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Home My WebLink AboutCT 01-09; LA COSTA TOWN SQUARE COMMERCIAL; PRELIMINARY GEOTECHNICAL EVALUATION; 1990-06-06tt . • . . Geotechñical • Geologic Environmental 5741 Palmer Way • Carlsbad, California 92008 • (760) 438-3155 • FAX(760)01-0915- June 6, 1990 W.O. 1047-SD N.A.G PROPERTIES 5057 Federal Avenue . San Diego, California 92102 Attention: Mr. Gordon F. Hartley Subject: Preliminary Geotechnical Study.Update Parcels S.E. 13, and 25 Acres. Easterly of La Costa Avenue and Mission Estancia, La Costa, City of Carlsbad, California Dear Mr. Hartley: . In accordance with your request GeoSoils Inc. has performed a preliminary geotechnical study and update for the above subject property, The purpose of our study, was to evaluate the nature of materials underlying the area and to provide recommendations for project design, grading and construction based on -our findings. SITE DESCRIPTION The subject site is approximately 75 acres in area located north of La Costa Avenue and east of Rancho Santa Fe Road in the community of La Costa, City of Carlsbad, California (Figure 1). A section. of Rancho Santa Fe Road and a truck by pass route traverse the western and northern portion of the property. An I •.•' J14 SAN 1 1!. RC .15 t 32 16 [-4 AD :. 3 taken from " The Thomas Guide,.'1989- Edition" LOCATION HAP ) GeoSoils, Inc. DATE 5/90 IWO. NO.'1047-SD IBYIi Soil Mechanics • Geology • Foundation Engineering M.A.G. PROPERTIES . . JUNE 6, 1990 W.O. 1047-Sp I .' PAGE *2' existing water line (Olivenhain Municipal Water. District), is located along the northern edge of the truck route as well as along the eastern and southern property boundaries. Minor fill areas exist onsite and are predominantly, associated with existing roadways which traverse and border the site (see Plate 1). The western portion appears to have been used as a borrow site and then as a site for dump fill and trash. Relatively flat areas in the central portion have also been used for dump fill. Topographically,. the site consists of several south to southwesterly draining 'small canyons, gullies and swales with intervening rounded southerly trending ridges. Natural slopes vary from 8:1 to 2:1 in gradient along the canyon side slopes and ridge lines varying from 12:1 to 4:1 in gradient. Total relief across the site is approximately 175 feet. Vegetation onsite consists of typical brush and cereal grasses. Various imported vegetation exist within the dump fill areas. PROPOSED DEVELOPMENT Based on a schematic land parcel map prepared by. Rick Engineering Company, proposed development will utilize cut/fill grading to construct large level building .pads, street access and parking areas for the proposed La Costa Town Center. A l'=lOO' scale GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1.990 W. 0. 1047-SD PAGE 3 topographic map, also prepared by Rick Engineering Company, is utilized as the base map for the enclosed geotéchnical' map, (Plate 1). Schematic plans :indite the 'proposed development will include abandonment of an'. existing portion of Rancho Santa Fe Road with realignment. approximately along the- existing truck 'bypass route. Fill slopes are proposed up to "approximately 70. feet in height, at' 2:1 gradients. Cut slopes are proposed up to approximately 35 feet in heights at, gradients of 2:1. .:Maximum depth of fill proposed is on the order of 40 (±) feet on -Lot 1. Maximum depth of cut is approximately 30(±) feet on Lot 7. In the event that any significant changes in the design (as indicated above) , are., planned, ,conclusions, and, recommendations contained in this report shall not be considered valid unless changes are reviewed and the conclusions of thisreport verified or modified in writing by this office. ' FIELD EXPLORATION Subsurface conditions were explored during this study by ' excavating 15 expioratory test pits with a 'rubber tire' backhoe and' 38 test pits with a track mounted hydraulic excavator.' Test pits ranged from 1.5 feet to 10 feet in depth. Test pit-logs-of, this study, as well as an earlier study by GeoSoils, Inc. GeoSoils, Inc. M.A.G'. 'PROPEIES ' . ' I JUNE' 6, 1990 ' WO. '1047-SD' ' " ", ' ' PAGE 4 (GeoSoils, Inc., 1982) are included'with this report as App e n d i x Recent field, exploration was perfored ,on May 1, 2, and 4 j 1990 by a staff geologist who logged the' test pits and obtained samples of representative earth'materials for laboratory t e s t i n g . The approximate location of exploratory test pits from this st u d y and the location of test pits and seismic lines from-our ori g i n a l study are indicated on the enclosed Geotechnical Nap (Plate' 1). Earth 'materials encountered onsite consist of - dump fill, artificial fill, slopewash, topsoil, ' alluvium, sedimentary bedrock belonging to the Delmar and Lusardi Formations, a n d volcanic bedrock of the Santiago, Peak Volcanics. 0 The original study bf this' property' (Geosoils, 1982) describe d sandstones as Torrey ' Sandstones and claystonès as Delmar Formation. SUbsequently, regional geologic mapping by other's (Eisenberg, 83; Tan,87; Weber,82) has described sedimentary bedrock onsite as undifferentiated Eocene age Friars/Delmar Formation. This designation is supported by the fine grain size, molluscan fossil bed and claystone interbeds observed within the sandstone bedrock. These traits, as well as the location of the Mr'oSoils. Inc. M.A.G. PROPERTIES " .. JUNE 6, 1990 W. 0.. 104-7-SD • . . - PAGE 5 site on the eastern, edge of the Eocene sedimentary embaymnt, are not characteristic of the Torrey Sandstone. . Undifferentiated ,no2uenólature Friars/Deiar Formation: (Eisenb e r g , 83, 85) is used to describe bedrock of this approximate age and . depositional environment, when, the transgressive or regressive nature of sedimentation is unknown (i.eo transgressive=Del m a r Formatibn, regressive=Friars Formation). For ease, formational sandstone and claystone.onsIte will be, ref erred to'as members of the Delmar Formation. Dump Fill ' Dump 'fills onsite occur in the west and central portions of the. site as scattered.pi1esdf imported soil, trash and plant debris dumped over existing.nátive soils. Dump 'fill' in .its present condition is not suitable "for structural support. 'Dump fill may be used as compacted fill provided it is cleaned. of plant debr i s and trash. Scattered ,.oversize rock may be disposed of in de e p e r fills onsite in accordance' with methods' specified in 'the gradi n g guidelines 'section of this report (Appendix II). Artificial Fill: map symbol (af Artificial fills onsite are' associated with existing roadways that border and traersé'the site. A fill 'thickness of five feet' was encountered in Boi-'ing B-1, and included an abundance of oversize volcanic rock fragments. This fill overlies topsoil and GeoSoils, Inc. M.A.G. PROPERTIES J1JNE.6, 1990 W lfl&1-Sfl PAGE .6 probably thickens toward: the present Rancho Santa Fe Road. An existing fill slope, 15 (±) foot high, occurs along the westerly portion of the truck bypass route. A fill was placed on site during grading for La Costa Avenue in approximately: 1985. Topsoil Much of the site is blanketed with a residual topsoil layer varying up to three. feet thick. Topsoils onsite are of two general types. , Where developed within sedimentary bedrock, they, consist of red. brown to 'brown; dry, loose and porous silty sand that grades to brown, gray brown and olive brown, moist, slightly porous sandy ' lean clays and clayey sand.. Carbonate ]nottlings 'are common along the base. Where developed on volcanic bedrock they consist of brown, crumbly, porous silty' clay with common rock fragments. Topsoils within areas of volcanic' bedrock typically grade downward into' colluv'ial material consisting of red brown, stiff, brittle and porous gravelly clay. Theuppèr portion of exposures observed in the western half of the property contained rounded pebbles of volcanic rock. These pebbles are possibly remnants of terrace deposits that once blanketed the area, but have since eroded away. Presence of these pebbles within 'topsoil • and the GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD ' ' ' ' : PAGE 7 occurrence of topsoil over colluviuin/slOpewash indicate that' some topsoils are at least in part colluvial 'in origin. Alluvium: map symbol (gal) Alluvium is. present within larger canyon bottoms onsite and was encountered; 'up to' 6:,. (±I'. feet thick. Thicker deposits may be found locally. Alluvium' consists of light brown, loose, dry to slightly moist, porous silty sand. Where alluvium overlies claystone, it consIsts of a dark greenish brown, moist, silty 'clay and sand-clay mixture. Alluvium is not considered suitable for structural support unless it is removed,: moisture conditioned and placed as properly compacted fill. ammEo'atO Sandstone member: map symbol 14,Tdsoa : The sandstone member of the Delmar Formation consists of yellow brown, orange brown and' gray, moist, dense, Laminate iron oxide staining and carbonate mottlings are common. Diagenetic intergrowths of gypsum were. also observed in a few test pits. Near the base the is a resistant fossiliferous limey sandstone bed approximately one foot thick. An olive' brown claystone bed or' lens, 4' to 6 feet thick, was encountered within the upper portion of the sandstone member (TP4] :,T46 and TP-47). Other beds or lenses could be encountered. GeoSol is, Inc. M.A.G. PROPERTIES W.O. 1047-SD Claystone member: map symbài (Tdcs) The claystone member of the Delmar Formation consists of dark olive brown, olive brown and brown, moist, firmto stiff, dense, thinly laminated to massive silty to sandy claystone and clayey . siltstone. This member is occasionally fractured with randomly oriented slickensides. The top of the claystone varies from about elevation 270 feet in the west to .310 feet in the northeast. Bedrock - Lusardi Formation: map symbol (Ki) onsite, the Cretaceous age Lusardi Formation consists of brown to red brown, moist, medium. dense,. gravelly claystone. Our study noted this formation to locally .exists along the southern property line near Test Pits TP16 and TP-17 only. Typically, the Lusardi Formation represents eroded material from the surrounding volcanic. .rock mass that was deposited on ancient lower slopes in. the region. Due to the anticipated orientation of the basal contact on. , the. underlying volcanic rock, fill keys should penetrate Lusardi and extend .at least two. feet into underlying volcanic rock.. Where exposed in cut slopes, this material should be stabilized. Bedrock Santiago Peak Volcanics: map. symbo,1104105791 Jurassic. age Santiago Peak Volcanics are situated on the eastern portion of the property. This formation consists of gray to brown to orange, dense and yry hard metavoIcanic and volcanic - . G:eoSoils, Inc. M.A.G. PROPERTIES " ( JUNE-6,1j90.