Y ; l i!i 5+ y a z ?U z- 2 ; I Y OY ELEVATION +i ; *Y) 2s ;-cl _o z: 2: -I & E 2 es c s; :, d x 0 ,“= DESCRIPTION ” 0 0 0 0 0- SM Humid Loose 1-', Light Red Brown SILTY SAND (Topsoil) SC Light Brown \ Humid L Medium \ CLAYEY SAND (Subsoil) Moist - Dense Pale Greenish Grey Moist Dense SILTY SAND --- (Santiago Formation) Humid TRENCH ENgED AT 11.5' (Weathered Santiago Pale Greenish Grey SILTY SAND (Santiago Formation) ’ SbUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTINGJNC. LOGGED (I*: JH DATE LOGGED: 5- 5- JO6 NUMBER: 8621081 Plate No. 39 - - - , .- - - 2 - , - , - i? r ,” Y c TRENCH NUMBER 23 :: :> 5:: L ;i ij w- ; w 0 z ?F: - = ,I5 :: =+2 z- -- ; a !Y gx ELEVATION z!? a!?; k” g’; 5; ZY +o -0 2,’ g : c.9 $” o 5 ; z :: $ 2 0 E’ 0 v) ” CESCRIPTION 0 ” 0 SM Brown SILTY SAND Humid Loose 1 (Topsoil) SC Brown CLAYEY SAND Moist Loose To 2- (Subsoil) Medium Dense 3- SC Mottled Yellow Brown To Moist Medium Dense Grey CLAYEY SAND (Weathered 4- Santiago Formation) SM Pale Greenish Grey SILTY Es% - Dense To 5- 'SAND (Santiago Formation) Humid To Very Moist Dense 5 -r TRE;!CH EKE: '.‘.T -;' TRENCH NUMBER 24 I 1 --- , --- I I- Yellow Brown (Weathered Santiaqo Formation) Dense SM ,- Pale Greenish Grey SILTY Humid To Very Moist SAND (Santiago formation) Dense , TRENCH ENDED AT 6' SCiUTHERN CALIFORNIA ,SUBSURFACE E,XPI,ORATION LOG SOIL & TESTINC,INC. LOGGEDBY: JH _ DATE LOGGED: 5-15-?6 JO6 NUMBER: 8621D81 Plate No. .40 - .~ .- - - - 1 i -. f TRENCH NUMBER 25 z : :: :* z ;zt - YZ ; 7 z = ,: _- Y 0% ELEVATION 2= g:; :- : $$ ZY)Y gz 5; ;: P mu? 0) 0 CL LY 52 ‘d i 2 : <S : 2:: 2 6; 0 s 0 ,“’ DESCRIPTION 0 0 : 0 SM Dark Brown SILTY SAND Humid Loose I- With Organics (Alluvium) --- Wet 2, - BAG '$ Red Brown CLAYEY SILTY Wet To Loose 3- SAND, Porous Saturated v --Water --- -- - - 4- 7 Table Saturated Loose To Medium Dense 5- 6- 7- SW Red Brown Slightly SILTY Saturated Loose To 5- SP Medium SAND With Rocks Dense I ECONOMIC REFUSAL CONTACT WITH DECOMPOSED GRANITE? TRENCH NUMBER 26 ? SM Red Brown SILTY SAND Humid Loose I- (Topsoil) >- Moist Medium 3- SW Red Brown CLAYEY SILTY SAND SC Grading Into SILTY SAND '@se -- \ SM (Decomposed Granitic Rock) Dense TRENCH ENDED AT 3.5' . S&H&N CALIFORNIA ,SUBSURFACE’ EX?LORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: JO6 NUYSER:8621081 Plate No. '41 E 2 p’ L TRENCH NUMBER 27 :: #-u * > E YZ ; 7 -= l EC G we = r’o :: ,;z z- ;; EL !Y OY ELEVATION ‘,” 2; E P “2, 2,: -0 Y) y 5,’ k 2; : “,=cc z iTg := : z go 10 ” 0 DESCRIPTION u E 0 sc/ Dark Brown CLAYEY SILTY Saturated Very SM 1 SAND Dense BAG (Alluvium) 2L --- Loose 3- 1- SM Yellow Brown SILTY SAND - - - Very Wet Dense To j- (Decomposed Granitic Rock) .$$$,- Dense j- Moist TXlXii Eil?E; ;*T .S' TRENCH NUMBER 28 I - SM Dark Brown SILTY SAND Humid Loose (Alluvium) Boulder on Surface BAG >oiSt- SM Yellow Brown SILTY SAND Moist Dense (Weathered Decomposed Granitic Rock) TRENCH ENDED AT 4' SCiUTHERN CALIFORNIA .SUBSUREACE EXPLORATION LOG SOIL A TESTlNG,lNC. LOGGED BY: JH DATE LOGGED: 5-15-e6 JOB NUUBER: 86210B1 Plate No:42 z ;; : ; TRENCH NUMBER 29 CY G> z wii ; -. = ,: E= ;zrI z g:‘: ;i ;; - _- ELEVATION =z SC ,” 0% ‘,” 2”” ;z ;: !i : : P -in- 0) * 0 0 -D : 2:: ut :=a 6: 2 tit 0 $0 0 z 2 SO : “0 DESCRIPTION 0 u 0 SM Brown To Red Brown SILTY Humid Loose 1’ SAND - BAG (Topsoil) Boulers on Surface 2- ------ Moist Loose To Medi urn 3- Dense 4- Red Brown SILTY SAND Moist Dense SM -3AG (Decomposed Granitic Rock) Very 5L LARGE FLOATERS? Dense REFUSAL AT 5' SOUTHERN CALIFORNIA ,SUBSURFACE EXPLORATION LOG SOIL & TESTINGJNC. LOGGED BY: JH DATE LOGGED: 5-15-86 JO8 NUMBER: 8621081 Plate No.~43 $ a k! ; TRENCH NUMBER 30 -: ig A= z us Y E l zz- u, = -‘o W~u) ELEVATION RF ,~Z z- ;+ ’ If: 0% 2” : :: 5 “t: 2,: :; ,4 z :; -D 0 :zg 0‘; i; :, : z z+ 0 u DESCRIPTION 0 0 0 , 3 SF1 Brown SILTY SAND Humid Loose l- (Topsoil) A-- Moist > SM! Mottled Grey & Yellow SC Humid To Medium i CK Brown Slightly CLAYEY SILTY Moist Dense SAND, Porous BAG I (Terrace Deposits) ,- ,- _ CK B SM Yellow Brown SILTY SAND Moist Dense (Decomposed Granitic Rock) k TRENCH ENDED AT 11' SOUTHERN CALIFORNIA .SUBSURFACE EXPLORATION LOG SOIL & TESTINGJNC. LOGGED BY: J,, DATE LOGGED: 5..15-86 JOB NUMBER: 8621081 Plate No./44 - -. 1 .- )~ .- - .- - - 3 - ,.) ,~.. E ii 0” -I ; TRENCH NUMBER 31 E l i” :> “,5 ;zt t ci uz ; WO z Y -Iu- ii” c “:; ; a*Y) ELEVPTION ;g P;u)Ly g Z” 5; ?; +v -0 ZY 3,’ Ul 2 : l = “,“” O In ; 4:: z Fig 0 IO z= DESCRIPTION 0 0 z 0 SM Red Brown SILTY SAND Humid Loose I- (Topsoil) 2- 3- SM Red Brown SILTY SAND, CK Very Porous (Terrace a- Deposits) 5----- -- Minor Seepage Moist Medium Dense --- Wet 5 .---e --- 7 BAG Mottled Grey & Red Brown, Moist CK Porous 3- a--- -- - Brown LD- _ CK II TRENCH ENDED AT 11' --- Humid To Moist I SOUTHERN CALIFORNIA 1 ,SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGEDBY: JH DATE LOGGED: 5-15-86 JO8 NUMBER: 8621081 Plate No: 45 z ii p” ; TRENCH NUMBER 32 k” b > ;%k L ;i ; : Y- = z : ;5 YZi iTi A- ;; ;: ; yoy ELEVATION 2: ZZ zrw :z: c g “2 EC.90 0 y -D u) Y :: UI 6; is 0 5 $5 o z z 0 = 0 =0 DESCRIPTION 0 0 0 SW Dark Brown CLAYEY SILTY - - - H-mid Loose l- SC SAND (Alluvium) 2- --- Moist To Wet 3 SM Yellow To Red Brown Moist Dense 1- SILTY SAND (Decomposed Granitic Rock) 5 TRENCH ENDED AT 5' SOUTHERN CALIFORNIA SUBSURFACE EXPLORATION LOG SOIL & TESTING,INC. LOGGED BY: JH DATE LOGGED: - - JO8 NUMBER: 8621081 Plate No. 46 I . / I- I r I -i I - I i ‘e I I” , ‘i I 2’ I. 7. : : : : : : : : 1- :-, : : : : : : ~ : : : : : : I : ; j : : ‘I * 19@6.5’-7.5’ I!/ S Stmdard Sieves % *no wo 90 %I T20 @7.5’-8.5’ / Hydrometer iM/fWteSJ / I 2 s JO ,I*) “4& /50 G., I .~. sjo .I I ? 5 ,D : Eli / +: .._.. ij _ O:*,k ;.::I .j ,: 1 I20 - e ; : ,, 10 -2 ,z : F ,..,jp ’ I 5*, 0.P - I Ta@ l’-2’ PARTICLE SIZE LIMITS I BOULDER : COBBLES SRAVEL I SAND SILT OR CLAY I COW*, Fh coarw hl~diun Filll I (12 in.) 3 in. 3/4 in. No.4 No.10 No.40 No. 200 ll. s. STANDARD SIEVE SIZE t4 AT 5*-e’ 11 AT 4.6-5.5’ 2’ I” Y*. % 3’- _ ‘.~. : .~_ : 1: - ( F’7-6 ‘5 ..L .-4 7. I : : 7. ; ; 7 : L. 1. : : +. I j ! : : 7 :; I- : 2. ‘. : : J.. i : : II : .; -3 ip~ ._I. 7 : :; : :: : L.: ::: : : : : ::: : : ~ : : : : : : ; : :: : :. : 9016 IO Hyummef ef /Mhwresl 8 2 _ - ~--~.. ---. - 8, .? ~~~ - ; 1 : : ~-~~ __i :...~.~- ;, S..~,, : .: 5.1 2 ; (II 31 PARTICLE SIZE LIMITS I BOULDER i COBBLES GRAVEL I SAND SILT OR CLAY I COW** Fine COWW Medium Fh 1 - (12 in.) 3 in. 3/4in. No.4 No.10 No.40 No. 200 u. s. STANOARO SIEVE SIZE I I I " ,v I r / I ! I- / I- I I B6 AT 25’-26’ us stondord sieves Uyd~Ometer 2’ *lo wo wo *60 Gram Size /mnv’ PARTICLE SIZE LIMITS I GOULDER~COBBLES GRAVEL SAN0 SILT OR CLAY I COW** Fim COWS. Mmdlum Fill9 (I2 in.) 3 in. 3/4 in. No.4 No.10 No. 40 No. 200 u. s. STANDARD SIEVE SIZE MAXIMUM DEWSITY a O?TIMY;P MOISTURE COPJTEHT I ASTM D1557 METHOD 78 I - l”fTl “8-e I.,.! I Maximum . SAMPLE DESCRIPTI3N Density Opt ii-f Moist (PC?) cont. ,., , 84 @ 5'-6' Red Brown Silty Sand 135.0 7.6 Tl @ 4.5’-5.5’ Pale Yellow To Greenish Tan Silty Sand 117.3 13.3 T5 @ l'-2' Red Brown Mottled Yellow Tan Silty Sand 128.7 12.5 .