- W.O. 1047-SD '0 H PAGE 9 rock in various stages of. decomposition. Density typically increases with depth. Hardness andrippability are related both to the density and degree of fracturing. In low lying areas, where 'it is overlain by deposits of alluvium, the volcanics are highly decomposed, consisting of predominantly gravel sized friable rock fragments in a clayey matrix. In the higher elevations, volcanic rock is very hard and dense at. shallow depths. General excavation characteristics are noted on the test, pit logs and may be -used as a guide to rippability. GEOLOGIC STRUCTURE Bedding attitudes within the sandstone member are locally random due to the cross-bedded, nature of this material. In general, sedimentary bedrock dips approximately 2 to 5' degrees to the.west and southwest. Fractures observed within some claystone exposures in test pits are randomly oriented and of variable dip. As such, 'prediction. of the 'effects of structure. relative to cut slopes' in the sedimentary bedrock, is difficult. Generally, stabilization of west and south facing cut slopes (i.e. below.'the .western half of Lot', I) should 'be anticipated. This may be modified based upon actual field conditions. Within 'volcanic bed'ick shallow discontinuous joint sets are generally oriented in a utherly to westerly direction and are GeoSoils, Inc. 'M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD PAGE 10 not anticipated to adversely effect cut slopes unless joint patterns become continuous' with depth. Due to the depositional environment of sedimentary bedrock on the volcanic mass, westerly dipping contacts may exist. Stabilization of these contacts should be anticipated, and may Lest be discussed during 40 scale plan review. Groundwater was not éncóuitered in 'any of our test 'pits • during the 'most recent study. Or initial study (GeoSoils, 82) noted. seeps in Boring B-3 at a depth of 17 feet and surface water was observed within a canyon in the vicinity of T-9. These observations reflect site conditions at the time of the respective studies and do not preclude changes in local groundwater conditions in the future from heavy irrigation or precipitation. 'S Field observations suggest there is a potential for creation of perched groundwater conditions above the claystone members of the Delmar Formation and on subsurface sedimentary/volcanic contacts. After development, heavy rainfall and/or irrigation water may reasonably be expected to migrate in through permeable sandstones and pond on top of claystone and/or highly weathered volcanic bedrock. Water can then cause unsightly 'seepage, reduce shear GeoSoils, Inc. strength or build, excessive hydrostatic pressure. These conditions could lead to slope instability. When speáific grading plans are available, comments can, b made on various cut, slopes regarding possible stabilization. . . . , .. FAULTING AND REGIONAL SEISMICITY No known active 'or 'potentially , active faults are shown . on published maps in the vicinity of thesité (Jennings, 1975). No evidence, for faulting was encountered in any of our explbratory excavations. There' are' a number of faults in the Southern California area which are considered active and which would have an effect on. the' site in. the'. form 'of ground shaking, should 'they he the source of an earthquake. These include the San Andreas Fault, the San Jacinto Fault, the,,, Elsinore Fault and the .Coronado Bank Fault Zone. Recent 'studies (by others), in the vicinity of Rose' Creek indicate that the Rose Canyon Fault is also active. The possibility of ground acceleration (Greensfelder, 1974), or shaking, at the site may be considered as approximately similar to the Southern California region as a whole. The relationship of the site location to major mapped faults within Southern' California is indicated 'on the Fault Map of Southern California (Figure 2). Reeatablehiigh ground acceleration (Ploessel and GeoSoils, Inc. . _ • one P-ft ' it Turn', I 10 ' • 1. S... • 36 • • • bobeft . CP .e PCK AL Somrsheld Tall racho Bob; ' r : DIG P:N( La"cos'e' NTA r4ff. a'c< Santo Bobo: . Venture San Be, -N'6- T.Pnl-lne VMS - - + + 4<p ' 34' Sc'JQ ROSG SQnt3C-ru b - - • p., cl er • I aNq (1011 _ Søtl•m Ccda L c 40 c3r do 5- AL , .ITE , + 33• • 12 20 (I Cr-"o Vo(',.Do t lice .1 , t ••• -L I Cwa 50 too Gulf -: of lie* 16- Modified after Fiedmanáñd Others, 1976 .-• FAULT MAP .•-'•..;- OF SOUTHERN CALIFORNIA :.) GeoSoil %s In" 5/90 Iwo 1047-SDBY GSI ç. DATE NO Soil Mechanics- Geology • Foundation Engineering --___________________ • S • FIGURE 2 • M.A.G. PROPERTIES. .' ( " JUNE' 6, 1990 W.O. 1047-SD ' PAGE 12 Slosson, 1974) on the property will, likely not exceed O. 18g assuming a magnitude 7.0 earthquake on the Elsinore Fault, 24 miles northeast of the site or 0.23g.assuming aInagnitudé 6.5 on the Rose Canyon Fault 'located 8 miles to the west., Other Hazards Considered: The following listing includes other eismic 'related hazards that have been 'considered for our evaluation of the site. These hazards' are considered negligible and/or completely mitigated as a result of typical " site development procedures: * 'Surface Fault' Rupture ' * Ground Lurching or Shallow Ground Rupture * Liquefaction * Seismic settlement or consolidation * Potential 'for tsunamis ' * Seiche LABORATORY TESTING General Laboratory tests were preformed on selected samples to evaluate physical characteristics of representative on site 'materials. This section is a compilation of laboratory testing performed during this study and our initial study. Some data was derived from nearby sites For ease of review, all laboratory data is included herein. GeoSouls, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD PAGE 13 Field Moisture and Density ' Field moisture content and drr unit weight were determined for "!undisturbed" 'samples of native materials. Dry unit weight was determined in pounds per 'cubic foot and the field moisture, content was determined as, a percentage of the dry unit weight. Iesults of these tests are presented within the boring logs in Appendix I. Laboratory Standard To determine the compaction' character of representative .samples of onsite earth material laboratory testing was' performed in accordance with ASTM Test Method D-1557-78. Maximum density and optimum moisture content from these tests are sunmarized. 'below: Location Description ' Maximum Density' ' Density (pcf) ' Optimum' Moisture % B-2 @ 31 , fine:sand ' ' 110.0 , 17.0 B-2 @ 24' silty clay 109.0 ' ' ' 18.0 B-3 @ 9' clayey silt 116.0 , 16.0 Parcel ' clay ' 109.0 , 20.0 S.E. 15 , Parcel Sandy silt , ' 109.0 , 17.5 S.E.' 15 Parcel ' Silty sand ' ' 115.0 ' 11.9 S.E. 15' TP-16 @ 1' silty sand 124.0 , 12.5 w/gravel TP-43 @ 5' silty fine sand ' 110.0 ' ' 17.5 'Expansion Tests Swell tests were perormed', on remolded samples of near surface soils. Samples were prepared at 80 percent of the optimum GeoSoils, Inc. N.A.G. PROPERTIES " I JUNE 61 1990 W.O. 1047-SD •.',. ' PAGE 14' moisture and at 90 percent of the. maximum dry density, placed under a• 60 pound per square' foo€,' surcharge, and submerged in water for 24 •hours. The percent swell was then recorded- as the amount of vertical :rise compared to the original one inch sample height. Expansion' index test were also performed.Testing was performed in accordance with Standard 29-2 of Uniform Building Code. Test results are summarized below: Location , ' Swell % Expansion Index Expansion Potential B-i @ 3' ' 2.4 - , low B-3, @ 9' 11.6 - ' ' high Parcel S.E'. 15 19.8 198 ' very high clay Parcel S.E. 15 .11.2 ' ' '61. medium sandy silt Parcel S.E. .15 5.2 22 . , low silty sand TP-16 @ 1' 5.5,' ' ' -' ' ' ' low TP-43 @ 5" '13.5 , - 'high Shear' Test Shear tests were performed on undisturbed soil samples 'in a strain control-type direct shear machine. Rate of deformation was approximately 0.05, inches per minute. Samples were sheared and 'resheared under varying confining loads in order to determine the Coulomb' shear strength parameters, cohesion, and angle of internal • friction. Samples were tested in an artificially saturated condition.. .Results are plotted on the enclosed Shear Test Diagrams, Plates SH-1,, SH-2 and SFI-3. GeoSoils Inc. M.A.G. PROPERTIES ' " , JUNE 6, 1990 W.O. 1047-SD ' S ' 'PAGE 15 Sulfates ' Samples of the site materials were analyzed for sulfate content. Test results are as follows: Parcel S.E. 15 clay. - 0.80% Parcel S.E. 15 sandy silt - 0.02% ' Based on these, test results, Type II and Type V'-cement may' be required for construction of the site. The actual cement type' should, be determined upon 'completion of grading with specific 'pad grade testing. CONCLUSIONS Based on our field exploration, laboratory testing, engineering and geological analysis, it is our opinion that the project' site is suited for the proposed development from a soils engineering and geologic viewpoint, provided the recommendations presented below are incorporated into the, final design, grading and construction phase of development. EARTHWORK RECOMMENDATIONS The. most 'significant geotechnical factors affecting site development are as follows: GeoSoils, Inc. 'M.A.G. 'PROPERTIES I JUNE 6, 1990 W.O. 1047-SD '• . PAGE '16 Presence of hard volcanic rock requiring blasting to excavate,' and subsequent placement of this material as' fill. 'Presence of claystones, both ,interbedded in the sandstones and the massive unit in lower elevations. Suitability of fill materials for slope construction and lot capping. Other considerations are the removal, of surfici'al soils, probable need far extensive subdrains, expansive soil and stability of graded, slopes. Rock Hardness ' Volcanic rock 'underlies the eastern or northeastern portion of the site. Based on available data, significant 'portionsof the proposed': cut areas would require blasting to excavate. While b'oth recent trenching and previous seismic refraction studies show variation 'of depths' at which blasting is likely to be necessary, we anticipath' the upper 8 to 10(±) feet could reasonable to ripped and excavated using a D9L or equivalent ripper Cat. It may not be' bneficial to do this, , however. Blasting procedures utilizing a certain "overburden" tend to be more effective producing-'smaller (more fractured) rock pieces. These are generally more readily placed as fill. Rock hardness is further discussed in Appendix III. Claystones ' Rather extensive cláystone are present. These 'are problematic with respect to -slope, stability both in cuts and when utilize for GeoSouls, Inc. M.A.G. PROPERTIES . . JUNE 6,. 1990 W.O. 1047-SD .. PAGE 17 fill slopes. Claystones,..aré presents both in the Lusardi and Delmar Formations. The existing cut slope , south. of Boring •B-5 (Lot 4) will need to be stabilized where it exposes claystone. While ultimate design will .depend on" speOif Ic grading, we tentatively anticipate a 20 to 30.foot wide key, 5 to 7 feet.deep, below toe grade. 'A similar key would extend easterly to the volcanic contact (near B-3)'. A key should penetrate the Lusardi Formation and extend a, minimum of two feet into volcanic .roOk near TP-16 below Lot 6. Slopes near the claystoneinterbed in the sandstone section would also need to be stabilized (i.e. the western area of Lot 1). Fill Suitability . .... . . . . While it Is possible to use any of the materials on site as-fill, the majority of materials have some limitations which should be discussed. The majority of surficial soils are expansive clays and.are best suited for placement in deeper fills and away from slope faces. Claystones also are best placed in deeper fills and should not be placed within 15(±) .feet of slope faces. Sandstones on site should produce good quality fill and be suitable both for slope construction and for placement near GeoSoils, Inc. M.A.G. PROPERTIES JUNE 61 1990 W.-O. 1047-SD. PAGE 18 finish grades on pads. 'While fill materials derived from sandstone is. considered somewhat erqsive, this can typically be controlled by mixIng and/or protective measures on finish slopes. Our testing and observation indicate that the expansive potential of these sediments varies from low to high, with low to medium dominating. Volcanic rock should produces highly variable fill materials. The upper weathered. portion which, 'can excavated by ripping, should produce reasonably good fill material with some oversized rock. . Materials that display seismic velocities less than 9,000 to 10,000 'feet .per second (fps), but necessitate blasting should produce ':materials well suited forplacement as structural rock fill (see Fill Placement section page.24). Harder material will likely' generate poor, quality fill containing minimal fines. Placement in non-structural areas, mixing with crushed or mined on-site materials, mixing with imported granular material or export of this material should be anticipated. Natural-Slopes - Generally, existing natural slopes appear stable in the gross and surficial sense. Conceptual development plans indicate that.' all natural slopes onsite are to be graded. GeoSoils, Inc. M.A.G. PROPERTIES W.O. 1047-SD JUNE 6, 1990 PAGE ' 19 Cut Slopes- Proposed cut slopes are projected in height to. about 30(±) feet at 2:]. gradients. The majority of cut slopes are expected to expose volcanic bedrock with a thin soil mantle. Smaller cut slopes, 'on the order of seven feet or: less, are expected to 'expose sandstone 'bedrock of the Delmar Formation. 'Stabilization of any west and southwest facing cut slopes exposing the Delmar Formation may be recommended. These slopes 'will •be evaluated during grading operations. Stabilization fills should be provided with backdrainage. Cut slopes in the volcanic bedrock are not anticipated to require stabilization unless continuous fractures or shears are encountered. Also, overblasting can weaken the rock 'material, necessitating stabilization. Field observations 'suggest there is a potential for perched water conditions to form ,on the claystone members of the Delmar. Formation and on subsurface sedimentary/volcanic contacts. 'After development,, heavy rainfall and/or irrigation water may be expected to migrate through permeable sandstones and' pond On top of claystone and/or' hig1i1y' decomposed, clayey volcanic bedrock:. Water can then cause unsightly seepage, reduce shear strength or build excessive hydrostatic pressure. These conditions could lead to' slope instability. As such, cut slopes exhibiting claystone beds' sandwiched , between, sandstone beds should be stabilized and GeoSoils, Inc. M.A.G. PROPERTIES JUNE 61 1990' W.O. 1047-SD I . PAGE 20 backdrains provided. When specific .gradiiig plans are available, comments can, be made on various ut slopes regarding possible stabilization. All cut slopes should be mapped by a geologist from this office during grading to allow for amendments to recommendations, 'should exposed conditions warrant altètation of the design for stabilization. Fill Slopes' Fill slopes are proposed to 70 (±) feet in height at gradients of 2:1. 'Fill 'material derived purely from the claystone member of the DelLar. Formation should not be placed on fill slopes or within 15 feet of a .fill'slope surface. Bench' drains should be constructed on graded' sippes using the Uniform Building Code as a minimum standard. ' Fill slopes are considered stable assuming proper construction. Existing Fills Existing fills. within the property are associated with dirt roadways crossing canyons in the eastern portion, stockpiled/dumped on the western portion of the site or associated with the truck bypass route and Rancho Santa Fe Road in the northern portion.' In addition, engineered fill is- situated in the western" canyon on the north side of La Costa Avenue (see Plate 1). 'Research at the City of Carlsbad GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD . PAGE 21 Engineering Department noted that grading along La Costa Avenue was conducted with observations and testing of Southern California Soils and Testing (SCST). However, a final soils report was not available- at the City and is being requested from SCST. We anticipate existing fills associated with La Costa Avenue to be adequate for structural support in their present condition. Existing fill soils along the bypass route and Rancho Santa Fe Road appears to. be limited and should be reworked in. areas of proposed grading. Stockpiled/dumped: fills, situated on the western portion of the site, are considered loose and compressible in their present condition and should be removed. These materials may be used as fill provided they are clean of all organic debris. Perimeter Fill Slope Keys The schematic land map indicates that fills may extend over cut slopes. Kèyways will be needed to support these fills. DimensiOns of these key will vary depending on upon speàific conditions (bedrock orientations, descending . slope gradients, etc.). and material type encountered. Deeper and wider keys would be needed where claystone','. SL., are present. Key depth will probably vary from two 'to seven feet while widths of fifteen to twenty GeoSoils, Inc. M.A.G, PROPERTIES S ( , .]1.JNE 6, 1990 W.01b 1047-SD PAGE 22 five feet should be anticipated. This could be further analyzed when grading plans are available. Typical stabilization type 'backdrain would' be recommended for most of these keys. Drains will likely be recommended near the base of the keys and also along sandstone/claystone contacts. Removals Removals should include all existing stockpiled/dumped fill, topsoil, alluvium and highly weathered bedrock materials.' Due to the soil cover encountered on existing natural slopes, removals of natural'sojls should be anticipated to be on the :order of 3(±) feet overall. Locally deeper and shallower areas of removals may be encountered. Removal "depths of alluvium in lower canyon bottoms and swal?s should be anticipated to be on the order of 6 to 7 feet. Locally deeper or shallower 'removals may be encountered.. Shrinkage - Bulking Sedimentary bedrock mat6ria1s 'on the project are anticipated to bulk 0 to 3 percent. Vo1óanic 'rock will bulk, dependant on the depth of cut, a range of 5 ,to 25 percent. Typically, rock should bulk in' cuts up to 10 (±) feet approximately 5 to 10 percent. Rock should bulk in cuts from 10 to 25(±) fe.ét.approximately .10' to 20 percent, and rock in cuts greater than 25 feet should bulk on the order of 25 percent. Topsoil and alluvium will likely GeoSoils, Inc. M.A.G. PROPERTIES . . ... JUNE 6, 1990. W.O. 1047-SD, . . S •PAGE.23 shrink '10 to 15 percent. Dumpf ills would likely shrink 20.to 25 precent. Subdrainage . . Placement of. subdrains will need to be evaluated during grading plan, reviews. Subdrãins will likely be' recommended below all canyon fills and for all stabilization fills exceeding '8 feet in height. " Drains would' likely be recommended 'for' perimeter'f ill 'slope keyways. Due to the potential for groundwater 'accumulation and migration "along the sandstone/claystone contact, an additional drainage system: may be necessary to drain this contact- in certain areas.' Stabilization of, cut slopes exhibiting this condition should also be anticipated. This system, or combination of systems 'can 'best be designed when grading 'plans are developed'. Subdrains should extend up canyons to levels of ten feet below finish fill grade but should not conflict with future utilities.' Subdrains should be constructed in accordance with designs given in 'Appendix II. Fill' Placement Guidelines for fill placement are presented in the' Grading Guidelines enclosed as Appendix II. A' large portion of cut material generated within areas of GeoSoils, Inc. M.A.G. PROPERTIES S 1 JUNE 61 1990 W.O. 1047-SD °.,, PAGE 24 , volcanic bedrock, either_`, from blasting • or ripping, will most likely be unsuitable for.use as typial fill material. In order to provide guidelines for conventional fill versus. rock fill the following criteria has been developed for various materials: Type 1: Materials comprised predominantly of 3/4 inch and smaller particles with less than 40 percent rock fragments eight (8) inch and smaller. Type 2: Well graded,materials comprised dominantly of three (3) inch and smaller particles with less than 40 percent rock fragments eight (8). inch. and smaller. Type 3: Material containing approximately 40 to 60 percent rock fragments (8 inch to 2 feet). and approximately 40 percent: well graded matrix material comprised dominantly of 3 inch and smaller particles. Materials Types 1 and 2 may be placed as conventional fill. Type 3 is considered suitable for placement Of, rock fill and should be capped with a minimum of 5 feet of Type 1 and 2 materials in pads. Based on available data, it is our opinion that the materials excavated from volcanic rock on-site would fall within the above categories assuming efforts are made to maintain fairly shallow cuts. Materials containing minimal fines would also likely be GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD PAGE 25 encountered, generally at depth greater than 15 to. 20 feet. These will require mixing, crushing or possibly other special handling techniques. It is important that when needed, blasting procedures by utilized which will produce 'dominantly 2 foot minus rock fragments. This should not only result in dominantly, less than 2 foot rack but also generate smaller material (less than .8 inches). Grading. should be. scheduled to develop deeper cut areas, where hard rock -and oversize, material are likely to encountered, in the early stages of grading.. This provides more flexibility to acco-inmodate blasted rock and oversize rock fragments in deeper fills and may avoid major rock disposal problems (crushing, export, etc.) in the late stages of grading. Stockpiling of removals and shallow but 'material and mining of sandstone may be considered depending on earth work balancing. Piping Potential and Filter Blankets The potential for piping (migration) of fine grained material from the overlying conventional fill cap into rock fills will need to be addressed. The potential for particle migration is related to grain size comparisons of materials present and in contact with each other. Provided that 15 percent :ôf the.finer. soil is larger than the effective pore size of thecoarse soil then particle migration is GeoSoils, Inc. .M.A.G. PROPERTIES . .. . 