- .- EXPANSION INDEX TEST RESULTS SOUTHERN CALIFORNIA Carlad Tract 82-12 L SOIL 6 TESTING,INC. BY: DBA oATE: 6-19-86 cw;x~ si-ia~ sur.ww - - I 83 8 29.5 85 @ 35.5 83 @ 19.5 1 I , 0, 1 1 2M 1L 2 ZL 3 4 5 EiOFiMAL STRESS, KSF ANGLE OF INTERNAL COHESION INTERCEPT SAMPLE DESCRIPTION FRICTION (') (psf) B3 B 19.5' Undisturbed* 16 250 83 @ 29.5' Undisturbed 30 300 85 @ 35.5 Undisturbed* 15 200 SOUTHERN CALIFORNIA SOIL & TESTING, INC. mea0 IIIVFPOALE mT-.IT SAN DICOO. CILIIOPNI- m=*PD Carlsbad Tract 82-12 BY DATE DBA 6-19-86 JOB NO. I CIFICT SHEAF; SGMMASY --_L _- ,____ L-_-~-‘-’ e-s--L-~----.e-e. ..--/_--..--. .------i------- BB AT 15.5’ 87 AT 30’ 2k.i 1L 2 2L 3 4 5 WFiMAL STFiESS, KSF ANGLE OF INTERNAL COHESION INTERCEPT Si\MPLE DESCRIPTION FRICTION (") (psf) 66 B 15.5' Undisturbed * 30 300 87 @ 30' Undisturbed * 27 200 * Slow Shear car,zhad Tract Rp-1, SOUTHERN CALIFORNIA SOIL & TESTING, INC. *Pa0 LIIVLmoPLE mT*cI!T ,AN 01sc00, CALICODNIA I)P-lPD BY RATE DBA 6-19-86 JOB NO. R621n81 Plate No. 52 - , - - I .- - L I NORMAL STFiESS, KS= CIRECT St-5A.R SLMMARY Y __._ _ I I I I I ---- - -. ._ I I I I 1 2 3 4 2u L 2L 5 AT i-2' I4 AT 5'-6' ANGLE OF INTERNAL COHESION INTERCEPT SAHPLE DESCRIPTION FRICTION (") (psf) B4 @ 5'-6' Remolded TO 90% 43 200 Tl @ 4.5'-5.5' Remolded TO 90% 34 200 T5 @ l'-2' Remolded TO 90: 39 250 SOUTHERN CALIFORNIA Carlsbad Tract-32-12 SOIL & TESTING, INC. 8”: DBA DATE: 6-19-86 JOB NUMBER: 8621081 Plate No.53 0 1 2 3 4 5 5 6 z is 7 0' c 0 1 is 3 0 0 1 2 3 0.1 0.5 1.0 5 10 , 50 LOAD kips/sq.ft. SOUTHERN CALIFORNIA Carlsbad Tract 82-12 SOIL & TESTING LAB, INC. By DBA DATE *Pm0 O,“LrnOALC q Tmml!T 6-19-86 BAN OICOcl. CALIFORNIA me'100 Jos No. 8621081 Plate No. 54 - - - !_ ) - - ~.~ L ‘2 ~? - SINGLE POINT CONSOLIDATION TEST RESULT SOUTHERN CALlFORRlA l Carlsbad Tract 82-12 SOIL 6 TESTING, INC. 8”: DBA DATE: 6-19-86 JO8 NUMBER:8621081 Plate No. 55 / , Ii I IL I v I I I” / IP ; I I I -. i ; i \ : 17 ) i i 1 1 4 ; , I,:.,. :. ., / T-Y ‘-I I” .., .~ ,.. I ! I 4 : ,;I~:::: . I ; ,. -f .___, . ;.:...,. / : .: : : , .a,...‘. ~.. .- . _ . . ,. ., ..I.. _. I _ 1 1:; : : : :.: ! ,. : .I i. .! .: i~~‘::Y!’ i;I.‘:‘I1 r.- r _- ,,,~., I!’ ‘~ (, II, , I:..,:,,, ““““i I!~ “’ i’! ; y : 1’;: : , I /yy :, ;;:’ ..~ ,:, ., ii;+ I : i j ._. .i ;$:j!II, I / I ! ,/,..,a. , # , , -.....+~C. . ..:. ,, :::ii: ..;..* ::.I:; : 3 .I,, : , ;~. ..:.. I i ; .::4,!.‘: ,. .,,,. : j ,:’ :I:(~‘-‘i~):[:‘: , --_ .._.,. r ,:.:;ii, .I0 ‘. ‘ii’ .‘i I I ; ; . . 1 : , , 4 : j!:‘::’ I,,,:;: .,_l:..i. ., _-_.- .,..._ i ,~. 1 ‘.:‘.. : . :. ‘;I’:” , ,-. .A!.. ::!:;I , ,.,.I, ; _ : _ . t .- / I ! ,,I,.. t..:.., I : , 4 t , I , I , : I I ..,I;,/: ,I :..L.i. _ i. _.. ..:. , ,.,. ’ ; ’ i I I ;!;:“;’ ,...:: ,;j ; ! ; ‘:‘: 4: : - .-, , . . . . . . Vi/!,’ :Ij,:.:: I. ,. .I 1 I’ . . . ..a D 12 Y/ i ,. I. Oo i \,. .,.~! I *a 61 i’ i: I I !: ,. :: II ::.. 1 I. in. . . , . . 1 1:; .- _ .-. ; : j I I 1 , .: I : j ; ~,.. , , . ::.;.;:;.: L _ -. ~. _. _ !~. ,.. . . ,. ., : ,, .,I. .“: , : ; .!. .~F. I 8 .I. I , i , ,.t,. I , : i 4 ,-- . _.i . (...... j ,!:I*., !!:;!l, / : ; I : ‘I:‘:’ .-.,<,-- ,,...,I, I... I. ., . -... ,.., . _-___ . . . . ., (,.,I : 5 . ../..::i.: I. ‘~ ,.., ; :::, ,...I ., “:“:’ .i,,..: I ! I : II,,. ,. ::/‘:I;. . . -. , . - . . ::;I,;:’ ; .;: I iii.,! I . ,.I .I, ( I . .~: . . . 6. ,,I.(. ‘ii”” ,>:j!: I: ,::’ : j . ! /. .: ., .!,i, . . ..~I.. ./I 1 ’ : - __ _i.- ,~ . . . ‘I ,“Y !, .,.,. . I !. . .._. , . : , I , I i . . ..i.. ,..(! ,, ; ! ;.!1.; : : :!,ijll: ! 1.1.. j . .._ 90 100 180 200 270 300 -10 120 -30 t 30 40 50 60 70 80 60 80 100 120 140 160 90 120 150 180 210 240 DISTANCE ------+ joflCa~~-sbadHighlqnc!s- GEOLOGIST 4, I Ii, I JOR NO. A621.L EI~EVATION _~.~.-- ____ TRAVERSE NO. -...&l-- SURFICIAL MAT’L. -_S!! WSW SOUTHERN CALIFORNIA SOIL & TESTINQ, INC. . ..o q I”.mOAL. .Im.eT ..N OI.00. C.LILOmNI* ..,.o TRAVERSE TYPE ROCK TYPE _G_rani tic _.- ..-.- rl,Y.+n Mr. EC I / I< I )L- / f / I I I I.-/ I .L I I - , . -, i ,i!.i ,:i:: -. ._.A I.(,. F t 1.~. 11:: ! . ,;i ::Ij: :. . . .1 j -.--~-.. ~- : . , I... I/ ” I’:’ I I ,I . . . .I ,..... .a .-...-.. I ,, ::.. !‘,! I : 1 1 ; ! ! I ..I I . : I, ./ , . ,, I :ij;rij; ., I I’ L ..‘:‘, ,.I I. .,.. : :!I .I : , ; , i ~, ..i . . . I ;, :.,.. I~ . . . 1. . , I : I::“’ 5 ! I,I/IO ,./...:. ,. 1 1 ; ,, :;:I;:!:::;:‘, ..,*.. . . ,I _~-~ .#.I- ,,*:I I.,,/,. 7 5 I : --_~ ! ; : ; , / I , , , ! ,.I,.! I 1 ,a./:,.. , i ; ,I,.,. _....._-.-..._ i / ; ! I,. ., 120 120 60 150 100 50 120 80 40 ..,, ,, / ,, 90 60 30 .: ;:: I. _. -y.. I *. 106 60 40 20 ,- j. 1.: : I 2. , ._ $1: I : , 8 : ( . ../ : _ .._,.-. . ..-i . :.,. I’.” ‘:’ ,.. . ;.. ., I;:!!” ..,.I .,,I,: , I.,, !. ::‘I ., : , ,. I 7 _I.; : .~ : : ..r ---’ .A .- ,_. ; , , . ~.. T . ..- . . _._, ,., ,, . (! .I. ~.. p-~. * ,.. I:” .,.:..! I,.. , . ~ . , ,... ,, . . _ 2. . . i. . . ..- : ‘/ .,. ! 1 !:., !, .,. , ;I,, ,, .I! , , , : 1 .;,.,i “‘;I.‘: .I’ ” 1 ; ,.*._ ,~, ’ I I. :t ,.i i : : : : i , . I I I .I;.“” I 1 ‘i:!! , I I , ..,.,,:,i ! bill! __. i 1 :~.L i - ,.,.I. - ( : ! , ,,,I/. , : i I !.. ! *.:.I, , , , ,. I ;, ,. .1 ,.! ,,. .., ..: .: .., I.: ......I . j , , ; ., ., .:-,..., , ~.~....r_.__~. ;;::..y ,. ,, /y.‘.!;! ~. _.- --. .-. : . jIIi I’, i I , : ;j:j::;. I I / , 1’. ” -,.. .- _... !::)I ,.,. ., ,..~~. :I:‘:.:’ .iC ,:I. >.a., ,. Si. / “< _... I, 76 I ,, ,. ,I,,. ! L.i ,... : , ! ,.. _ .~ .~~. . . I: ,’ ,!;, . . ..~. . ,~ .1 1 ; :I . . . . . :;(li : iIjl, :, ..~ ,_~_ . . . .~ ..,. , ‘(y!::: : ,/ - ..- --- , iI!’ .., / D2cl i: / ..~ .;, I,, ,OFPS i ; ‘! ” i. . ;:, a ,.,. )1=4 ; , ,li6 ‘i: P 30 T z I! .,. ., I I I. ,’ i 20 40 60 80 loo 120 140 160 180 200 60 90 120 150 180 210 240 270 300 DISTANCE __, peJarlsbad Hiqhlands GEOLOGIST J.H. SOUTHERN CALIFORNIA SOIL 6 TESTINQ, INC. . ..D It”.IOALm .TOI.I .AN OI.00. SALICO-NIA .I,.0 JOB NO. v-&b21081 ELEVATION TRAVERSE NO. 5-2’ SURFICIAL MAT’L. -Sil._tti%d TRAVFRSE TYPE ROCK TYPE -Grani ti c- I I 1 I\ I l’u ! k I I I I I.4 I /u’ I I --r~ . . . . ..I ” ,-I:! 1 ; .II , ! . ’ ! -1 I-’ .-~- .i -‘it” I’ ;j;l!;jl! !$,i ‘il..; I ! : * ,!y/t’:’ ..,. I, ,. I : :! ~!\1~j’~~: ;,‘I” , . , -I:.. ‘I: :i.p::~::. ,I ..,., ..I... _ . . . . . ----.- ,..:, ,.! . . . ..~ ,.. .~.. I I .,,,, ~, .,,, ,. 1.::::‘::: ,,~i. ~: I j I 1. : : : : ,.. II.,: ” I : .,j’ ,.. I .I I ! \ : ! .’ ! iI. ,i’: ..i: -. . .._ A a7 a.., .., ; ! -. . I-. ] 17~. ; i II:‘,, 1 ’ I :: ..; j j i 1 { :.; ; (,~, ,IWj ;, ,. .“” :” !I:,,, j: l/i~:KI:: ,....,. : I .~. . .Y,,:.. _, _-,-.a ..L 1Kl 120 60 150 loo 50 120 80 40 90 60 30 60 40 20 I -- ..-. I . : L .I..... i I ! II .;:,.. ..~... , ( : : ! I ,. ..! ,I.~ .,!., I II//III .,.: ,.. !‘;;;/;I , . . a,. ,I . ..: ._-_, - .C... . :. , I 8 . .~~. . - - . “‘i “” I,! ! ; jyiiijj;: I, : ,. ! ,, I .,<>.!I ! :, ,I. :: .,.I : .: .I,.,, II. , I ,:I:: I:. 1 , II 5. , I I j : ; ! I .- , . : .,. ,.N , .y:;+ I’ ,, ..,.,. ,. , , 4 d 1.,~. , -. , : ~---. I : ; : I : : : , , ,;!:f”’ ,,.,;.:; , I; ,::I :i:I,:‘i ,/ :.:” .: :’ 7 :t, -. ..,. 