1 JUNE 6, 1990 W.O. 1047-SD •, '. . PAGE '26 substantially. mitigated. This can be accomplished with a well graded matrix material for the rock fill and a zone .of fill similar to the matrix above 'It . (e.g. 2 to 3 feet thick blanket of Type 2 fill placed over Type 3 fill).' The specific, gradation of - fill materials placed during grading must be known to evaluate the need for any. type of filter that may be necessary to cap the rock fills. This, unfortunately, can only be accurately determined during construction. . . In the event that poorly, graded matrix is used in the rock fills, properly graded filter blankets (2 to .3 feet thick) separating rock-fills and conventional fill may be needed. Alternately, use of two layers of. filter .fabric (Mirafi 700 x or equivalent) could. . '. be employed on top of the rock fill. One layer of fabric.'should be placed on the rock.f ill surface after it has been, well broken down and smoothed to mitigate excessive puncturing. Relatively permeable fill material (with respect to overlying material) 1 to 2 feet thick should then "be placed and compacted. The second layer of fabric should then be placed and conventional fill placement continue. Lot Capping For transition lots it is recommended that the cut, and portions of the fill area be overexcavated a minimum of five feet. and brought to grade with compacted fill. This is to provide a GeoSoils, Inc. M.A.G. PROPERTIES W.O. 1047-SD JUNE 6, 1990 PAGE. 27 uniform' bearing material and greater insulation' against the contrasting properties 'of 'transition materials involved (i.e. expansion and seismic acceleration). Rock fills should be capped with a minimum 5 foot thick 'soil fill. Foundations . for any structure should' be entirely 'in uniform gedrock or in compacted fill. . Placing highly 'expansive, soil should be avoided in.' the upper five (5) feet of the building pads, if possible.. . .. . . Foundation Recommendations Based upon our observations and test data, low expansive to highly expansive 'soil exists onsite. xpansion tests should .be performed for each :lot/building" site at the - 'completion 'of. grading. Specific. recommendations for foundation design' and construction will be presented when the detail plans become available. Special' consideration will be needed in certain areas particularly where significant beneath individual buildings. differential fill is present Plan Review Specific grading plans should be submitted to' this' office for review and comment as they become available, to minimize any misunderstanding between the plans and recommendations presented herein. In 'addition, "fàundation excavations and. earthwork construction performed on the'site should be observed and tested GeoSoils, Inc. 'M.A.G. PROPERTIES JUNE 6, 1990 W.O. '1047-SD '. I , PAGE 28 by this office. If conditions are found 'to differ substantially form those stated, appropriate recommendations would be offered At that time.. LIMITATIONS' Materials encountered on the project isite and 'utilized' in' our. laboratory study are believed, representative' of the area;; however, soil' and, bedrock materials vary in character, between excavations and natural outcrops or conditions exposed during mass grading. 'Since our study is based 'upon the site materials observed, selective laboratory testing and enìgineering analysis, ' the conclusion and recommendations are professional opinions. These opinions have been derived in accordance with current' standards of practice and no warranty is expressed or implied. GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD PAGE 29 If you have any questions concerning tlis report, please call. Very truly yours, GeoSoils, Inc. gra ti Me, 142 GE 782 Principal Geologist GeotP hni+licallngineer <60P C r.-~risman Staff Geologist S 782 -i TEM/VS/RGC/mc : 12-31-93 O S Enclosures: Reference List 5 Appendix I, Test Pit and.B Appendix II, Grading Guidein Appendix III, Rock Hardness and Evaluation Plates SH-1, SH-2 and SH-3! Test Diagrams Plate 11 Geotechnical Map cc: (6) Rick Engineering Company, Mr. Ladwig S GeoSoils, Inc. REFERENCS Eisenberg, L.I, 1983, Pleistocene Inrine terrace and Eocene geology, Encinitas and Rancho anta Fe quadrangles, •San Diego County, California: San Diego State Master's Thesis 386p. Eisenberg, L.I., '1985, Depositiona] Processes in the Landward Part : S of an Eocene Tidal Lagoon, North, ern San Diego County: in Abbott, P.L. ed., On the Manner of Deposition Of Eocene Strata in Northern San Diego Couny, San Diego Association of Geologists Guidebook, 98 pp. GeoSoils, Inc., 1982, Preliminary Geologic and Soils Engineering Investigation, Parcels S.E. 13 and 14 in La Costa, 'City of Carlsbad, California. Greensfelder, Roger, 1974, Maximum credible rock acceleration• from earthquakes in California,;' Calif. Div. Mines" and Geology, Map sheet 23. Jennings, Charles w., 1975, Fault Nap of California; Calif. Div. of Mines and Geology, Geologic Data Map series No. 1, to 750,000 scale,. Ploessel, Michael R. and Slosson, JamnesLE., 1974, Repeatable High Ground Accelerations - Important dsign criteria; California Geology, Sept., p. 195-199. Schanbel, P.B., Seed, H.B., 1973, Accelerations in Rock For Earthquakes in the Western United States: Bulletin 'of the Seismological Society, of America, v. 63. no. 2, pp. 501-516. Tan, S. J.,, 1987, Landslide Hazards in the Rancho Santa Fe Quadrangle, San Diego County, California. Landslide Hazard Identification Map #6, CD.M.G. Open File Report 86-15 LA. Weber, F.H., 1982, Geologic'Map of the central-North Coastal Area of San Diego. County, California, Showing Recent Slope Failures and Pre-Development Landslides: California Div. Of Mines and Geology Open-File Report82-12 LA, Plate 1. GeoSoils,. Inc. EXPLORATORY TE9 PIT LOGS Test Pit Depth (ft.) Natrial Description. TP-1 0-4 Easy to moderately' difficult excavating. 4-4.5 ' Very difficult excavating. 0-0.5 TOPSOIL: Medithu brown, si1ty CLAY, loose, brittle, porous, occasional small to large gravel size'rock fragments, common insect I3urrows and roots,' dry. '0.5-1.5 ' SLOPEWASH: Brown to yellow brown, gravelly CLAY, lOcally sandy, stiff, medium hard, and brittle, very' slightly, pliable, porou, common high 'angle open fractures, occasional rootlets, slightly moist. 1.5-3 HIGHLY WEATHERED BEDROCK (Jsp): Greenish gray-rust-tan, highly weathered VOLCANIC rock, 'locally 1ighly decomposed tOclayey gravel, mediumdense to dense, brittle, highly fracturad with common clayey rinds ' - representing ir' situ 'alteration, 'occasional rootlets, slightly moist. 3-4 Orange-gray-white, highly decomposed VOLCANIC rock, predominantly silty clay, medium dense, crumbly, slightly sticky, occasional relict rootlets, no distinct lineations, localized caliche, truncated by soil, note rock stringers incorporated, Slightly moist. 4-4.5 ; Medium brown-yellow brown gray, weathered VOLCANIC rock, dense, brittle, blocky' cleavage, moderately fractured, oxidized, dry'. Practical Refusal at 4.5 feet Hole Backfilled Apparent shear at 3' N70W/62SW Prominent joint at 2 5' N38W/76SW GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-2 , 0-5 Easy to moderately very difficult. excavating. 5-7 Moderately difficult to very difficult excavating. 0-0.5 TOPSOIL: Medium .brown - silty CLAY, ' 'loose, brittle, porous, occasional small' - ' tolarge gravel size rock fragments, common insect' Iurrows and roots, dry. 0.5-2.5 , HIGHLY WEATHERED -BEDROCK (Jsp): 'Greenish 'gray-rust-tan, ,!highly weathered VOLCANIC rock, locally highly decomposed to clayey gravel, medium dense to dense, brittle,' highly fracturd with common clayér rinds representing in situ alteration, occasional rootlets,* slightly moist. 2.5-4 ' Grayish green-rust, weathered VOLCANIC 'rock, medium dense, brittle,' highly fractured with2"-1'(±) spacing, fractures exhibit clayey crusts.(in situ alteration), taces rootlets, locally 'highly decomposed to sandy clayey materials, slightly moist. 4-7' .' ' Rust and gray with green and white random sea king, irregularly ' wéathered/decontposed VOLCANIC rock, medium dense,, medium hard, brittle, fractured with :811-11 (±) spacing, locally common randomly orientated discontinuous stringers of crumbly green and white clayey material with caliche '(highly. decomposed zones?), locally very blocky, oxidized, slightly-moist. PrOminent joint set at 3.5' N55W/42-48SW ProminEnt joint set at 4' N18E/68SE Practical refusal at 7 feet Hole Backfilled -2- GeóSoils, Inc. M.A.G. PROPERTIES / JUNE 6, 1990 W.O. 1047-SD S EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-3 0-4 Easy to modratply difficult excavating. 4-5.5. Difficult :to.veiy difficult excavating. Q-1/2 TOPSOIL: Mediun brown,, silty CLAY, 0 loose, brittle, porous, occasional small to large graveli size rock fragments,. .. ., . common insect burrows and roots, dry. 1/2-2 SLOPEWASH: Reddish brown,' clayey 'GRAVEL, • medium hard and brittle, porous, occasional rootlets, slightly moist. 2-3 ALLUVIUM: Yellpw brown to brown, • . silty/fine sandy. CLAY, stiff, slightly . pliable, occasional small gravel size rock fragments,F isolated relict rOôtlets, . . slightly moist to moist. 3-5 . HIGHLY WEATHERED BEDROCK (Jsp): Mottled . . gray and orange, highly irregularly . ' . .. . dedmposed VOLCANIC rock, predominantly sandy clay with pockets or rock ' faents, medium dense, abundant S S roandoliily orientated gray discontinuous • stringers, material may represent zone of contact metamorphic with Delmar Formation to west, moist to slightly moist. 5 5-5.5 . Orange and gray weathered VOLCANIC rock', . ' . S dense, hard and brittle, blocky with . fragments up to 11 (±) in one dimension, oxidized, common black manganese'(?) S staining, dry. •. 0 Practical refusal at 5.5 feet 0 • Hole backfilled 0 S 'S• S • -3- GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD ,. . . EXPLORATORY TEST PIT LOGS . Test Pit Deth (ft.) Material Description. TP--4 0-3.5 Easy to moderately difficult excavating. 3.5-8.5 Moderately difficult to difficult - excavating. 0-05 . TOPSOIL: Medium dark brown, silty CLAY, loose, porous, abundant rootlets and insect burrows, dry. 0.5-3 . SLOPEWASH: Reddish brown, clayey GRAVEL, medium hard andl brittle, porous, occasional rootlets, slightly moist. 3-8.5 HIGHLY WEATHERED BEDROCK (Jsp): Tan- olive gray-gray, irregularly decomposed VOLCANIC rock, predominantly sãfldand clayey with loc1ized. pockets/stringers of hard rock, indiuia dense, common in situ weathering/alteration-to clayey, materials, oxidized, locally very crumbly and friable, traces of caliche at 3'- 3.5'(±), slightly moist. Joint set at 5' N50W/70NE Practical refusal at 8.5 feet Hole backfilled Geó.Soils, Inc. M.A.G. PROPERTIES ( JUNE 6; 1990 W.O. 1047-SD I EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Descrptjon TP-5 '0-4 Easy to modérately difficult excavating. 4-10. Moderately difficult to difficult excavating. 0-0.5 TOPSOIL: Medium dark brown, silty CLAY, loose, porous, .!abundant rootlets and •• insect burrows, dry. 0.5-2 SLOPEWASH: Reddish brown, sandy CLAY, ' local gravel, stiff, moderately porous, slightly pliable, brittle, occasional vertical open fractures, occasional' S rootlets, moist. 2-10 ' HIGHLY WEATHERED BEDROCK (Jsp): :yellow brown to gray nd black on broken' surfaces, irregii1ar1y decomposed VOLCANIC rock, locally very clayey and sandy (in -' situ alteration), medium dense, locally fracture, brittle and 'very hard, randomly weathered, oxidized with black iii anese(?)' staining, slightly platy cleavage with fragments averaging'511(±) in.- one dimensidn, slightly moist. 'Prominent joint at 4' N5E/vertical S Prominent joint at 4' N5W/85-90E Prominent joint at -40 N46E/80-90Nw Localized practical refusal at 10' 'S • S ' Hole ba,ckfilled -5- GeoSouls, Inc. I M.A.G. PROPERTIES . ( JUNE 6,'1990. W.O. 1047-SD . ... S EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Matérial Description . . TP-6 • . 0-1 Easy excavting. 14 : Difficult. excavating. 0-0.5.1 TOPSOIL: Medium brown, silty CLAY, loose, brittle, porous, occasional small to large gravel size rock fragments, common insect burrows, and roots, dry - .0.5-2 SLOPEWASH: Rddish brown, sandy CLAY,. local gravel, stiff, moderately porous, . •• slightly pliab1le, brittle, occasional vertical open fractures, occasional rootlets, moit. 3.4 S WEATHERED BEDROCK (Jsp): Rust and gray, weathered VOLCANIC rock, dense, hái-d brittle, blocky cleavage, fractured with • S • S 211-511(±) spaciing, fragments average 311 (±) in one dimensiion, dry. S S • . Local practical refusal at 1 to4 feet • S • Hole báckfilld S GioSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O'. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-7 0-5 Easy to moderately difficult excavating. 5-7 Moderately difficult to very difficult excavating. 0-0.5 TOPSOIL: Brown], silty CLAY, occasional to.'-.common surfape rock fragments1 porous, brittle, abundant. rootlets, slightly moist. 0.5-1.5 SLOPEWASH: Brown with orange mottling, gravelly CLAY, medium stiff to stiff, moderately porous, occasional rootlets, moist. 1.5-7 WEATHERED BEDROCK (Jsp): Rust-brown- gray, irregulaxjly weathered VOLCANIC rock, medium dense, highly fractured with random orientations, locally highly decomposed to crumbly sandy/clayey materials, traces of rootlets, odixized with clayey crsts on prominent fractures i n. situ altera!tion) in upper 1' (±), slightly moist. Pt6m1nént joint @1.5' N25W/50SW Proinënt joint @5 ' N37W/62NE • General lineation 3' N5W/60W Practical refusal at 7 feet Hole backfilled GeoSoits, Inc. .M.A.G. PROPERTIES 0 ( JUNE 6, 1990 W.O. 1047-SD • EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-8, 0-1 Easy excavati4 : Difficult.éxcayating 0-0.5 TOPSOIL: Browj1, silty CLAY, occasional to common surface rock fragments, porous, • brittle, abundant rootlets, slightly moist. • 0 0.5-1 SLOPEWASH: Orange brown-brown, sandy CLAY, stiff, prous., slightly pliable and sticky, occasional rootlets, moist. 1-3 WEATHERED BEDROCK (Jsp): Rust and gray, • 0 • weathered VOL4NIC rock, dense, hard and •• brittle, blocky cleavage, fractured with 2"-5" (±) spaciig, fragments averace 3" (±) in one dimnensipn, dry. • • Joint set at 1.5' N40W/70SW Practical refual0 at 3 feet • Hole backfil1e 0 JUNE 6, 1990 M.A.G. PROPERTIES W.O. 1047-SD EXPLORATORY TEST PItT LOGS Test Pit Depth (ft.) Material Description TP-9 ' 0-1 . Easy excavating. '1-7 Moderately diftificult to very difficult excavating. 0-I TOPSOIL/SLOPEWkSH: Reddish brown, sandy CLAY,. loose and porous to medium stiff, crumbly, occaslional surface rock fragments, oc'csional to common rootlets, slightly moist. 1-7. WEATHERED BEDPOCX (Jsp): Tan-rust-gray, irregularly deo]nposed' VOLCANIC rock,' medium dense,' rocky to locally sandy and ciayey, fractured with 2"-l' (±) spacing, minor clayey crusts on fractures surfaces , '(in 'situ a1tertion), trace relict rootlets, oxidized, slightly moist. Joints set at 141 N62W/85-90SW Localized practical refusal' at 7 feet Hole backfi1le1 TP-10 078 , Easy to .moderate1y difficult excavating. 0-i TOPSOIL/ALLUVIUM: Brown-orange brown, 'sandy CLAY, lo1ose to stiff, porous, brittle crumbly to moderately. pliable, common roots airid relict roots, moist. 3-8 ' ' 'HIGHLY WEATHE1E1) BEDROCK (Jsp): Rust- gray-brown, irregular decomposed VOLCANIC .rck,' predominantly gravelly with sandy and clayey cru1inbly fragments, localized hard rock bloc'ks, oxidized, no distinct fractures, abundant in situ alteration, moist. •• Total depth= 81 feet Hole backfil1e, GeoSolls, Inc.; I. M.A..G. PROPERTIES ( JrJ1JE 6, 1990 W.O. 1047-SD . EXPLORATORY TEST PT LOGS Test Pit Depth (ft.) Material Description TP-11 0-5 Easy to modeatLely difficult excavating 0-1.5 TOPSOIL/SLOPEWASH Brown, sandy CLAY, • loose, porous,coinmon' .roots/rootlets, dry. . . -5.WEATHERED BEDROCK (Jsp): Gray and brown, S . irregularly weathered/decomposed VOLCANIC rock, predominantly gravelly/cobbly up to l'(±) in -one dimension, dense, platy . S . cleavage, fractured with average 31t (±) • S spacing, oxidi2ed, locally very clayey (in situ alteration), dry. Prominent joint at 2' N55W/65SW S • Total depth= 5, feet • Hole backfi1le S. • S ,. . S -10- GeoSoils, Inc. M.A.G. PROPERTIES . . . . . . JUNE 6,1990. W.O. 1047-SD - EXPLORATORY TEST Piir LOGS Test Pit Depth (ft.). . Material Descrirption TP-12 0-7.5. Easy to moderately difficult excavating. 7.5-9 Difficult to very difficult excavating. 0-0.5 TOPSOIL: Red brown,. sandy CLAY, loose, • porous crumbly, slightly brittle, common 'roots, slightly1 moist. 0.573 SLOPEWASH: Mottled red-orange-brown-red brown, sandy CIIAY with occasional rock. fragments, stif, brittle, occasional • relict rootlet, moist. 3-9 , HIGHLY WEATHD BEDROCK (Jsp): Red. • brown-yellow brown -tans irregularly decomposed VOLCANIC rock, predominantly sandy and clayey with isolated, rock . 'pockets, medium dense, slightly friable, common in situ alteration, randomly - 0 • • . fractured with discontinuous orientations, occasional white 1/8" clay • seams along fra ctures in upper l'(±), oxidized, s1ig1t1ymoist. Localized pract!ical refusal at'9' 'feet Hole backfilled -11- GeoSoils, Inc. N.A.G. PROPERTIES . ( JUNE 6, 1990 W.O. 1047-SD '. ..... I EXPLORATORY TEST PIT LOGS S Test Pit Depth (ft.) Material Descrption . 0, •.' .1 . TP-13, . 0-6 Easy to moder'ate1y difficult excavating. 6 Difficult to vry difficult excavating. . 0-0.5 . TOPSOIL: Red* brown,. sandy. CLAY,, loose, porous crumbly, slightly. brittle, common roots, slightly moist. 0.5-2 SLOPEWASH: Red brown, gravelly CLAY, stiff, brittle, porous, occasional rootlets, moist. 2-3 HIGHLY WEATHERED BEDROCK (Jsp): Brown red, irregularly decomposed VOLCANIC rock, predominantly sandy gravelly clayey materials with .jlocalized rock pockets, medium dense, abundant in situ alteration, cri.publy, moist. 3-8 WEATHERED BEDR6CK (Jsp): Mottled gray and brown-rust, irregularly decomposed VOLCANIC rock, predominantly small gravel tQiarge cobbl size clayey crumbly rock f]agments (in situ alteration), ocôsional harq rocky pockets, irregular discontinuous weathering patterns, becoming rocky at 71 (±), slightly moist. Practical refuai at 8 feet Hole backfilled -12- GeoSoils, Inc. M.A.G. PROPERTIES W.O. 1047-SD. EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description JUNE 6, 1990 TP-14 0-5 . Easy to moderately difficult excavating. . 0-0.5 . TOPSOIL: Red brown, sandy CLAY, loose, porous crunbly, slightly brittle, common roots, slightly moist. 0.5-1 . . SLOPEWASH: Red brcrn, gravelly CLAY, stiff, brittle, porous, occasional. . rootlets, moist. 1-5 flIGRLY WEATHERED BEDROCK. (Jsp): Multi- colored, irregularly decomposed VOLCANIC . rdck, predominantly sandy gravelly clay t.clayey gravel, medium dense, indistinct in situ weathering/ alteration . . •pátterrs, occasional roots from heavy brush, slightly moist. . Total depth= 5 feet- Hole backfilled TP-15 0-9 Easy excavating. 0-4.5 . SCATTERED St3RFICIAL DEBRIS AND ALLUVIUM:. Mottled brown-gray-alive,. fine sandy . CLAY, medium stiff, locally very porous, . . occasional rock fragments, highly organic . . to .1.5' (±), occasional roots, sticky, moist. 4.5-9 THYRED BEDROCK (Xl): Greenish gray- gay, CLAYSTONE, soft, spongey to 6 1 (=), medium dense to 9 1 , mottled with orance and red brown stringers (oxidation ?) sticky, highly pliable, moist, to wet with no free water. Total depth= 9 feet Hole backfilled -13- GeoSoils, Inc. PROPERTIES ( JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-16 0-5.5 Easy to modetly difficult excavating. 5.5-6 Difficult excavting. 0-0.5 TOPSOIL: Medium dark brown, silty CLAY; medium hard and brittle, blocky, highly . . porous, abundant roots, clay. 0.5-2 SLOPEWASH: Bro.zn-red brown, gravelly - .. CLAY, mediumnhard and brittle, porous, crumbly occasional rootlets, slightly moist. 2-5.5 WEATHERED BEDROCK (Ki): Olive brown, rust, gravelly CLAYSTONE with localized hard rock fragents up to 11 (±) in one . dimension, inedi1uin.dense, pliable, moderately sticky, oxidized,. moist. 5.5-6 WEATHERED .BEDROCK (Jsp): Gray. and rust, weathered VOLCANIC rock, medium dense, medium hard and very brittle, platy cleavage, fractured with fragments averaging 411(±) in one dimension, common clayey rinds and crusts associated with . . fractures and larger rock fragments (in situ alteration/weathering), moist to sliht1y moist.j . . Total depth=. 6 feet Hole backfilled -14- GeoSolls, Inc. TP-17 TP-18 0-5 0-0.5 0.5-2.5 2.5-5 M.A.G. PROPERTIES . JUNE 6, 1990 W.O. 1047-SD - EXPLORATORY TEST PuT LOGS Test Pit Depth (ft.) Material Description Easy. to ]noderately difficult excavating. TOPSOIL/ALLUVIUM:. Dark brown gravelly CLAY, loose, p9rous, slightly stiff and pliable, abundant roots, moist. WEATHERED BEDROCK (KU : Olive brown- rust-gray, weatihered gravelly CLAYSTONE, with rock fragments to 1011 ('±y in one dimension,. med4um dense, slightly sticky, indistinct weathering patterns, occasional roots, oxidized, moist. Prominent joint set at 3.5' N60W/43SW. Total depth= 3.5 feet Hole backfilled . . . . Easy excavating. . TOPSOIL: Medii4m dark brown, silty CLAY, medium hard ana brittle, blocky, highly porous, abundant roots, clay. SLOPEWASH: Medium red brown with local orange mottiin4, gravelly, sandy CLAY, stiff, 's1ightl pliable, porous, common vertical open ~ractures, moist. HIGHLY WEATHERED BEDROCK (Jsp): 'Rust- brown-gray, irifegularly decomposed VOLCANIC rock, medium dense to dense, hard, brittle, highly fractured with irregular trends and common clayey crusts along fracture (in situ alteration), highly oxidized with occasional manganese staining (dark brown black staining), crumbly, trace relict rootlets, slightly moist. ' .. Total dëpth= feet Hole backfilled . -15- GeoSoils, Inc. .M.A.G. PROPERTIES ( JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST. PI'{F LOGS . .Test Pit Depth (ft.) Material Description -TP-19. 