1. 1. ..,.. . 1. ./ , , :‘iI: “. ,!;., .* ..,. . . . , y:yj :,i : i !‘:‘I 1 i& ;, ,. ..I. -. ,. 17 f :I*:., ‘!’ #.,.i;. 1: i ,/, :\ 4 I , j ;:1;,.: .ijll’ .I ;:- / I -. . ,.., I ..,. I” ::;:: i+ ‘&Q4’ 20 30 40 50 70 80 120 40 60 80 100 120 140 160 __ --_-__-_~~-_ --I30 60 90 120 150 180 210 240 90 100 180 200 270 300 DISTANCE - JOB-_ca!ly!_sbadHigh~.anc!s~ CEOLOCIST __ .ll. SOUTHERN CALIFORNIA SOIL 6 TEBTINQ, INC. . ..a II”.IO.LE .TI..I ..N OI.00. CALILOmNIa .m,.o JOB NO. 8621081 TRAVERSE NO. ____.. s-3 ELEVATfON SURFICIAL MAT’L. --SiI.ty-Sand ‘TRAVCRSE 1~Yf’E ROCK TYl’t -.~_.~.Cr~~ni Fi: _, I I / in I ,u , r ‘I I I d I / I I -.. ;, ; -; :;;I: ...‘. ,I\! I1 ,, .,,, *--_.. 1 iL. I ! . 5 :.; :: j*:I I!1 I! ,‘j!:,!v ,;!I I, ,I +I! .,. ~ v-., I,. ..I I.,, .I ;!’ : ! I, ‘: ,.’ : ,, / ; : I f ! 1 ! d u.a I 1 _ . ..i , ;I::’ ! ,.....~! I i 1 ,!I!. 1;;: ‘: a,,, c*- . . ,:. - . . . . -. . : 1 ,!I ,~ :!:i;:: I... (, ,.,,:,... I.3 ,I ., .:j!:;: ,, ,..,I i..~. I:..,.... /..( i; ::., ::!. !:i~j:i;.-: .,. .,/, ,. ,, .~I: .,. ,.I,.!, /‘:‘i.:, : w(; ,:, ,,..,, I ! ., ::)I ,., ,. .., A,.: ~. .~. / . . . . , . . _. I : :;p;i ;; I,, ‘, I: ./ ! is ; : lj&iS ; I;::;:.. q ; , -Ii: w 0 I:! 4 I ‘j/ . .,. . . .., : . i I(,, ! ,.. ,.... I . ‘1: . . ..it I ‘Y”f” ..,.I,. , ~ 4 - _ . . . . . I !‘I!. ; : ( ! : : ‘I; , ; ; ;, :‘-!: : -; I~, , !’ .i I j / .~ I I : , , I 1 * i I x 0 i-.! - ;.. ,, :.. i ,I., .i., 1:: ! i .I~, ,, :ooc :I ,i ,,O 7 I/ I ! L I3 /Dl. :I;: 4 +., , I .,. .;._. -. ,. ., i --. T”’ . . .a i!-:’ ;;;;i , ! . !‘;:;I , : ,I ., . . . I ..L:.:.~:.:.:L _ . 180 120 60 150 loo 50 120 80 40 90 60 30 60 40 20 ,: ,.,a :I.. :.., ;.. ..,. ;::!\:;;!‘jj;j!:;J’ iI. I i ; : I i .1 .I 4 I ,, ,, ::I,.- :.: !:i ,. ..,.,. ,.,, :,,i. i I,.. , , . ., .:o., a,.,. I,.. .I , , ! , ; [: ; 1.’ :.,,,.,‘I ,*.a ,,,.::, . .., , (_..~(,. !,!;!I. I *II,, I.,. ‘1,:::::: 8 ,( .., . . . . . : 1 , ( I ,.. : :. : ,:,. j 1 1-j : i ,i+. ,, ! ,. _.; .__~. , . , I ,,.,.,. .- . ..-_ I:’ ii,: : :(/$ ,. ,. ,.-- ,.. I .I ,,,. ,, ,~_. : : . . . . . . . I; 1. f I I I I , : ., I / ., -1 I: .‘.. .,, , , -_.. . . ,... “““*:’ ,. .,,.. .; .,,...,. .,., ~. . - . 1 .-.- _.~<~ ..b_.r-.. ! I:,.,. ..~ ._,. ~. : ,;!:“‘:: , : ,, :,,.. ..,.. I ” ‘, :’ ,.,. I .- . 2.8. * ,~ ,.... ..~_i.. ,- -_ . - _- -A...- ,,..,. ., ,, ., ,.. .: :,.. / / j. : . . I 20 40 60 30 40 50 60 70 80 90 100 60 80 100 120 140 160 180 W 120 IS0 180 210 240 270 IOB-CKb~~llds GEOLOGIST J.H. DISTANCE __, SOUTHERN CALIFORNIA SOIL & TEBTINQ, INC. . ..0 .I”.“P.L. .1m..1 ..N 121.011, CILlC”DNll ..,.O IOB NO. 8621081 ELEVATION I KAVI K\f NO. S-‘l . SlJKflClhl MAT’1 _~ Si’ b’ sdnt’.-. ._._ IKAVfKSf. TYPf _--- KOCK TYPE -“?‘“’ \i! ~. .-.~-.- I I 1 I I ‘,, I P I / I I - I ‘~.’ I I I I :/- j * 1.: -. / . . ., \i I ‘; * ,,: i, I , , ; I ! : 11:” “I ,:.,. t;‘:;:.:: ( , I , ;. ,::. ,, ,~ : I I!, :: . . . . -. ,. /. .: ,~ !,. I# ! 4~ I..,.,, “‘.“‘i f -1~ ! ‘..~- .,... ., .., jp;; . ,!’ ,.. . . . 1 . . ,. i:: * I i ., . I & 1 ,, I, I . . ., ” I,i ‘bOOOF i:fe-y / I,~, ,-- <Ii ;,, ,(.. :. : , , ..i ..‘ ! i , 1 , I ! ,.,,.. , 1 , i ; : 1 , 1 , , , ., . . . . . . . L j 1 I ,.! I,.. , ( /.....,, .., I{.~ LfI.*,.i .,.,,:,I :; ,,::.; :.,., I ., ..1.. 6 ,:., ,I i’I!:;l I : :,.,!‘, ‘J y;-; t ,,.i!... ,;!:I::’ ; ! 1 I : ; I ._ : i! I .- i L 1 ! ! - 8 . ! 1) I: 1 .’ r. ~- :/ I A I !,:‘I;’ ,4,!, .,. . _ . . 1 1 ,/I -I /, ! I 1 I ,!iI -. .-.a ,-,-, ..,. ~. . ,,, Ii , : I .I .,, ,I ;;I!” I ,. ,.. I : ij;;;;; i : : :~. ..,I:,.. ..I ,,, II. ,..i I : I ,.iI , , I , , . . ..-_ , I,., I,,.~, i : “.‘1”” ,,. .,. ,.. . . ,,:.. , .,. ,. ,,I ,: I; ._. ._.. , -- I . . . . . . ~. . . 150 loo 50 i. . 1 .:... . - ,.: . . .:. .~. ..,._ . / ,....I.. :;;,:;:. I / : ~.. ~,, ! : ., ,I... .~, ., /.., /,:I 1, ,. . . . ,. ..,.. ,.. I. .I!::::; , .,. ! 8 ! , , : . . 1,,:.... , ..c.. ._~. 1.1,. .:. L!: ,. ;:‘: I ; : \ ; : I .._ -.. I, ,. ..--.. - ..~ .._. ..--.. 120 80 40 / i i. i i : .I . ., . ._,.!?I, ,. i ./. i_.. /::_;:; , _-,-- - -.. : j ” i ,! : ! 1 I Iii!:“’ ! ; . .- .,..-.. -7~ . . . ,.. “.‘I: : 1 , i _. -+L .1. _ _---- 90 60 30 ..l . . . *. ,. .,. II ;jy ,I :” _ . . . b.... , * I : ,*. 4 ! ~8,’ : ,,~ ‘1.. ., .,. .~ . .._... I I I/ .~. ..,. I ,: . . 60 40 2c _.. PS I. - T I I 7Dl=e’ I 1 . I, .I.. I / 20 30 40 50 60 70 80 90 100 -20 40 60 60 loo 120 140 160 180 200 LTzx-30 60 90 120 150 100 210 240 270 300 DISTANCE d JOB- _CarlzbadJti!-lan_d_s-- GEOLOGIST e--k!!! SOUTHERN CALIFORNIA BOIL & TEBTINQ, INC. .I.0 “I”.IO.L. .TII..I IIN -0.00, C..CICPONI. ..1.0 108 NO. 8621081 ELtVATICJN TRAVERSE NO.-5.:5- ___.- SURFICIAI~ MAT’1 -_ ?! b,. Sand -___ TRAVIRSE TYPL _ ____ ROCK TYI’T ._. h?“itic _... -___ Pl,lt~P Nn. 60 I ! _! I - ‘_~ 1, / I I I I.: I I-' I I I I i, , , j .“i I’( j i i , j I I,,. ..il: ?jj I ( ,,-., , ’ I I ’ ; I : : ; 0 ; I I 4 ( I jij I .~.i , . : ;I; :;;:: .::;;I:‘: ,., . !.i~ ___,,. L ;.. 1I.I ~. ., , . . 1 , : , 1 1 : , ! : ; : I : : ! ,:,/:,e. , . ( , 4 ( , / : ! ,.. ~, . ..I. r , / : * 6 j; I! ,!;:‘, “-. T-.-.-C : ,:.! ,. ..//.. ; : I : : ; / 4 I ! .:,.. .* I ,jj ! _-...L -i.! L , !~.::I,.* / ‘:‘I, _._ ..,.. ~. .~. ( : : ..~ . . , ,. .~ I ..~. , : /. .,, ., : -.- , . , II ., ’ I : * ,/,., ‘I: ;I -. . I , 1 .,. 5 , ,.. ,.. .~.. 160 120 60 150 100 50 120 60 40 90 60 30 60 40 20 ..,~ , 7: .T~* ,.-., ..,, ,,, :I:.: ,;i,;l::; : ! . -.: .--- - , , ,... I, ! ,,.. , : . _ .,.I!. :..*: i ” ,li’,I! .,.,. .I :.... - -.A , , . - t .-i~ 1 -. : , . .:“‘~-1 I... ./I:.. . . - __ ,.. _ I,: ,..... _ -.--LL : ;I:;” I ,;;;;: .,.!,<.A. .I:, !:j;/lII .- ..-,. -,_ _. ‘I”ij .II i,.. I ” ! .- ,I... .#I. 4 ,I,,, , _,- .., , ,-_ . .,: ,... , * ,.jl(:;:~ ,,.. .: ,,.a: ::.,,.,, ..,... ! : I !:il:;: ;:, I,,,, ,:‘,II.. i ; . ,.-.- I I.. ,I:. I i!:;/, :‘;:: “, ,,.I :;!;I,” .,.!(.I: , : I ,-_. ,I,.:,. -1 1 i I.! 1 1 !“l’ .; :,:. :‘ijjlj;: , , ,1,,.~,. ;:.; ;.:.:~.;..I~. ,,:,,. ., 7 ,:I::;!: , , /, I , ,; .I. , , f~. ., ., .., .I ., ..,, I 4 1 ;;::..... ,, .’ 8, 5 ., f ,. 1. 1,. I.’ ; ) ;;: ‘: !, ,(, I : I. I .I ;;: ..~. , . .i~... ,, ,I, : . _, . , i. ,:. ,. . ,. . ,. ; .-.., ., _. -. ..,4 .,,, ..iI ,, ,... L,, . A/; : ‘ijjly’: ,: ! D 2’ ,.. : * .- -+._ . i:’ ,’ ‘. , I ! .,. .,; D2h18" p?;,; ; I , .I: I~ ; . . _ _ I 'Fps: :* - i 1 ..- : 1.: ,ojoo~~PS e ‘4000Fp~ ./ .~. / ! 1 .Jlj ‘i e. &* i t I,. 9. .i.: 20 30 40 50 60 40 60 60 100 120 60 90 120 150 160 ..lOOD ,,. ,, ,, / ji: ,. 9 ,! .:, p 0l.i . . . ._ 60 90 100 160 180 200 240 270 300 70 140 210 IMSTANCE _3 A SOUTHERN CALIFORNIA JOB NO. 8621081 ELEVATION __-,~--_ 365 ft. TRAWRSE NO ek6.e ..- ___- SURFICIAL MAT’I.. _- Si 1 ty Sand SOIL & TEETINQ, INC. ll.0 II”.IDAL. .,m..1 .hru OI.00. CILICOmNIA I.,.0 TRAVtRSE TYPE ROCK TYPE Grani tic - ~. . I I I I .~ I I ‘C.. I b I I I I I-, i j .~’ I I I ; j ;;:\;:I::!::. . . . . *. ; , / ; : : ( , , , 1 ’ .l .: i I ; I I : ; -7 ! 1 1 i. _. j : Y.1 ; .-Ii . . , j _-... . ..*- . ..I.:~, (,,. I:;“:,’ _~, . . . ,, i, . . . . .,.,.. . . . . ..I. . . . . .