6-4 Easy- to moderately difficult excavating. r Difficult to'vey difficult excavating.. 0-0.5 TOPSOIL: Medium brown, fine sandy CLAY, loose, crumbly, porous, occasional.' . . gravel, size rok fragments, common rootlets and insect burrows, dry. 0.5-3 SLOPEWASH: 'Brown sandy CLAY, medium . hard, brittle ad blocky, -highly porous, . occasional grav1, common open vertical • fractures, .occarional relict rootlets,- dry, slightly mist. - 3-5 WEATHERED BEDRObK(Jsp): Brown-gray- orange, .weatherd VOLCANIC rock, dense, hard, brittle-, platy cleavage, local clayey zones an crusts surrounding. rock • • . and in fracture (in situ alteration), . ocitdized, very rare relict rootlets, slightly moist.! Prominent jointset.at 3.5' -N32E/85-90NW . . . . Practical refusal at .5 feet Hole backfilled -16- GeöSoils, Inc. Ii M.A.G. PROPERTIES ' 'JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST 9T, LOGS... Test Pit Depth (ft.). Material Descriipt'ion TP-20 0-3 Easy to moderately difficult excavating. 3-6.5 Moderately difficult to diff1'cult excavating. 6.5-7.5 Very difficult excavating. 0-0.5 " TOPSOIL: Medim brown, fine sandy CLAY, loose, cruinbly, porous, occasional gravel, size rock fragments, common - rootletsand irsect'burrows, dry- 0.5-72 HIGHLY WEATHERED BEDROCK' (Jsp: Dark red brown-gray brown, highly decómposëd VOLCANIC rock, predominantly gravelly sandy clay, me4iuin hard and brittle, porous, common open vertical fractpres, occasional relict rootlets, blocky, slightly moist.) 2-7.5 ' WEATHERED BEDROCK (Jsp): , Tan-yellow 'brown-orange, VOLCANIC rock, dense, moderately harc'to hard and, brittle, moderately fractured with fragments averaging 5"(±), in one dimensiOn, large ..crumbly sheets exposed in trench excavation, oxidized, irregular 'upper contact with ir situ' alteratIon to gravelly claye materials to 31 (±), slightly moist to dry. Prominent join sets at 3.51 -4.5' N32'EJ85-90NW, N 80E/55SE, N80W/62NE.' Practical refusal at 7.5 feet Hole backfilledi -17- GeoSoils, Inc. M.A.G. PROPERTIES ( JUNE 6, 1990' W.O. 1047-SD I 'EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) MaterialDéscription TP-21' 0-2 Easy to modeate1y difficult excavating. 2-4.5 Moderately'difficult to difficult S ' excavating. : 0-1.5 TOPSOIL/SLOPEWASH: Brown-red, brown, sandy gravelly CLAY, loose to stiff and slightly .pliab]1e, porous, occasional rootlets, moisi. 1.5-4.5. WEATHERED BEDRqCK (Jsp): 'Tan-yellow brown-orange, VOLCANIC rock,, dense, moderately .hard to hard and brittle, moderately fraqtured with. fragments averaging 5Tt(±),. in one dimension, oxidized, irreg4ar upper contact with in situ alteration to gravelly clayey materials slightly moist to dry. Prominent joint sets at 2-4 1 , NiE/vertical, N53W/72SW, N25E/85-9ONW. TOtal depth=. 4.5 feet Hole backfilled • M.A.G. PROPERTIES . . .. . JUNE 6, 1990 W.O. 1047-SD S . EXPLORATORY TEST. PIT LOGS I Test Pit Depth (ft.) Material Descrption . TP-22 . 07-3 Moderately difficult to difficult excavating. 3-4 Very difficult excavating. • 0-0.5 TOPSOIL: Red brown, gravelly CLAY, loose, porous, and crumbly,. slightly moist. • 0.5-4 WEATHERED BEDROCK (Jsp): Red brown to gray onbroken surfaces, VOLCANIC rock, blocky cleavage with.fragments up to lt(±) in one dimension, hard,; brittle, local in situ aateration/weathered along. fractures creatling clayey material, to 2..51 (±), oxidizd, slightly moist. Joint at 21 N45/72SW. S Joint at 3' N30/61SW - . . Practical refusal at 4 feet S Hole backfilledL . -19-. GeoSoils, Inc. N. A. G. PROPERTIES ( I JUNE 6, 1990 W.O. 1047-SD - EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-23 0-5.5 Easy to moderately difficult excavating. 0-0.5 TOPSOIL: Medium dark brown, silty CLAY-, medium hard and brittle, blocky,, highly porous, abundant roots, clay. 0.5-1. 5 SLOPEWASH: Red brown and olive brown, sandy CLAY, stiff, brittle, platy cleavage, 1oc'a]1y very porous, occasional rootlets, moist. 1.5-5.5 HIGHLY WEATHERD BEDROCK (Jsp): YellOw brown, brown streaking, weathered VOLCANIC rock, very sandy, medium dense, platy cleavage, fractured with 211 7B"(±) spacing., locally very crumbly to 311(±), localized clayey thin clayey brown crusts along fractures (in situ alteration), highly oxidized 1, slightly moist. Prominent joint set at 3' N45W/60SW Prominent joint set at 3.5' N68E/68SE Total depth= 5.5 feet Hale backfilled • N.A.G. PROPERTIES I. . . '' JUNE 6, 1990 W.O. 1047-SD .. . , . EXPLORATORY TEST PIT LOGS' Test Pit Depth (ft.) Material Description ' TP-24 0-5 , . Easy to moderately difficult excavating. 5-7.5' 'Difficult excav1ating. 0-0.5 TOPSOIL: Red rown, 'gravelly CLAY, loose, porous, and crumbly, slightly moist. 0.5-1.5 SLOPEWASH: Brown sandy CLAY, medium' hard, brittle and bioäky, highly porous, occasional, gravel, common open vertical fractures, occasional relict rootlets, slightly'moist. 1.5-3 . WEATHERED BEDROCK'(Jsp): Red brown, 'weathered VOLCANIC rock, medium deise to dense, platy cleaVage, fractured with 311 -, :5"'(±)' spacing, iighlyoxidized, 'very , F brittle, occasional relict'rootléts along fractures, slightly moist. 3-7.5 Tan to yellow brown, weathered VOLCANIC rock, very sand, dense, hard and brittle, 'fractures to fragments averaging' 411 (±). 'in one dimension, FOliliflOfl rhythmic fractures to locally irregular fractures, common dry clayey seam/crusts up to 0.511(±)' wide truncated by upper harder unit, 311-' "M spacing to prominent shears/fracturer, slightly moist. 'Prominent joint set at 2' N10W/43W Prominent joint set at 3.5' N40E/30NW Praôtical Refusal at 7.5 feet Hole backfilled -21- 'GeoSoils, Inc. M.A.G. PROPERTIES , ( • JUNE 6', 1990 W.O. 1047-SD • EXPLORATORY TEST PT LOGS Test Pit Depth (ft.) Material Description TP-25 , 0-4 ' Easy to inodeate1y difficult excavating. 48 • : Moderately dificult to difficult ' excavating. ' 0-3 , TOPSOIL/ALIX1It: Medium dark brown and tan, CLAY and rave11y' CLAY, loose to stiff, medium ard and brittle, porous, occasional rootlets, slightly moist.- 3-8 HIGHLY WEAT1-thRD BEDROCK '(Jsp): Brown to gray on broken surfaces, ' • • decoinposed/weathered VOLCANIC rock, • medium dense tq dense, hard, brittle, highly shearedjfractured with random orientations, commonly gravel to' small - cobble sized f9agments, random clayey rinds/crusts associated with fractures/sheais, occasional clayey pockets (in situ alteration/weathering), slightly moist.! Shear at 3.5' th5E/60NW ' Jdiñt at 4' N22E/53NW . . . . Joint at 4' 4 5W/65NE . . 'Total depth. at 8 feet' Hole backfilled -22- GeoSouls, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD - EXPLORATORY TEST P1 T LOGS Test Pit Depth (ft.) Material Descriiption TP-26 0-9 Easy to moderat1ely difficult excavating. 0-6.5 'TOPSOIL/ALLUVIUM:. Medium dark brown, gravelly CLAY, loose to medium stiff and • moderately pliable, slightly sticky, porous, occasional rootlets, occasional • rock fragments up to'1.51 (±) in one dimension moist. 6.5-9 HIGHLY WEATHERED BEDROCK (Jsp): 'Light orange brown, 'weathered VOLCANIC rock, very sandy, medium dense and moderately • brittle to slightly friable, platy cleavage, average rock fraginents'is.4(±) in one dimension, oxidized, occasional relict rootietsL, slightly moist. • Total depth= 9 Hole illedi, feet -23- GeoSoils, Inc. M.A.G. PROPERTIES S S ( JUE6, 1990 W.O. 1047-SD S EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Matérial Description 0 TP-27 '0-3 Easy to modeately difficult excavating. 3-7 Difficult.éxcavating. 0-0.5 TOPSOIL: Medium dark brown, silty' CLAY, medium hard and brittle, blocky, highly porous, abundant roots, clay. 0.5-2 SLOPEWSH: Brown red brown, sandy CLAY with occasional rock fragments, medium hard and brittle, blocky, common open vertical fractures'. Occasional rootlets, slightly moist. 2-7 WEATHERED BEDROCK (Jsp): Orange brown- yellow brown, weathered VOLCANIC rock, medium dense to dense, hard and brittle, blocky cleavage fractured with approximately 10"(±) spacing, oxidized, minor relict rootlets along fractures, slightly. moist.: Joint at 2.5' N62W/13SW S • S • 'Joint at 3' N46W/50NE Joint at 3' N48E/3ONW Practical refusal at 7 feet Hole backfil1éd -24- GeoSolls, Inc. ,M;A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD .. S . 'EXPLORATORY TEST PT LOGS Test Pit Depth (ft.) Material Description. .TP-28 . 0-1 " Easy excavatj. 171.5 Moderately. 'difificult to very difficult excavating.. S ,' • S 5 0-0.5 , TOPSOIL: Red brown,. gravelly CLAYS,' loose, porous, and crumbly, slightly moist. 0.571.5 WEATHERED BEDROCK (Jsp): 'Rust and gray', VOLCANIC rock,, dense, hard, brittle, massive, oxidized, dry. 5 Practical refual at 1.5' feet Hble Backfi11ec -25- GeeSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST P]T LOGS Test Pit Depth (ft.). Material Descriiption TP-29 0-2.5. Easy to inoderatiely difficult excavating. 2.5-4 Difficult to very difficult excavating. 0-2.5 TOPSOIL/ALLUVIUM: Medium dark brown, gravelly CLAY, .loose to medium.- stiff and moderately, plible, slightly sticky, porous, occasional rootlets, occasional rock fragments up to l'(±) in one dimension, mois. . 2.5-4 WEATHERED BEDROCK (Jsp): Brown and gray on.broken surfaFes, VOLCANIC .rock, dense, hard and brittle, highly fractured with 211-8"(±) spacing, platy cleavage, oxidized, slightly moist to dry. Prominent joint set at 3' N75W/80-90NE Prominent joint set at 3' N15E/48NW Prominent joint set at 351 N45W/43NE Practical refusl at 4 feet Hole backfi11ed -26- GeoSoIls, Inc. 1. .M.A.G. PROPERTIES 1 H JUNE 6, 1990 W.O. 1047SD . . - EXPLORATORY TEST PitT tocs Test Pit Depth (ft.) Material Description TP-30 . 0-1 Easy excavatin. ..0 1-4 : Difficult-to vry difficult excavating. 0-0.5. TOPSOIL: Red brown, gravelly CLAY, loose, porous,and crumbly, slightly H moist. 0.5-4 WEATHERED BEDROCK (Jspi: Tan and yellow brown and gray differentially decomposed . VOLCANIC rock, predominantly very hard and dense, brittle, highly fractured with random orientalF ions, locally clayey (in situ alteratioxi/weathering), blocky cleavage with ¶raginents averaging 3"(±) i-one dimension, dry. Practical refual at 4 feet Hole backfil1ec.. -27- GeoSoils, Inc. i M.A.G. PROPERTIES ' ' ' , ' W.O. 1047-SD EXPLORATORY TEST PIP LOGS Test Pit Depth (ft.). Material Description TP31 0-1 TOPSOIL: Dark brown, clayey SAND, loose, porous, abundant rootlets, crumbly, 'dry. 1-2 SLOPEWASH: Bron, clayey SAND with' common rounded uetainorphic rock :fraents, medium hard,. slightly friable, moderately porous, occasional rootlets, slightly moist.l. 2-4.5 WEATHERED BEDROCK (Tdss): , Light orange, medium to coarsp grain SANDSTONE, medium dense, moderately, friable, conglomeratic bed ,at 2.5-3(+)1, moderately well sorted, permeable, slightly moist. Total' depth= 415 feet ' Hole backfil1ed GeoSoils, Inc. MA.G. PROPERTIES S I 'H . JUNE. 6, 1990 W.O. 1047-SD • I 'EXPLORATORY TESTS PIT LOGS S Test Pit Depth (ft.) Material Descript:ion S TP-32 0-2 TOPSOIL/SLOPEWAH: Browp to dark brown, clayey SAND witi occasional rounded metamorphic .rob fragments, loose to S medium hard, slightly friable, porous, S S S occasional rootlets, slightly moist. S 2-4 WEATHERED BEDROCK-(Td): Light orange, ' S medium to coarsb-grain SANDSTONE, medium S , dense, friablejinoderately well sorted,' slightly moist. S , Total depth= 4 feet S Hole backfilledl TP-33 ', 5 0-1 ' Easy tomoderatély difficult excavating. 1-3.5 Difficult to very difficult excavating. 5 0-1 TOPSOIL: Redb -own, clayey 'SAND/sandy CLAY, loose to stiff, porous, crumbly, S 5 • • common rootléts, dry. 5 5 ' 1-3.5 WEATHERED BEDR06K (Jsp): Red brown and S gray 'on fresh sirfaces, weathered S S S VOLCANIC rock, dense, hard and brittle, blocky' cleavage with fragments averaging S 5"(±) in one dimension, dry. S S S ' • •• Joint @2' N35W/85-90SW S Practical 'rèfus1 at 3.5 feet S Hole backfilledt S -29- GeoSolls, Inc. M.A.G. PROPERTIES W.O. 1047-SD - EXPLORATORY TEST PI'T LOGS Test Pit Depth (ft.) Material Describtion TP-34 .0-2 Easy to inoderat1y difficult excavating. 2-4.5 Difficult to.ve1ry difficult excavating. 0-1 TOPSOIL: Red brown, clayey' SAND/sandy CLAY,. loose to stiff, porous, crumbly,' 'common rootlets, dry. 1-3 . HIGHLY WEATHERE1D BEDROCK (Jsp): Multi colored, highly decomposed VOLCANIC rock, predominantly gravelly clayey material's, medium dense, cbininon,in situ alteration associated with clayey rinds ,bf rock,. occasional reliFt rootlets, slightly. moist. , 3-4.5. . WEATHERED BEDROCK: Multi-colored,: decomposed VOL IC rock, predominantly grave-cobble sized fragments with clayey rinds and crusts, dense, brittle, irregularly fratured, oxidized, dry.. Practical refus1'at 4.5 feet Hole backfil1ed K M A G PROPERTIES j JUNE 6,.i.990. W.O. 1047-SD EXPLORATORY TEST, PIT LOGS Test Pit Depth (ft.) Material Description TP-35. 0-1.5 Easy to mode.rately difficult excavating. 1.5-3 Difficult to vtery difficult. excavating. .0-1.5 TOPSOIL/SLOPE4SH: Brown-red brown, sandy grave1l CLAY, loose to stiff and brittle, porous, occasional rootlets, slightly moist. : 1.5-3 WEATHERED BEDIOCK (Jsp): Gray and brown, weathered VOLCANIC rock, dense and very hard, brittle, clayey to 2.51 (±) represents in j situ alteration/weathering,. moderately frctured with fragments.. up to 1' (±) in one imension, oxidized, slightly mois to dry. Practical refisa1 at 3 feet Hole backfi1ld TP-36 0-1.5 Easy excávatiig. 1.5-3 Difficult to very difficult excavating. 0-1.5 TOPSOIL/SLOP E'7ASH: Red brown, sandy CLAY and gravelly pLAY, loose to stiff, porous blocky, occasional rootlets, slightly. moist. 1.573 . WEATHERED .BEDROCK (Jsp): Red brown and gray on fresh surfaces, weathered VOLCANIC rock, dense, hard and brittle, blocky, cleavage with fragments averaging 511 (±) in one pilnension, dry. Practical refusal at 3 feet Hole backfi1ld -31- GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990, W.O. 1047-SD -. EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-37 . 0-1 TOPSOIL: ..Bro,;.grave1ly CLAY, loose,, porous, crumbly, occasional vertical open fractures, common rootlets, slightly . moist. H 1-2.5 HIGHLY' WEATflE1ED BEDROCK (Jsp): Rust-red brown-yellow 1rown, decomposed VOLCANIC rock, predominantly gravelly clay, -medium dense, crumbl, occasional rare relict rootlets, moist. 2.5-5 WEATHERED BEDI0CK: Gray rust, VOLCANIC rock, medium. dense, brittle1 hard, highly• . • fractured witlt 111_411(±), spacing, crumbly, localized clayey. rinds-stringers (in, situ alteiFation), oxidized, slightly . '. oist. Joint set at ' N45E/77SE. • • • 'ibint set at 3 1 N25E/60NW Total Depth= feet • ' • •' Hole backfilled -32- GeoSoils, In!. .M.A.G. PROPERTIES ( •; JUNE:6, 1990 W.O. 1047-SD I EXPLORATORY TEST PkT LOGS Test Pit. Depth (ft.) Matérial Descrpt.ion TP-38 0-2.5 TOPSOIL: drciiyl.brown,.dry, loose to medium dense, porous silty SAND, many roots, hard, blocky structure. @0.5' Becomes . ark brown, slightly, moist, S .. medium dense, porous clayey to silty SAND, hard blocky. with common desiccation cracks. • @2' Becomes browii, many small carbonate nodules and m9ttlings. 2.5-5 BEDROCK (Tdss)I: Yellow brown and gray, slightly moist, dense, weakly laminated silty, fine SANDSTONE. Common laminate iron staining )and'very few carbonate iuottlings. Total depth= j5 'Feet S S • No Groundwater S Hole Backfil1d S S M.A.G. PROPERTIES .. ; . . JUNE 6, 1990, W.O. 1047-SD EXPLORATORY TEST P±T LOGS Test Pit Depth (ft.) Material Description TP-39 0-1.5. . FILL: Yellow )rown, slightly moist, loose porous, silty fine SAND.- 0.5-3 TOPSOIL: Browi, moist to very moist, loose to mediuin dense, soft, porous, silty lean.CLAu1 with occasional stringers of yellow browp fine sand. 2-3 Grades to o1iv brown and brown, moist, mediumdense, firm, slightly porous sand,. lean CLAY withj few fine random fractures. BEDROCK (Tdss) : Light gray, slightly, moist, dense, eak1y laminated fine grained SANDSTpNE. . @4' Dark olive, moist, dense, stiff, thinly laminated CLAYSTONE with carbonate mottling near base of bedding attitude N- S/8°W; N50W/6W.-. . . . . . . Total Depth= r6.5 Feet . No Groundwater . Hole Backfi1ld -34- GéoSoils, Incl. .M.A.G. PROPERTIES . I JUNE 6, 1990 W.O. 1047-SD . ..., . I . . EXPLORATORY TEST PET LOGS Test Pit Depth (ft.) Matérial Description TP-40 0-0.5 TOPSOIL/COLtUVIrUN: Gray brown, dry, loose, porous gilty SAND.. with, rounded gravel float. 0.5-2 . TOPSOIL: Bro4l,. slightly moistto. dry, medium, dense tp loose, hard, clayéy SAND. Common random esiccation cracks. .2-5 BEDROCK (Tdss)I: Mottled orange brown, brown, and gray, medium dense, highly .. . weathered and randomly fractured silty fine SANDSTONE with some . clay. @2.5' Grades to yellow brown and gray, slightly moist,' dense, weakly laminated silty fine SANDSTONE. Common laminate iron staining and very few carbonate mottlings. Bedding attitde N30E/5NW. Total Depth= 2.5 Feet ,' No Groundwater . Hole Backfilld . . TP-41 0-I. 5 TOPSOIL: Dar* brown, moist to slightly moist, loose, blocky arid fractured clayey 'SAND. 1.5-5 BEDROCK (Tdss'Tdcs): Gray brown, Slightly moist, medium dense, massive to weakly laminated silty fine SANDSTONE. @2.5 Grades to olive brown, moist, dense, very thinly lmninated silty CLAYSTONE with wavy laminate orange brown stains. Bedding attitude N60W/14SW. Total Depth= 5 Feet No Groundwate Hole Backfilld -35- GeoSoils, Inc. M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD - EXPLORATORY TEST PIT LOGS Test Pit Depth (ft..) Material Description TP-42 0-3 TOPSOIL: Brow dry, loose, porous silty SANDwith ciayf weak blocky and friable. @1' Becomes gray brown, dry loose to medium dense, porous, silty SAND with many columnar 1esiccation fraôtures. 3-6 BEDROCK' (Tdss)l: Gray with orange brown 'stringers, dry, dense weakly laminated fine SANDSTONE. ' @5' Grades to brown; dry, medium dense, slightly porots. massive silty SANDSTONE with common shell fossils in upper part. @6' Grades to gray, dry, dense,' fine SANDSTONE. ' 'Bedding attit4de N80E/7NW. Total Depth= 6.5 Feet • No Groundwater Hole Backfil14d -36- GeoSoils, Inc. .M.A..G. PROPERTIES ( JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Description TP-43 0-1 C0LLDVTUM/TOPSIL: Brown, dry, loose, • blocky, fractued, porous silty SAND with many roots andl rounded pebbles. 1-3 TOPSOIL: Redd.sh brown, moist, soft to firm, medium dnse sandy, lean CLAY. 3-5.5 BEDROCK (Tdss)t: Gray with lamellar red - brown mottling, slightly moist, dense, 0 thinly laminat1e fine SANDSTONE. Bedding attitide N20E/7NW. Total Depth= .5.5 Feet No Groundwater, . Hole Backfi1ld TP-44 0-0.5 COLLUVIUM/TOPOIL: Gray brown, dry, loose, porous) silty SAND with many roots . . and common rotLnded pebbles. 0.5-2.5 TOPSOIL: Redcish brown, moist, firm, medium dense lightly porous, silty to clayey SAND, 4esiccation cracks common. 2.5-5 BEDROCK (Tdss):Gray, dry, dense, laminated fin 4 SANDSTONE. Some yellow .. • brown staining along bedding. 0 • Bedding •attitiidé N50E/15°SE.. 0 Total Depth= 5 Feet • • No Groundwater • Hole Backfilld -37- GeoSoils, Inc. 'M.A.G. PROPERTIES , JUNE 6, 1990, W.O. 1047-SD. EXPLORATORY TEST PT LOGS Test Pit Depth (ft'.) Material Description TP-45 0-1.5 FIlL: Brown,.1ight1y moist, loose, porous, silty AND and trash (plastic concrete, rock etc.). 1.5-2 TOPSOIL: Red brown, dry, medium dense, slightly porou.. clayey SAND. ' 2-5. BEDROCK (Tdss)I: Mottled gray and orange brown, slightlr moist, medium. dense, massive to weakly laminated fine SANDSTONE. Gypsum intergrowths common. • @4' • Becoinesery dense. • Bedding attitde N15W/6°SW • Total Depth= 4 Feet No Groundwatei1 • Hole Backfill4d -38- GeoSoils, Inc. .M.A.G.. PROPERTIES . f ' JUNE 6 1990 W.O. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Naterial Description TP-46 0-1.5 FILL: Gray brwn, dry, , loose silty, sand , . , . and trash.-,'. . 1.5-2. . . COIfl/TOPSIL: Red brown, moist, soft to firm, Fnedium dense, slightly porous cIayey'.SAND with few, rounded pebbles, desiccations cracks common. .2-3 TOPSOIL: Brovin,.moist, firm,' medium dense, sandy lean CLAY with few desiccation cz1acks. .3-8 BEDROCK. (Tdcs)k Brown, moist, stif,. dense thinly laminated SILTSTONE to silty LAYSTONE. @5" Grades- t6 olive 'brown color. 'Bedding attitdê N30E/10°SE. Total Depth= .8 Feet No Groundwater Hole Backfi1ld . . -39- GeoSoils, Inc. N.A.G. PROPERTIES S JUNE 6, 1990 W.O. 1047-SD EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.)' Material Descrilption TP-47 •. 0-2.5 ARTIFICIAL FILL: Dark brown, slightly moist, medium dense, porous, silty SAND with many root4. @11. Becomes , lightly brown friable MID medium dense and. brown, slightly moist, medium cense, hard -clayey sand. @2' Becomes oange brown, moist, medium dense gravellysilty SAND. 2.5-7 BEDROCK (Tdcs): Olive brown, moist,. stiff, dense cnchoidally fractured, thinly laminated, silty CLAYSTONE. Attitude N65E/°NW. Total Depth= 7 Feet No Groundwater Hole Backfilled . TP-48 0-0.5 ALLUVIUM: Yellow brown, dry, loose,. • porous, weakly stratified SAND. 0.5-2 BEDROCK (Tdss)1: Orange brown, dry, loose . . to medium dens, slightly porous, fine grained SANDST9NE. . • @1.5.' Gray, s1ightly moist, dense,. . massive to weakly laminated fine grained SANDSTONE. . • Total Depth= 2 Feet No Groundwater Hole Backfille -40- GeoSoils, Inc. M.A.G.-PROPERTIES : ( JUNE 6, 1990 W.O. 1047-SD - EXPLORATORY TEST P±T LOGS . Test Pit Depth (ft.) material Description TP-49 0-2 : TOPSOIL: Red *rown, dry, loose, porous, silty SAND'andcobble sized rock. 2-3 BEDROCK (Jsp):Red brown, dense, weathered VOLC.N'IC rock, breaking to gravely silty .and. Practical refusal at 3 feet Hole backfille . . TP-50 . 0-3 TOPSOIL: Red brown, dry,. loose, porous, silty SAND witi many roots. @1' Grades to dark red brown, moist, . firm, medium dense sandy lean CLAY with common desiccajion cracks. 