-~ I ,. ;. I. .: .~., _ I ., /: ,_._ -..--. .,. :. ,. _ _ _. . I!.,. ,.... .i ,. ,!I’!’ / !!!.:, y:: * 1:; :, :Yiiq .-.... I ; ,. ,. .,,:\I: 0,’ ,. .., . . . ..l., . . ,. _ -. i ,i!:; .lii: - - . . . , “:I” ,;i ,I ,. /‘I it t,. /!I,; I ;L : : 1 t t I . ., . ! : . : .- .,.. , ,: :: ; .,: Ii’ ,a..q,.I .~ . . . . . _ _ - 1 ., I” ;i; ,I’ Ii.. :,. , .! ““’ 1.1 : 1 : j 1’ [ ’ ! : i ,( I’; ., :. .,s, I .~I . , : , I ,.I,,, ; : I : , ; I I I ! I 1 _.,..* r’ .- I * . , , I i !i ii, .- i : :I ! ( i I :f / .,,,,.I. ;I:::::.. ,‘I,IIII. /.. :. , : I . .:I!!]: ,:;::. . ..- ,.. .I , . : , . :,:‘I’: ._- .__- .:... Y_. :“.- , : ..I ..:,, : : ; ; i.’ . ..,, i, 4 .., ,. .,.. !‘;;;I:I , ,- .~... * * , , /.,I, ,. .,. 4 I !.I!;:::, , , ,: .,.. I. ::a, ..,.. ~, I I,.# I “I::: ~, ,I,.,. I,,, . . ‘., ; I I I,. ;:.I:: ,,.,, I*‘yI::: , ( ..,,.a. , , : : I ,.* 1 .,/4.;,. ,.!.I, _ _.. . &... ., _ .., ., ; ,::I, ! : I ; j j j I : ~.i!i!. ,.*?- ,-. .,.,.,., _.L : -,. I ;,I ; !L -._,. LL __.. .I. .,:...~, 1. ,I...,,, I (.;!I ::;I;/:‘, .,’ ,,. i * I .I .~,... (p:;; i!! ‘.: I., ._ .- -.. I . . 1 ;(I, i , ,;!:;;!I :i.. ,: : i : ! : : : .__<.. ,. __., I!:,;:,” . . . . . I , 1 I ..* , i :!“I’:” : J _. -7.- . _.. ( .._..-- I .: . .A .,.. . . . . . _. I.,, ,.I ..;I,,; : .i, : .,,j,~ ..I. ,: .:,., : .,.,i I, . :.. . . . . y.. . ::‘i;.: ‘ii;;:‘: .! ,..’ 1 .,_., . . . ..-- , 8 I ::I:::.:’ “’ I”‘~” : ,I” 1 ( ; __: : ;.. I ., ., . .._~ , !~.11.;: : _.. ,, ,. ,, \ / ‘50*9y 1, ; 10 20 30 40 SO 60 70 80 90 100 20 40 60 80 100 120 140 160 180 200 30 60 90 120 150 180 210 240 270 300 i: DISTANCE __, JOB Carlsbad %hJands __--._-- GEOLOGIST J . H. 3 SOUTHERN CALIFORNIA <C -5, BOIL 6 TEf3TINQ, INC. . ..a II”.IO.Lrn .lD..T \a .AN 01.00. EICICOrnN,. ..1.0 JOB NO. 8621081 ELEVATION -.-_. 375 ft TRAVERSE NO.>:L _.______ SURFICIAL MATI. -~?!! !a’ ~%d ” TRAWRSE TYPE __. _- ROCK TYPL -.e~.~(;rani t!c.. .- _ , i 1 . . I I k I I i I /,d i r -, I / : ’ ; .;::,:, .,.:; .,, :.,,, , . . . .~I _-i , ..i , i , I * ( , ! ,:pl” ,::,., ’ i : ::.1]‘:Y]::;!~: ., . . . . ;::1: ., ,I).. .:., ., :I:‘::,. o-*..- . . ,_._ .., .I ..,... ..-... .___ - a.~.. ,,. .,I.,. 2 , - ---. ~-- .., ii.:. : ;I;‘:(;.. ““‘I” r . I ;.~ ,I.,: y\!:;I’ i y i !.!L, ‘,::;!;j, !I ,i:... ,.,. ,~ ../. ; ,I.,, - . . . . . . c... ..,. .,,,. ,:j, I , ! .*;,.I, / : /,;I’ . (I ,~_. .: . .../. I .,,:.I I ,I( . . . _i... ., ,~,I I ; I : ; I ~1; I: 1. I j ! I -. ~- 1 L(, I ? /I:.: , ., ,I;;. ,,I i.:,, :. ,. . . . . 1,. . - .-- .,.. _ .,:..., # I, ” “” : , .A.. * .--_.- ..;I: .~.,, .i::; ,.:.. ..1. .-. .‘. : il ._- .-- .-- ! , . . . : 180 120 60 150 100 SO 120 80 40 90 60 30 60 40 20 . .., i !; : ; , ;(:: 4; , :,,/ ., .I,. ; : . I : ! , .I(::., - ..___.... L i ; ; ~ i i 1 ; /,.... ;!:f’iil! , . , , ix.;; i-j 1,;. . .., I.,, ! , ., ,. : ,..I ! 3 ) ,i,. ,,i. *-.. * - ,.-_ ,. ., / : ,._ . , __ .., .,.. ---_ . .f .‘/’ / , ,. I. .: ,I.., .,I;:: , i.1, ,. I” ,!.!(.I’ I : ; ; I-; .,!.,,, ,, ; _ jli( : : ” , ,., , .I. , . . , ,. , -_*.. . . ., I I 1 in! : 1 1 1 I’- .., . ..._,... --.~ .._ * ‘ ., ,:’ ! i Z’.” ,.,:.; I.,,, “iI’ ” ,!;.~ “” * .‘I ,‘, : !D2*2’6 i j ,;. : . j:,:y:;, I (!I .~.. ,., .~ I : ’ I ! ,. i’ 1 ; I , .._: _. , ..,. _~. __. .-- ,. ,: !I i.1, : : ,a.~ ,,I./, I, ., ‘,I.., :. I’ ,!:.: ; : : : j ,. I:“,’ i I: ! o;&)g ; : - ‘1 ob ,.. .,. * A .I ): .: ,.I. ,~I:’ , , B I ” ?- D 1’: I ! * , I ! 20 30 40 60 60 90 40 50 60 80 100 120 120 150 180 ~oe-Lafl.&ad Highlands 70 140 210 00 90 100 160 180 200 240 270 300 GEOLOGIST J.H. DISTANCE d SOUTHERN CALIFORNIA s01L & TE~~TINc~, INC. . ..D II”.DD.C. .7-.=-T ..N tal.OO. S.LILL?IINIA .I?.0 JOB NO.8621081 ELEVATION __... ,. ._~. 410 ft. TRAVERSE NON -s-!&-a --__ SURFICIAL MAT’L. -ZlWS?!~d TRAVERSE TYPE ROCK TYPE -~~... ._--_.-. Granitic I,‘, 1 ! ~i:11~--‘:::f:‘,I,,:.i.-Tr ,i ,:;I:!:; ,... ._.... ,_ ,. . ../ I : I , --..._._ _-- - - --..I I ,.... : in:.: , .{fi;J-%i; l;.& AI :::i-ii’: ~- ., : ., I :::::I; / ., . j i : 1~ ; :;.. !’ : : 1 : : 1 i. I I ,:.,,, ,.,. ,,.,. 14 ,I ,,,. . . ..,_. ~. .- 1, ..,I . I , : Xi:ij I,( &? ‘I,!:: :I ! 5 I , . ..i , . . , .,, ,:.. ..II,.I.I . , :! :, ;~. : :.. ! 1 :;!;;I.:, ,. ,*, . . . - . . 1 I : ! , I .,. ,a la0 120 60 -. 6 ..I ..a i , ‘il. I,. . .,..., .,,i ;;I m.;* . I . _- t___ 4 * 3 :I . , ., :.. ;I::- t,;i:;; ,n.;;:.:. I:“’ .;I!. I ; ; -. , ! , # , I . .,.I... : ; i : 1 I . : , , , ., . . . . . I : : 0 ..I! I ,,,., ,, ,. 150 loo 50 12z 30 40 ..-.... :, I. I..,. , - . , e - _ ._ -. I I ’ ; ; , _, . , ~. _ _ ,.. .,,. ...,. ., ., ! ’ ; , ! ,. .-. .._... . . . :, /‘I’ : ,;!,!;I;’ , jj.. ;. I;! ~. -‘I : ; 7-y.. .,I., :.:I: .j:,;;- Ii!::. _i.~. 21 r 10 20 -30 20 30 40 50 60 70 00 90 100 40 60 80 100 120 140 160 ia0 200 60 W 120 150 la0 210 240 270 300 .i. ,. \ ik. DISTANCE w FOB Carlshd HighlaFds GEOLOGIST J . H. SOUTHERN CALIFORNIA BOIL 81 TEBTINQ, INC. . ..0 “I”.IIPAL* .Irn..I ..I* 01.00. EILICDmNI. ..,.O JOE NO. 8621081 ELEVATION 4?!Lct. TRAVERSE NO. ____-_~ s-9 SURFICIAL MAT’L. -S_l’!l~.-Sand TRAVERSE TYPE ROCK TYPE _ Grani tic_ _ l’ldll* NIL I;4 I - / k 1 / / / 1-1 1’ I I I I;‘:;.;:: ;‘;;I:’ , 1.1 . . . : 1 1 , 1 ! I i I:;;;;:; ! 1 ;;:(:.-!:.? 1 ., . . . . --r I :;: fl * -. ,.), ____- i :LY I ,- , -. ! . , I . . . . . . , .-. . ..- ! ,, ., : i ,.,, (, . . ,, I I .I ,. :!,, I’ < ../. ..l : r‘ 5 _, ! : I : 6,. I -/;i; I!! -. :. Lj.,!:!iI ,,I. !I: ; z ; i ._ : .; , , j : : ; : : I:,;::... I ::.I:; :/ -. ! i t i I j ! I . ! r I I : 1 ;. .: ; 1 i.. 1, I I: , ~. I: t I 1, ! I ’ : * : . . : ; 1 , Q .,., .:. .~-_~_~ . ..- . $:I. : .,:, I,. .I 180 120 60 15i loo 50 / . . ,.., ,.t,. . : , ! ,.,,~I .‘I)“’ ,. ,.. ! I 0 ,I : ~‘:~ f, ! ... I .,,1 :.. ,*., ., ‘.,., .,,a ,. ,;:. ..,.,. ! .,.., I i ; .j., .,..~. .,. , I , ,I . . . . . ..A. :I’.’ ., -. . . . . ,~ , . . . /,.... , !:;:;I’: , ,~_ . ,..-.. ~. I:;i(:” ,:,, Ii , i1: ,. 4 , I I . . - ..,~ ,. .~. .._. : : :, I , ,.. : ..:,,I j:iijj:; : :I” _.(... ,.L1--. : -.- j::::: ( .: _-. . ,.. 93 . _ . j.\!/ ;;j:.,,~ / I : : : f , I I : 0 : I : ,/,: .-..i::.: .~: ,,.... .~ : I ; - .: ..,. ,... : : ; : ‘Xjjj:’ I : .I 1,:: ‘!:;;I/. ;.i ! iy;i j j I ;. ,,, ,1y;:i1 ; ,, (, I* 1 I : ,, I’:‘:, : ,,.. , , ! : ,-.___.. ,, ., I,. . ;’ ‘pi ‘-1 : ‘~ .‘. ,.. / : +., ,: .i ~.~,_ .~. __,. .~. , -. .- :; ., I~... ,, 120 80 40 : I * ! ! I . . . . ,,.~, .~.,., . .: A , ,i: ., ,. ,/ ,..: 8. ,. i : “. - ..,. I : - .-- I ,. / I,, “:! I I ,.. ,,, ..I ,,: ., I,,’ .I I .: ,, ;$I;~ ,,/ i 1. ,,. .,. . , :x:,:, ~ . . . . . ...I * : : ! : / FPs.::’ ., ! ..ld., :,.jj;:: W 60 30 .,. ..:~. . .~ .,,~ ,. i. .*. _... .~ . , D2d : i!’ ,’ : A I ‘800, ,, ,,.. 60 40 20 ,. .~. 2’=1& / 10Fps, N- ii:,“‘< .~. 1 ,.. .,.,: .! .., I. 30 40 50 60 70 a0 90 100 60 a0 100 120 140 160 iao 200 W 120 150 iao 210 240 270 300 , DISTANCE d JOB .-.3x! Gs!.M~~hl,~nds--- GEOLOGIST __ J.~. H . SOUTHERN GALIFORNIA BOIL 6 TESTINQ, INC. . ..a q o”.mO.LC .TDSrnl ..I* OI.OD. CILILOIINI. ..-.a JO8 NO.8621081 ELEVATION _.. _.A_ 445 ft TRAVERSE NO. s-lo- -- SURFICIAL MAT’L. A,!_!!y~mSa!d rRhvrt6r wrr ._ .._ __.~ _..,_. ~. HOCK TYI’T Cr,anitic _. -- I 1 ( L I- ! r / I / iy i IY I I I / ,.’ i 1’. I ::,[;:-‘:::;: jlyi! p;; j;: 1.:;~ I:;*. ,, ?~!,;I I : , , -., . , ..~ . , , a.,,, I. j!::;‘::, I 8 I ( , ::.I.! ‘, Ii :‘,.’ :;.;jj;: -‘-I ‘ . r I’ ( .i _I i I , ; I I : 4 I ; : i ~ . . : :. : I . ,- ; .- : ’ . !: i +~I ,, i I ! : : ;i ::I: I ,!.. , .,.,I. ,~..4 .,.. : , : , I 3 . , , v,;:::: , 1 i / , . , I , ..I. i / ; * ( ..-.--_.. ,’ I . ,I.... I ,I ,,.,., ._..... .~ ..-_ . .., !.: .-. , . I*,,tI,: I”“’ ‘;;;i;;; ,.I...., .I:? ., t I 1 I : , ,: ,,.,,. I:. 4 .:,,a !.I *.:. ..‘. ,. .:.. : I ,... , . ./.. ; !; ..,,. :.,: : i I .,, ,,. G I.... , , .,. I.... , * -~ : ( ! #,: ‘!!;r’ / ,:a.* I : I;:: :: f-. . , . ; ::::;, . , 1. ,.. .., ,,.,$ 0;. ,;!::I , .,i~.). , 1 , I : : j j . ;.I.- .i . . ..I i’,‘;;,! ,!. ,: ,.. ., . , I : ; ; : ! : I ! I , ,.:,.a i. : : i I : , : : : ._.,.. .-:;, ! : D:2 2.2’1 : ‘I : 4. \: ..,., c ..,: I” ,,.I’ I ,, 2 50 opsi .I.;... :. ,. . 2 . i. .., I_. . .~___ ., ~...~. ! . . ” “,’ I,.:. i (.,. : * , I :. , ! , ,: .,. .,...,., ,, : I : , ., ..,. I , , . . . ,... I 1 , ,,.I i,. :I:!:::; 8 , ( ! : , ! , ““‘r:’ f I , _-.!_,.. .,, .., ,/ .,,,, I .I’,.. ., ...,, ,.. ,~~ r(, . _ . ,I, i.1: 1 I / +.,I. ( , I 1.. ‘:;,.!,- I.,.,,, . . .a ..I , !:!I;!. ! : I ; I , I , . . .r ,... ,. .A ,(... I ,. _ . ,, (~,.. . : I : , . I 1.. . .-._. : I ! . . / I : : : : ,,,. : ;i:::j;. i ‘:. ‘:‘I’:’ .;.*. ., -4~. -..., I : / :, I .., ~. “,?:” ‘:::I” .I ‘: . , ,. .,. . I !., ! : ~.+!; : . ..!I , ,::. >2=1ti /, ,::’ 60 40 10 ,. /.. y& .,. 20 30 40 SO 60 70 80 90 100 40 60 80 100 110 140 160 180 loo 60 90 120 150 100 210 240 270 300 DISTANCE d loR-Cay!sbad___Highla?ds~ GEOLOGIST d,!j.. _... __.._..~ ..,_ ,... ___ 4% 8OUTHE SOIL a . ..O ZRN CALIFORNIA i TESTINQ , INC. v “I”.“D.L. .,I...? .a- OI.O.3. C.l.lPOONII . . ..a IOBNO 8621081 ELEVATION _445 ft.. TRAVERSE NO. s-l]- SURFICIAL MAT’L. si!Q...S_a_nd ‘TRAVERSE TYPE -- ROCK TYPE --.~.~_~.-.Graili~Li ‘-~-.--.- Pl;lte No. fifi I 1 1 Ii ! L.. ! r I 1 I I /d i I- I I -.-~ .,..I, ,,I, I- . ...;:* , i :.: . . . .,:,!!:I .:Yiit ,. : ..I , i I I : / : 1 , : 1 i ! 1 : , I I ’ I I ,i;:., ..__ r ._.. L ,./,I!: , I r * .i .: ; I I i \ in - i : / i , : . , I 1 i .(,.ii. :I;;/;: I 4 - . . ..- i.. ,, ..a 1 ;~ ‘1’ I i i i i : i - .L 4 / . ,~ 1 , .., , III iI1 :. +'I"" , . . ,,. . ( i I. ,::I ,. ,, ,, i ..,, ,I, I I \ 1. 5 “““‘i ; ; ; : : .I ” ‘.! .,, ,. ,i I ., I ! “’ : .., I i ! .‘:li, , I ’ I . I I . : j : : ; Y I;.:“; : :,: : / I I; .~ 1 , : ; . 1 J .,., .,_ ,I!: ,I:! :, I:: 1:. : , : I . :j, I ! i I I I ’ ! I , a I I : I ‘I 4 d 1 SL 1 , -- I .~, ;;a!;, -. . , I # , 4 1 , :.;.. . ..,.;.. ,_- . . r . . ..- .,...., .-.c ,,I ._.1. . . ,II. ,,, ;i :I,; I . . . ._-_ 180 120 60 150 loo 50 120 80 40 90 60 30 60 40 2c * . .. : , :Lf /.:.. , . , : .~. * , I ) , ,..,.,.. . (... !!l”’ 1 :I., . I j 1.: . !...,.. Ii+- ..,...I. : : [ !!‘i i,i __-._ .- ;_. -7 . .- . : - I : . r , ,.., ;.,.,.- .,... .,.. ,.,... I I : . . . . . . I I ..:;.;. ! ; i ; i-q I , .::i: : / ! :i ,I:!. :,i;y;: / ,) , , : I. .I. .i .,..., ; I. , 1 I 1 1 .,:. ,- ..__- < ,.;a, I !.I!; I : I : -1 I i ; ! I ,.,,.~,. ,..., , . I., . . . ..-. .I..: ,, ?-~.~:. . --. ,,, .- . -.. _ . --.- ,. . , c . :::i;.. 9 . ...*. , I .::.I, ,... a.. / ; , I , ; ! 1 ,.I,.,‘- ,...,, 8, .,,.s. ., I1 “:::I: ,. I!... . ! ,~ .;. I ~. -_ ., ~. ,, .1.L’ . : . ,i.. , ,,,, 4 ,... *,.-. .,. ,. ., .,,. ., ‘! “’ I ,, I, :.;:’ 1 ..,,...* ,.,I :I ., .I “‘b i ,‘. 1 ‘.‘I’, ,., :. : , ‘I:‘..: . i : , a ,,I.,. .;;::I .I I 8: ~,I ,,. I:’ :i; I: , / , : ,.,. 02215 . . . , . ...: ,,I. ! ;..1*,. .~ & ,i . ,.. . L . .-. . f * :I \ D2:lri DISTANCE d roe--Ca,r_!~badHi.g.hla”ds- GEOLOGIST -42. ___~...__ A 80UTHEF &@ ---n D SOIL &’ =lN CALIFORNIA TEETINQ , INC. ---- -,“.IOIL. .TII.IT ..N 00.00. CILICO-N,. ..,.O joo NO. 8621081 _- ELEVATION -3%!J.:-.-A TRAVERSE NO. ---._ s-12 TRAVERSE TYPE SURFICIAL MAT’L. -?i~!~-%! ROCK TYPE Grani tic . .- Plato Nn 67 I +- ,I P I I I I j c ,, ,-- j r , / , 1. 2. ( Structural Soil- Rock I3 1 I -(\1- [-..--.j I I_ \ --.- :. ‘. ~~ - .’ ‘{ 5’ min /d . .~ZONE A . -, : ;i ,., . . .I’, r,... . . % __ pmm: L- ‘. . . I ‘. _. . .,...,, ‘. .,.... MTCS Ln.qlll,rcl loll ,111 ,h,,l ‘““,.I” 1.11 III.8 “II,,“, I,,-tnttl ,,a”,, (D” 8. ‘Lq1.‘I*d I” .‘<o,4,“<~~ ,tr”‘,Y,ll ,,,I. c.iyi-- ; 0 - . 15’ mtn. “3, . . _ . . o -. ORIGIYAL GROW3 - . .\ /' * . . . -,.. ‘. -. . \\) :, : .~~‘. :‘.‘..‘. :‘:.‘.. .I.‘. ‘. ~*..: . . - * ‘\j’ / 1 .. : WUUiiU “-*“‘- -11 #-R(;pEg RSC:< CD?!PLET, ELY SljRR0C:iC.E; t FII T’ , ..,,ER FAERIC, C? CB;ASS II PER?lEAaLE I%TER!RL 4" DIkYETER PERFORATED PIPE - MINIMUM 1X SLOPE PIPE DEPTH OF FILL MATERIAL OVER SUBDRAIN ADS (CORRUGATE0 POLETHYLENE TRANSITE UNDERDRAIN 2: PVC OR ABS: SDR 35 35 SDP. 21 100 SCHEMATIC ONLY NOT TO SCALE SOUTHERN CALIFORNIA SOIL & TESTING, INC. am.0 q IVIrnOALE .TmmIT .AN DIL00. 61LlFOLIN19, SS3PO Carlsbad Tract 82-12 BY DATE TYPICAL CANYON SUBDRAIN DBA 6-25-86 JoB No’ 8621081 Plate No. 69 SLOPE STABILITY CALCULATIONS Janbu's Simplified Slope Stability Nethod , FS=Ncf($ Assume strength parameters throughout the slope 0 (‘1 c (psf) w, (pcf) Incl. H (ft) FS CUT SLOPES 30 300 137 2:l 50 1.7 27 200 122 2:l 50 1.5 15 200 131 1.5:1 10 1.5 FILL SLOPES 34 200 120 2:l 60 1.8 34 200 120 1.5:l 10 2.5 Where: 0 = Angle of Internal Friction C = Cohesion (psf) W, = Unit weight of Soil (pcf) H = Height of Slope (ft) FS = Factor of Safety SOUTHERN CALlFOhNlA Carlsbad Tract 82-12 SOIL & TESTING,INC. BT: DBA DATE: 6-25-86 JOB NUMBER 8621081 Plate b 70 APPENDIX A TRENCH NUMBER 1 DESCRIPTION BROWN, Dry to Humid, Loosn to Medium Dark, CLAYEY SAND AND SILTY CLAY (TOPSOIL) GRAYISH-BROWN, Humid, Dense, SILTY SAND (SANTIAGO FORMATION) , .' + f .: ; j _. . 5 .:.: BOTTOM TRENCH NUMBER 2 0 I 2 3 4 BOTTOM SOUTHERN CALIFORNIA C;.rlsbad Highlands SOIL & TESTING, INC. Carlsbad, CA. .m.0 q t”CmDALII .TT1CCI .AN 01.00. CLILICOmNII rnD,PD BY CRB OAT' 12-22-80 JoB No. I3785 Plate No. 2 ,- - ) ‘- - ) - ,~~ - - - L - ) - - ~J TRENCH NUMBER 3 WHITE TO REDDISH BROWN, Dry to Humid, Medium Dense, CLAYEY SAND AiiD SANDY BOTTOM TRENCH NUMBER 4 GRAYISH BROWN, Humid to Moist, STIFF CLAY GRAYISN BROWN, Moist, Medium Dense, SANDY CLAY AND CLAYEY SAND Grading to Dense, SILTY SAND (Santiago Formation) SOUTHERN CALIFORNIA SOIL & TESTING, INC. marno CIIVmmaALL .TIILIT rn)rN DImDO, CALICOrnNIA =*-PO C?rlsbad Highlands Carlsbad, CA. BY CRB DATE 12-22-80 JOB NO. 13785 Plate No. 3 jS I TRENCH NUMBER 5 DESCRIPTION GRAY, Moist, Stiff, SANDY CLAY, (TOPSOIL) GRAYISH BROWN, Moist, Dense, SILTY SAND (Santiago Formation) BOTTOM TRENCH NUMBER 6 GRAY, Moist, STIFF CLAY (TOPSOIL) YELLOW BROWN A!iD GREEN BROklN, Moist, VERY STIFF CLAY (Santiago Formation) BOTTOM - SOUTHERN CALIFORNIA SOIL & TESTING, ‘NC. mm*0 m,"smoAL. rnTDLs!T .AN q Irn00. CALIEDmNlA SP?PD Carlsbad Highlands Carlsbad, Ca. t BY CRB OATE 12-22-80 I JOB NO. 13785 Plate No. 4 I I I ! i I ir / I / ! /- I I I 3: : j ! : I i 1 ,. ,1...,. ., ,I!*: I I ’ : : I : : ,.,,. ,.I., I ,, I, ..~, ,.... -1. 1 I _.I II/ ; ; I : i I:iI ! i I .I I I1.j .-f i !!I .;I !!1 I I :F //I II/ i! il 11 .;. ! I-- i! Ii : j I :,,,!:I ll:!j/; .,,L., , I / ji ;: I , , !I ;I i,! 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II::.:: DISTANCE _3 f37&5 JO0 NO. - --A - ELEVATION m--i?/5 ’ BOUTHERN CALIFORNIA BOIL 6 TESTING, INC. 1 . ..0 II”.IIOIL. .I-..7 TRAVERSE NO. --..- SURFICIAL MAT’L. .AN OI.OP* cAL,rOmAIo. ..?.O TRAVERSE TYPE ROCK TYPE .&if=‘f/lmd-s I I, !,i i ‘~,h Y , I 1 I I- I i” I I -:‘I, 1 i : I , . :. :,I: I;!! !‘J ii’;;;; I’i $ ;~r .; j g.ij ; $ .I . .,;!/,, I ;.I ” y- T;;I’ * i I !I ,\I! 1 .I,. ;:l’i’( ! IJli i.!.:.! j iI ii (ii! iji .i.I ;~ I I ! 1 j! /j . ..I ! ; :, kj; i! ii: l’i 1.’ L -. :;I !;ij , ; ! I !’ j .: I ii ii:;:! 7; -p; i-1 j 8 I j \.iij ,! I : ! 1 , . I I I .: I / ,iij 71 T .I-;. ; : ii j;;i!l/lil : ! :.I I I ,., :~ v ,I ,+\. n.:;.c I :/ :;;I / : !I I j j 1 i ! I I ; ! I , I , 1 I i I! ; 1-i.;. ij !i : : lj .!I jj(I j; j:J/; I ;j !I’/ ii j;j;:!\j: I;[( il t j’. .:,..v- *...--; ..-- -, I I I i .-! I I I 1 1, ~/’ u:i \i \I !I:;:;:;: ii*! : ’ I ! i: I ! I * ., ~ 1 ! ,1. , : i .i, : , . . I*- ,._.. ;i.:..L , (_ i-1 .:., :L: . .i.:i .i ;;\]j/jj; !!;;;,!;; i;ji:. ~!:. *.:,,4.. 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Iii l+ I -i I i, i I I I I I 180 120 60 i 7-i .~ 4 I ,.i 150 loo 50 120 80 40 ,,,. , 11:. ;:;i ,,I, ’ I --.. . .L 90 60 30 60 40 10 -‘-:~” -- .,I.... ; , ; ,.: I .,f Ai.; I 3 140 160 180 200 1 210 240 270 300 ,ofLb.E~ti SnE GEOLOGIST G.Ri..&%~~- DISTANCE _3 SOUTHERN CALIFORNIA 100 NO. - f-si2Bs ELEVATION --4‘.5’ SOIL 8, TESTINQ, INC. z . ..o D,“.mDILm .TO..T TRAVERSE NO. -.. ._ SURFICIAL MAT’I.. .-Iv OI.00, CILICOcseJII. . ..I.- TRAVVIRSF TYPE ROCK TYI’I _. ~~~. .~.. ~~-...-se.-- I I I_ I I’~: I b / / I I I- I / 2 I I 1 / .i I I i : i! 1i 1 ! 1 -I I ,I 1’: I! fi /I j i L / I i 1 I” I 1 i. 1’ TI ;rjt i.j/ 11 i ij{jji +-+7 ; 1.1 1 ! i ;,I j j ii . , ! l-r I y-+3 i//ii/ I ;,I) -..;-L 1, M/i i/\!jj ‘:-IT. - ) (. -1. ii;!::; .-* -‘1 ;.i j i I!, i ii F\‘\$ ~.~~~.~ i : I I~~, ;:..1 ,.I.,:. - - I : . ..j.:..- j i-5 y+ ..i;_:!l i ! -. , :L, , < ,~ ! ,,..I, : : : 1 ;-r:-T , I!::. !:li;::: i ’ 5 , ,..I,.,( p!l. I’/ j 11: “I, Iii I. I i ;i.t y-I. /./j//i jl!l/l -!-II ,-i-f i, ! i i+ i I ” .gi:d., “I !/I$ III ! 1 i -I& ; j # I ’ III I! 5 : ’ i!li!l !;j I.$ ;: Iii I i-’ 1: i ! .$ /i iI If i;- ij Jc I i I t: I ;j :. I' ji :I " 4 I.! II 1::' L 'I- /I ' I ! / I " I/ i ! I i -+- TF .- -/ 1 /I 1-I ! ii.K i.‘:]: J-T t iij / 1 f, I/ I q j j,/ i I I 23 [! 2 !i~ 11 ii 1.; I!$ 4 : 11. j. I/I 1. .p * i.. - :I ! ;j / iI i :s ! I i t jij)j 1 ’ ii;/;/i j ..I I ! i y-i ! pj-y(Fi 4 CL-i!:. :.;. i-7--“--- * I/:; I : .I !;!:;I ; ; I I i :;...a I : I , , 6 (I . . , I ..,,I. ;;!;.. ( I .~_ Y-k-* --’ , .!. _. . ,-.-. : 3 , , . . !!;;,a j:ili I/’ I ,,.... I..< . . . ;::I’ 5 ,,. _~. ’ . ,I.! --. I 0 I I :I: : j ..,.. il ,. ., ~,. ; ,~ I , I ; ‘I :.’ : : ! ; : : I _. ,.- _--_-.. I. ,A! . ., i 1 . ; , . -- i .I ;i I I 1 [I / ,I .+ .- j 1; i I’ I ;I ;:~ -I- i/ 1 jj j iIT I, I if / I/ 1 ,I iT -*. 1: /. :I_ II j.!, .i ! /; ; I : I, , !I i:! iJ 1; i! 1 .A i/ /I flljil : ;.’ jljj/ ,... , , a I ! y[Yj ! t . I I:1’. /Ii I/; ,.+ ii ii !I [-/,/ if 1 I/! i -1- I j; I L 1 : r , . . _ . , , ; I I ! a 0 w , I 4 : I : ( I : ; ’ (;!I:;: “.‘! . _-’ Y:‘:, I: >,. , s,,;. I I 3 ;: :.!.I i 1 1.. -T-1--. III:; ! ,,. : !I;;; j 1; ii -., s I ijtIj i i ‘i [ ; . :I:’ _.-_., .,.;:.,. * ..,?~. ;;j::!;~. *-- ,,;;i;:: :!i;.!l; ,...!I., I i ( ’ ,.:! :I ‘. i :: , . : ., / _ .-. .4 ( ,... . I .-. I i:’ : 1~ ‘~, : ( :. .: . I-.* .#. 1 : 1-s . j ; 1 I. ; i Lie !. ,!:; ! : t (Ii , I I ;I:/ iIIi i!i!i II)!! ! ! ji 1::~ Ii: :I:“’ ’ __ .~.. L!.i.! /(;:.’ . . . .._. j “i;:~* ..~. bt 90 70 80 90 140 160 180 210 240 270 200 300 DISTANCE __, ,oEl&4PQ& srG!!EL GEOLOGIST c.p.d%%?~&7~ IOR NO. f3 7&5 ELEVATION 42 ’ TRAVERSE NO. -3 SURFICIAL MAT’L. BOIJTHERN CALIFORNIA BOIL 81 TEBTINQ, INC. . ..O “,“.IOIL. .TI..I ..N 01.00, CALlrOllNta ..,.O TRAVfRZE TYPF_..- -___ ROCK TYPF ! . 7-T; i..Ci. j i:: ; i’l :! +- ii ,; t : !:li/ , (~1 i ; 71’ : , . , v I 3 I ‘1 ’ I’ ii i- i!! 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T 2 .i:i ,ij ,j j i i ~ ..-- . . .,... :.!..,t. ,.... :.. ,..,. !.. /,,...8 ~. ,, ,.~.... ,._ .-. .~_.- .., I . . . -I ._. . . I 120 140 160 MO 200 80 210 240 270 300 DISTANCE d IOR L34wss s/e .,., __~.__ __..._ GEOLOGIST &.!!!-.~~~v i BOUTHERN CALIFORNIA BOIL & TEBTINQ, INC. . ..a II”.OOIL. .Trn..T .Ae4 “l.““. SILICOmPJIa ..,.D JOll NO. 23 785 ELEVATION __~, 4%: 4 TRAVERSE NO.-.. ._ SURFICIAL MAT’1 . ..___ TRAVfRSE TYPE ROCK TYPE _- -~ _~__ ._-~___-___ :‘:lT-. : , I i !.! :! J-n! , , .,. !. ,,‘.“:” ,, -_--..- .*\.. ,...... ..,... ‘I’~“’ ,.. ,~. ,:..: .., / ~. __~ . ,. :. ..~ .,_-. ,. ~. --. I .~, : : .- .~. I - ..- 8 -~_ ,I i . ., T :. ,.--- ! I I f j i ;: : i:‘- I * . I - . ..- : .c ,__: #j -r, j j j : ;.! : , 0 ,.:it’ ,,,..I. .: I!.’ .iL.: Il. ! * I- I: ji I . z ..+ 1 ;,i j j i I 1 I ~j\ij v i.. I 4 TT-! I .- II I’ iI . ...+ i i! i i - j ii $ /jjj,I’ii ‘:I ii 4 I , ; I !I !I’ i j ’ s.1.i. 1 in. y+!+.. -I :., :I ,;;i ji:i!ij! ;ii; Pi/:j( : : , I I$; 1 .“‘.q 1 : {,ii ~ 1 j(// 1 _~. _.. j:!I t j I j ; , I ..I.. i ] ;/ ;;-.~.a.-. ,Li-~ .L ,I.! ~:,;I!)1 ..~b a,.. I !Z! $ii/li $j p;;j! . . . . ..A * Ii,;j: : : 4: 1.: i1jl;:ll.l .:,’ I * I I -- i 1 il Ii ,_ II iI *I!: I/i/ .I! i ! A; i. ;v ${ jI!( !(/i j ,;!rr!!11; I,!li liii ;/I/ $(I 7 f .~I ;-!.I; .j ;;I .+i+ A+..+ i. 1 4 1, ::ij: t j,,; i;., I : 4 ,:I! ‘1, 1 il:, j II ’ I I /ij! ! I I ill;!/ ’ ; ii j. -+,.~~; I Ii 1 i i i ’ : 3 I I I/.;;[; i. ijjjji: // ri’.‘!!+ ii /j,/!/ ; 1 I’!‘1 II T i I 1. 1 /.j i III i .j qj ~j:j’. / I! 5 -i I ; I’ i,;i i 1 Y/ ) /! I - -, II, ! &, I , .! c !i ; ,i;r:;i j!j:j:j/I ,..,I: Ij 3 ::,:/,, ,/ !‘::‘I )i (,.&,II* . . ! ,,;_ ; I,,,, I : ..I., ::I!!! .- .L _._. . ~!. 1-y----. I 11 , , I; ,.,!I. i:;:; /j,,!! . . ii::, I,., ,. .,,. ;I:;! ,,.,.I: t!l!I! ,, ..,.., ,:I 1~: r: S’i ! I’! II I! (I i ! 9 I i I.1 il 1 , I I :I ! : 3 8 2 i] I! I ’ I .Q, , I iI /,/ -1 t 1 I Ix : ! I! I 4 1: -: II ! 71’ i ! $ I i i. ! ’ I ; f~!T i” I , I 4 : y-t:- .;!I . : : : I I : 1 lj!! ,I, .4. -“‘pi’ , ! I II/, I.; ,..1i;,: “. . , , I ::j ‘: ,. 1 i : ; j.j i , 1 1.i : : 8 LiJ.. 1.:: :i..;. . iii .y’.’ r; : /,i :.,” Cl. . , ! I i : i 1 I,! IL: i 2;~; !..: 120 180 70 80 90 160 140 160 180 200 210 240 270 300 ’ : ! ’ ‘7 _ ;.j;! !.,q LA ; pg : I ! jj . 7, I : iI : 1 / 1 I I / , . . ;~,.I , /“’ , .,I. , il : ..A- :-; ;-I:: - .-A ;J i i-1 T : , : :..A. I -. ! .- 1 2 4 1 ” , ,::: 7 ii;;f : : 9~ 4 It:;; : I ; : i !~I .- .;j.,. . , . & I ( r... “:I:~- ,:...,. I 3C 6C 9c DISTANCE _3 ,OR-&W5 5/z GEOLOGIST mf&%-k%@6~- If-Xl NO. 3 yB5 ELEVATION 3@Q ’ 5 TRAVERSF NO. _,. -_ SURFICIAI MAT’1 _-. ,... ~-._-- - t3OUTHERN CALIFORNIA BOIL & TESI-INQ, INC. a..%? “I”.~O.L. .VmJ..T .aLIv D,.Dca, SALlPO”NIA ..,.D TRAVERSE TYPE ROCK TYPE ---- ji! 1 ’ I i I : :‘i i 3; j!’ I~$/ .L- , :... ; i I I :,; liii :!I ii;\ I , : i.11 f -1 ,..o, , (,. , i!lI( ‘il. i j; j !:I T ,I:* , ----I .ji; ; II ; /!!I/ i!$ ~ !I/! 1;;; i-!-i-i , II I 1 j!j .I+-) //j; 11; Ii;: A.: i,;! i;!: i[j: 11 I i c 1; !: ;)) i:, !-I? ,I : ;I/ 3 1;’ ..:. i ! I ; ! i ! : II’! ,A!..;. ;!‘I ! I I /,;I: III/ II:! ‘I iii’ g.j- i;: i .I i I~ 7, )// j-l/. lil,I ,.ii;!.i :iIjj/ CJJ I ia; I I,., ! : , I / : I I i l.:lL ;‘p fj I [ii /j 11: ! ;I! I’ :.L .il II; ; j,!I 1 j1.i. 1 ;-I’- j/j ! !ji I .i~.~. .i Ii: (ij j ;;i I .A.;.:. .: i,ji / :I; j ;;I Y’ _.,,. ! j:, : ! I : : , ,I’. I 5 i, .; : ! , : ‘t ! ! i i 7. I ; ,I ’ i i I bi 8 : a , ;I i.\ !i Li -rij ;-; i ’ Pi ;i ‘i II’ ii .:.’ Ll -I!- I ~.j j, ,;I !, 1. -1,. ‘:i I/ I iii Ij : ’ I I \++j ;:j ( I’, i 3.: I I I:; 1: I -._ . ’ I ,.a . I~ II i4’3 y-Tj ;. I 11 I I I +, ..L I , / I i 1 ! I ). ., lti0 120 60 150 100 50 ; I III. :II.i, 4.. ,,. :~I I I : : : t : ; . ii ‘1 .- . , ; . , 5 , , , ,...!.. I:, _-..-.-L- .,. *_-. ,.*.,/Jr I (i.0. : : \;r:-.. .‘.-‘(,i ! ! j / ;~! i I .Gl;l” . . . , ; : j ~ I -:) , ; , , . j ; 1 i.1 ‘~ , ( / . , i ! in- :iYJj : ‘:“‘I.’ , : i-1 j . ~; , .,. /._ 120 80 40 ..~... ‘~“I:‘: , I 4 .,,.,.... , , , ,,. ,___ . _ ,__. ,;:::!I:: . :, ~* * . i/ i, I _ ._I 11, /\j !;i 90 60 30 -.“i’ I., , i I , z& 60 40 20 .-II_. ~a4 ,IYOI1 ,/,..L. ’ I .._.. :.:.: I. * I ,. I. 30 20 la j,iil:Jil ::i;,.,,, ./.,.. I i : I I ,..; I : ‘. 40 60 80 100 120 140 160 180 200 90 120 150 . 180 210 240 270 300 I DISTANCE __3 BOUTHERN CALIFORNIA BOIL 6 TEBTINQ, INC. . ..cl II”.IC)IL. .Trn..‘I .AN 01.00. c*&.IcomN1A .I?.0 ?2!2BS Ion NO. __ 6~ TRAVERSE NO. __~. TRAVFRSE TYPE ELEVATION -- 330.’ SURFICIAL MAT’L. ROCK TYPl __~ __ ._.~_ --- c 180 110 60 I lM100 So 110 80 40 906036 60 40 10 , .L 1 =zzl:“, 20 40 -30 60 DISTANCE c3 ! I : ,i /!I’ I / .a t: I’ 1 : : i.1.:,n A- eOUTHERN CALIFORNIA :..::.. :, ., ( : : ..,.. !I,“’ _. .-- ,oaM?S ss CEOLOCIST e&&d.&!! ,_, JOR NO. 13783 ELEVATION - 4?@. -9 SOIL & TEBTINO, INC. . ..D “,“.“D.L= .Il..T .AN 01.011. cIs.IcomeJoI ..%.O . / TRAVERSE NO. c_. TRAVVIRSF TYPE SURFICIAL MAT’L. ROCK TYPF _~.~ ._,.. ..~ ,.~~_ m.,.-._~.--.- APPENDIX B CARLSBAD TRACT NUMBER 82-12, CANNON ROAD, CARLSBAD RECOMMENDED GRADING SPECIFICATIONS - GENERAL PROVISIONS GENERAL INTENT The intent of these specifications is to establish procedures for clearing, compacting natural ground, preparing areas to be filled, and placing and compacting fill soils to the lines and grades shown on the accepted plans. The recommendations contained in the preliminary geotechnical investigation report and/or the attached Special Provisions are a part of the Recorrmended Grading Specifications and shall supersede the provfsions contained hereinafter in the case of conflict. These specifications shall only be used in conjunctionwith the geotechnical report for which they are a part. No deviation from these specifications will be allowed, except where specified in the geotechnical soil report or in other written communication signed by the Soil Engineer. OBSERVATION AND TESTING Southern California Soil and Testing. Inc., shall be retained as the Soil Engineer to observe and test the earthwork in accordance with these specifications. It will be necessary that the Soil Engineer or his representative provide adequate observation so that he may provide an opinion that the work was or was not accomplished as specified. It shall be the responsibility of the contractor to assist the soil engineer and to keep him appraised of work schedules, changes and new information and data so that he may provide these opinions. In the event that any unusual conditions not covered by the special provisions or preliminary soil report are encountered during the grading operations, the Soil Engineer shall be contacted for further recomnendations. .- ) .- If, in the opinion of the Soil Engineer, substandard conditions are encountered. such as; questionable or unsuitable soil, unacceptable (R-10/85) SCSBT 8621081 June 25, 1986 Appendix 8, Page 2 moisture content, inadequate compaction, adverse weather. etc., construction should be stopped until the conditions are remedied or corrected or he shall recomnend rejection of this work. Test methods used to determine the degree of compaction should be performed in accordance with the following American Society for Testing and Materials test methods: Maximum Density 8 Optimum Moisture Content - A.S.T.M. D-1557-78. Density of Soil In-Place - A.S.T.M. D-1556-64 or A.S.T.M. D-2922. All densities shall be expressed in terms of Relative Compaction as determined by the foregoing A.S.T.M. testing procedures. PREPARATION OF AREAS TO RECEIVE FILL All vegetation, brush and debris derived from clearing operations shall be removed, and legally disposed of. All areas disturbed by site grading should be left in a neat and finished appearance, free from unsightly debris. After clearing or benching, the natural ground in areas to be filled shall be scarified to a depth of 6 inches, brought to the proper moisture content, compacted and tested for the minimum degree of compaction in the Special Provisions or the recommendation contained in the preliminary geotechnfcal investigation report. All loose soils in excess of 6 inches thick should be removed to firm natural ground which is defined as natural soils which possesses an in-situ density of at least 90% of its maximum dry density. When the slope of the natural ground receiving fill exceeds 20% (5 horizontal units to 1 vertical unit), the original ground shall be stepped (R-10/85) : \ - scsaT 8621081 June 25, 1986 Appendix 8, Page 3 or benched. Benches shall be cut to a firm competent soil condition. The lower bench shall be at least 10 feet wide or 1 l/2 times the the equipment width which ever is greater and shall be sloped back into the hillside at a gradient of not less than two (2) percent. All other benches should be at least 6 feet wide. Tne horizontal portion of each bench shall be compacted prior to receiving fill as specified herein for compacted natural ground. Ground slopes flatter than 20% shall be benched when considered necessary by the Soil Engineer. Any abandoned buried structures encountered during grading operations must be totally removed. All underground utilities to be abandoned beneath any proposed structure should be removed from within 10 feet of the structure and properly capped off. The resulting depressions from the above described procedures should be backfilled with acceptable soil that is compacted to the requirements of the Soil Engineer. This includes, but is not limited to, septic tanks, fuel tanks, sewer lines or leach lines, storm drains and water lines. Any buried structures or utilities not to be abandoned should be brought to the attention of the Soil Engineer so that he may determine if any special recommendation will be necessary. All water wells which will be abandoned should be backfilled and capped in accordance to the requirements set forth by the Soil Engineer. The top of the cap should be at least 4 feet below finish grade or 3 feet below the bottom of footing whichever is greater. The type of cap will depend on the diameter of the well and should be determined by the Soil Engineer and/or a qualified Structural Engineer. FILL MATERIAL - Materfals to be placed in the fill shall be approved by the Soil Engineer and shall be free of vegetable matter and other deleterious substances. Granular soil shall contain sufficient fine material to fill the voids. .- 1 R-10/85) scssr 8621081 June 25, 1986 Appendix B, Page 4 The definition and disposition of oversized rocks, expansive and/or detrimental soils are covered in the geotechnical report or Special Provisions. Expansive soils, soils of poor gradation, or soils with low strength characteristics may be thoroughly mixed with other soils to provide satisfactory fill material, but only with the explicit consent of the soil engineer. Any import material shall be approved by the Soil Engineer before being brought to the site. PLACING AND COMPACTION OF FILL I Approved fill material shall be placed in areas prepared to receive fill in layers not to exceed 6 inches in compacted thickness. Each layer shall have a uniform moisture content in the range that will allow the compaction effort to be efficiently applied to achieve the specified degree of compaction. Each layer shall be uniformly compacted to a minimum specified degree of compaction with equipment of adequate size to economically compact the layer. Compaction equipment should either be specifically designed for soil compaction or of proven reliability. The minimum degree of compaction to be achieved is specified in either the Special Provisions or the recommendations contained in the preliminary geotechnical investigation report. When the structural fill material includes rocks, no rocks will be allowed to nest and all voids must be carefully filled with soil such that the minimum degree of compaction recommended in the Special Provisions is achieved. The maximum size and spacing of rock permitted in structural fills and in non-structural fills is discussed in the geotechnical report, when applicable. - - Field observation and compaction tests to estimate the degree of compaction of the fill will be taken by the Soil Engineer or his representative. The location and frequency of the tests shall be at the Soil Engineer‘s (R-10/85) SCSAT 8621081 June 25, 1986 Appendix B, Page 5 discretion. When the compaction test indicates that a particular layer is less than the required degree of compaction, the layer shall be reworked to the satisfaction of the Soil Engineer and until the desired relative compaction has been obtained. Fill slopes shall be compacted by means of sheepsfoot rollers or other suitable equipment. Compaction by sheepsfoot rollers shall be at vertical intervals of not greater than four feet. In addition, fill slopes at ratios of two horizontal to one vertical or flatter, should be trackrolled. Steeper fill slopes shall be over-built and cut-back to finish contours after the slope has been constructed. Slope compaction operations shall result in all fill material six or more inches inward from the finished face of the slope having a relative compaction of at least 90% of maximum dry density or that specified in the Special Provisions sectfon of this specification. The compaction operation on the slopes shall be continued until the Soil Engineer is of the opinion that the slopes will be stable in regards to surficial stability. Slope tests will be made by the Soils Engineer during construction of the slopes to determine if the required compaction is being achieved. Where failing tests occur or other field problems arise. the Contractor will be notified that day of such conditions by written communication from the Soil Engineer or his representative in the form of a daily field report. If the method of achieving the required slope compaction selected by the Contractor fails to produce the necessary results, the Contractor shall rework or rebuild such slopes until the required degree of compaction is obtained, at no cost to the Owner or Soils Engineer. (R-10/85) SCS&T 8621081 June 25. 1986 Appendix 6, Page 6 CUT SLOPES The Engineering Geologist shall inspect cut slopes excavated in rock or lithified formational material during the grading operations at intervals determined at his discretion. If any conditions not anticipated in the preliminary report such as perched water, seepage, lenticular or confined strata of a potentially adverse nature, unfavorably inclined bedding, joints or fault planes are encountered during grading, these conditions shall be analyzed by the Engineering Geologist and Soil Engineer to determine if mitigating measures and necessary. Unless otherwise specified in the geotechnical report, no cut slopes shall be excavated higher or steeper than that allowed by the ordinances of the controlling governmental agency. - ) -- ENGINEERING OBSERVATION Field observation by the Soil Engineer or his representatfve shall be made during the filling and compacting operations so that he can express his opinion regarding the conformance of the grading with acceptable standards of practice. The presence of the Soil Engineer or his representative or the observation and testing shall not release the Grading Contractor from hfs duty to compact all fill material to the specified degree of compaction. SEASON LIMITS Fill shall not be placed during unfavorable weather conditions. When work is interrupted by heavy rain, filling operations shall not be resumed until the proper moisture content and density of the fill materials can be achieved. Damaged site conditions resulting from weather or acts of God shall be repaired before acceptance of work. - -. (R-10/851 t SCSBT 8621081 June 25, 1986 Appendix B, Page 7 RECOWENDED GRADING SPECIFICATIONS - SPECIAL PROVISIONS The minimum degree of compaction to be obtained in compacting natural ground, in the compacted fill, and in the compacted backfill shall be at least 90 percent. Detrimentally expansive soil is defined as soil which will swell more than 3 percent against a pressure of 150 pounds per square foot from a condition of 90 percent of maximum dry density and air dried moisture content to saturation, or by a soil having an expansion index greater than 30. Oversized fill material is defined as rocks or lumps over 6 inches in diameter. At least 40 percent of the fill soils shall pass through a No. 4 U.S. Standard Sieve. TRANSITION LOTS: Where transitions between cut and fill occur within the proposed building pad, the cut portion should be undercut a minimum of one foot below the base of the proposed footings and recompacted as structural backfill. In certain cases that would be addressed in the geotechnical report, special footing reinforcement or a combination of special footing reinforcement and undercutting may be required. - - I - (R-10/85)