3_5 BEDROCK (Tdss): Light gray, dry, dense, • • thinly laminated fine grained SANDSTONE. Bedding attitude N50W/11°SW • Total depth= 51 feet S •• HOle backfille . S • -41- GeoSoils, Znc. M.A.G. PROPERTIES ' ' ' JUNE '6, 1990 W.O. 1047-SD - EXPLORATORY TEST PIT LOGS Test Pit Depth (ft.) Material Descrthtion ,TP-51 0-2.5 TOPSOIL: Red brown, dry, loose, porous,. silty SAND wi th many roots. 2.5-4.5 BEDROCK (Tdss): @3.5' Becomes gray, 'slightly moist, ' • , dense, very weakly laminates fine grained SANDSTONE with common yellow brown lamellar stains. Total Depth= 4.5 Feet No Groundwater Hole Backfi1le1 TP-52 • 0-2.5 TOPSOIL: Browh, moist, medium dense firm to stiff sandy clay with common desiccation cracks. ' 2.5-5 BEDROCK (Tdcs)I: Olive, moist, stiff, déñse massive ICLAYSTONE.. • Total Depth= 5 Feet • No Groundwater' • , Hole Backfilled ' • • -42- GeoSoils, Inc CLIENT_D.rn Crvrp- WO.279Sfl DATE DRILLEb 6/8/82 LOGGED By DM PROJECT LpCpstp. S.E. 13 SURFACE. ELEV. DRIVING WT. 240o# and 14 S . 39 --p- L&J Ui Li.. T I- o - a.'., <_.i CD . S . S Cl) (I (D w zio OzC°)-. ca 0 W IL (M Owl - Cl)cc z ., 0 CL 0 - Ui - p-Ui. 3Z 28 • FILL: Brown to tan Clay to Sand mixtures, with a high percentage of volcanic rock up to 24 inches, moist, loose. .40 - 1H - Q - - - - 7 i 3 C C C 98.6 . 102.5 102.: S • 6.2 - 19.2... - - 19.4... - - - - - - • --5- NATURAL SOIL: Brown Silty Clay to Clayey Silt, stiff, moist. Color grades to light brown. Clay is moderately soft. - __10 - BEDROCK (Torrey Sandstone): Tan to gray Sandstone-Siltstone, weath- ered and soft in upper few feet_ firm to hard below, moist. 15— Total Depth 13 feet. S No Water. No Caving. J BORING LOG: B-2 CLIENT_Daon Corp. W.,0.279-SD. DATE DRILLE66/8/82_'LOGGED BY*RCK/DM PROJECT La'Costa, S.E. SURFACE ELEV.± 330 DRIVING WT. 2400,15'50#* 13 and 14 • UJ I- - Li.. I-. Q. LLJ B: '. , ' ' Bedding ' 0 - LiJ04 zC>' I- - Cl) Z Wc Cfl'I -z • — TOPSOIL: Medium brown Silty Clay, firm to stiff. dii-ed. - - - - - - - - - = - - - 5 8 8 7 7* 15 12 C B C C C B C B C C'110.8U.Z 89.9 103.6 112.3 110.1 104.9 110.8 105.5 14.7 - 143- - 13.1-- 13.6 - 15.2- - 24.6- - 20.9- ' , BEDROCK '(Torrey Sandstone): Light orangish tan Silty Sandstone, slightly moist, very dense. Grades to a light gray and orange mottled Silty Sandstone, damp, hard,, tight. Thin rust-colored. seams indiFatenear horizontal' structure' ' . .' . .• . Two inch thick Sandy S1tstone interbed, B:.' N-S, 3-5 E. . ' . . ... . . . — - — - 5- - — — -10- - --15- 20 Medium orangish brown Sandy Siltstonhafd damp. ' . . B: N10E, 80 SE. . Thin Sandstone interbed. - -25- 30 BEDROCK: (Del Mar Formation): ' Medium greenish brown Silty. Clay-_ stone with orange mottles, moist hard. Thin gray Sand interlamin- ations cross-cut by numerous gypsum seams; tightly bedded. Irregular random slicks throughout Formation contact is irregular ani --35- -', . .,. U _') E30RING LOG B-2 CLIENT_Daon Corp. W.O.279-SD DATE DRILLEb/R!82 LOGGED BYRCK/DM PROJECTLa Costa, S.E. SURFACE' ELEV.± 330 DRIVING WT. 1550*, 850** 13 and 14 • -. W LL . I- a. lU c, __ 0 UW.W ,00 CI, (L o 0 Zip w30< zC (Jin >-. a.O0 W 0 G Z 'Cl)'— 0Z - • — -35- Claystone becomes dark greenish brown with black iron stains; some slicks observed, hard, moist. Six inch thick discontinuous frac- ture zone, abundant fractured rock with slick surfaces; no open structures. Rock becoming increasingly dense; • 'drilling is slowed. • - - - - -. - - - 20 ** 15. c C 115.8 110.4 I J - - - 14.87' 17.2 - - - - - - 40- __45- - • --50 Total Depth 50'feet. No Caving. No Water. S •• --55- DI AT tLL) OR ___ :IsJ;fl[cIaI - CLIENT_Daon Corp. w;o._279-SDDATE .DRILLEb 618/82 LOGGED BY' RCK/JAS PROJECT LaCosta, S.E SURFACE ELEV.+ 270 DRIVING WT. 2400, 15504* 1?n ti 14 w )- < .11. a. Id 0 0 <- ____ . J: Joint surface B: Bedding 49 S: Shear surface OCC 0CL a)u:I w OCC Z,, U Z z 0 o — \ \\ \\ \\ TOPSOIL: Medium brown Silty Clay; firm, upper foot is desiccated and contains rOot hairs, very moist below upper foot. - - - - -5 -. - - - - - - - - - - - - 2 3 7 11 5* 20* S. C B C B 0 . C C — .1-16.7 104.8 111.0 115.1 121 6 119.4 120.7 - 19.6- 12.8- - - 15.6 - 14.1.- 11 4 - 13.6- - - 12.6- - - - - WEATHERED BEDROCK: Grayish green and red Clayey Silt with caliche stringers to 4½ feet, slightly moist, very stiff. Grades into,.... light brown Clayey Silt with some coarse grains. — - 5- — - — — --10 - BEDROCK (Del Mar Formation): Grayish green Claystone with some reddish orange streaks, no structure, slightly weathered, damp, tight, hard. @ 9 feet.. J: Randomly oriented, . southeast gentle inclination suggested. 10 feet. J: N45E, 25SE: No slick surfaces. @ 12 feet. Red.zones in grayish- green Claystone @ 13 feet. B: Relatively flat; Claystone, more moist. @ 14 feet. Claystone becomes brown with grayand yellow mottling.. @ 15 feet. .; S: ;!-N80W, 22-32NE with striae downdip, gray, soft, moist, clay. Two inch, thick directly above. @ 15½ feet. Becomes an ochre, gray, red, yellow and light brown mot- tied Ciaystone(?) or weathered tuff with angular volcanic frag- ments, moist, hard. . @ 17 feet. Local seepage; coarse grains (volcanics) no longer pres.JE. — — — - --20- — — -25- - - — — — — -35 11 .,. ......- GOA0 Ci 0 S I CLIENT Daon Corp. W.O. 279-SD DATE DRILLEb/8/82 LOGGED BY RCK/.JAS PROJECT La Costa,. S.E. SURFACE ELEV. ±270 DRIVING WT. 2400#,1550#* 11ruA id cr U. W C) -J S •' S: Shear surface B: Bedding >_oU). CL Ui C i u (I) W U) ' o — - . @ 19 feet. Claystone becomes a gray color with orange-brown zones. @ 20 feet. S: :Nlow1 35NE: Red stained shear., surface, polished, large .grooves, S: N10W, SONE shear surface 5 inches below previous surface. € 22 feet. Gray Claystone contains occasional angular to subround granular fragments; J: N40W, 70N} Red-stained joints. @ 23 feet. S: N28E, 308E; N70W,20NE irregular shear surface, 'slightly polished, yellow-stain; some free moisture along fractures. Below 23 feet. Hard, predominatel gray Claystoné with random slick surfaces land. 'random fracturing. € 25 feet.' 'S::N45W, 45NE: Shear surface, slightly polished, poorly _ developed.' B:(?) N40W,.10-15SW. Pair of parallel surfaces. - - - - - -. - - - - - - - -. - - - - - - - - - - - - - - - - - - * - - - - • • - - - Total Depth 30 feet,. Slight water seepage at 17 feet. No Caving. — — — _ - I 0 BORING LO.G B-4 ______ RCK' CLIENT_Daon Corp. W. 0. DRILLEb 6-8-82 LOGGED BY________ PROJECTLa Costa SURFACE ELEV._270+- DRIVING WT. 2400-127 S.E. 13 & 14. I- -- a. w 0 wO. D --i 60 - C 39.4 . 0 V)c U; W- ZC.0)- 04 .CflI" )- 0 - TOPSOIL: Medium brown Silty Clay with interlenses of reddish-brown Sandy Clay, very moist to wet, soft tofirm. 21 - - - - - - - - 1 C/r 99.4/ 110.3 113.7 25.07 12.7 - S - 12.2_ - - - - — Light to greenish brown Clayey Sand C/E medium dense, very moist, abundant caliche, volcanic rock fragments present in varying amounts. — BEDROCK (Volcanics): Tan Basalt,. weathered to a friable consistency in upper 6"; hard and blocky below.. @ 9 feet. Unable to continue cluing due--to hardness. ..10.. Total Depth at 9 feet. - No Water. No caving. S .°,' BORING LOG B5 CLIENT W. Corp. wo 2795' DATE DRILLEb_6982 LOGGED BY_RCK PROJECT La Costa SURFACE ELEV.310± . DRIVING WTI 2400#, 1550#* S. E. 13 & 14. . __0 Cr IQ. LU IL x a.o 5 CD 'I S: Shear Surface . . . B: Bedding S . J: Joint Surface >- 0 x CD (l,owu_w C w - a. m zO°.>- I' C.) >- I- w CC.0 C) - __5 TOPSOIL: Medium brown Sandy Clay, slightly damp, stiff, root hairs. CL - - - - - - - - - - - - - - - 5 10 . 9 /8' 9 C C C C C • 109.9 108.3 110.9 112.4 109.9 S 9.5 - - 8.1_ - 10.0 - - 18.1 - - - - - - - - - . BEDROCK (Torrey Sandstone): Light orangi.sh-tan Silty Sandstone to Sandy Siltstone, with brown and gray mottle s. dense to hard, damp. @ 4 feet. B:" .1435E; 3-514W Light grayi'sh-orange.thin Sand laminae. . @ 6.5 feet. Sandstone grades to the light grayish-tan Sandy. Siltstone with brown mottles, dense, damp, massive. @ 15 feet. Gypsum infl1ing of discontinuous fractures. - - - — — — — --10- . __1 • — . BEDROCK (Del Mar Formation): Medium greenish-gray to dark greenish-gray, Silty Claystone to Clayey SIltstone with yellow and i4i 7' orange mottling, hard, moist. Contact irregular,—near horizontal. @ 16 feet. Fracture Zone, 2' thick- B: N65W; 14NE: Thin lamination S: N35W; 52NE: Slick surface, highly polished. @ 18 feet. S: N-S, 69W: Slick surface with iron staining;-, gypsum infilling above surface. @ 19 feet.. J: N60E; 79NW: Joint S: N40W; 33SW: Highly polished slick surface with iron staining and gypsum. Intersects and truncates the joint. à,ça11e1, slick surface '" h..1ciw;. — - .2Q — - • - — - - S - - • les C, • BORING "LOG B-5 CLIENT_DaOn Corp. W0279-SD DATE DRILLEb6-9-82 LOGGED BY_RCK PROJECTLa Costa SURFACE ELEV.310+ DRIVING WT. 2400#, 1550#* 11L14 Iii S U. :'- 0. o a.o S S S: Shear Surface S J: Joint Surface S S S W -jW >3U) M 0 Øa• U)c UJU. uj:t z0 w 04 CAD asCr C.) c1 Z U 06 >— Z 3z 0 'XC.) S _____ @ 19.5 feet. J: N40E; 43SE: Join @ 22.5 feet: 5: N75W; 20SW: Slick Surface @ 24 feet. J: N57W; 26NE: Joint .@ 25 feet. S: N55W; 41SW: Zone of parallel slick surfaces, S 2 thick @ 26.5 feet. J: N-S, 76E @ 30.5 feet. S: N15E; 20-40SE: 2' thick zone of subparallel S slick surfaces. @ 34.5 feet. J: N70W; 2ISW. @ 38 feet. Drilling slow as Claystone becomes denser. S • • S • - - — - — - 9* S 15' 15' 18 S C C C S C 106.1 107.5 106.4 10.9.4 - 20.3- - - 19.ñ - - 19.2- 18. = - - -. • — 40 S Total Depth at 40 feet. No Water. No Caving. S CLIENT_Daon Corp. w.o._279_SDDATE DRILLEb.982 LOGGED byRCK PROJECT - La Costa SURFACE. ELEV. 285+ DRIVING WT. _2400#, 1550#* S.E. 13 &14 - • - U. - W _ C) 0 . J: Joint Surface S: Shear Surface B: :Bedding Cl) o )-C CI) WlZ. 3t zc Li ' .• _ Z Z 0 0 _ FILL: Medium brown Silty Clay, moist loose to firm, intermingled grasses; popcorn texture • - -. - - - - - - - - - - : - •• 5 7 9 9* • 3* C C C C • C 102.8 112.8 . 106.8 • 109.6 • 109.0 1 1 23. JO 15..QJ J 19.2 - - - 18..- - - - 17.5 - - . . • BEDROCK (Del Mar. Formation): Medium greenish-gray Silty Clay- stone to Clayey Siltstone, with brown and oraThge mottles, moist, hard. @ 4.5 feet. .2 feet thick fracture truncated by2 parallel slick surfaces: S: N50E; 26E: slick surfaces polished, grooved and iron-stained 8 feet. •J: N30E; 50NW. .@ 9 feet. J: N20W; 84SW. @ 11.5 feet. J: N-S; 67E Subparallel joint set. @. 15 feet. J. N-S, 81E. Subparallél joint set. ..: N75E; 7SE: • Intersects previous joint. @ 16. feet. S:.N70W; 15NE: • Polished S11CJ surface. @ 17 feet. 6" thick orange • Silty layer, irregular. @ 17.5 feet. Grades to dark .- gréénish-gray Clayey Siltstone, tight, hard, moist. @ .18.5 feet. J: N25E; 12SE:.. Fracture infilled with gypsum.../ __5 — - — 20 --25- — - I / L1UUU'U'It CLIENT_Daon Corp. W.O.279 DATE DRILLEb982 LOGGED BY RCK PROJECT La Costa SURFACE ELEV., 285+ DRIVING WT. 2400#., 1550#*. S.E. 13 & 14 : --,-. ILl U. 1 CL 0 C) 0 J: Joint Surface S: Shear Surface B: Bedding >-cjC BI:0 ! jr Z Uj @ 21 feet. B: Thin orjeSilt lamination, near hori @ 22 feet.. Fracture zo thick,truncated at b slick surface: S: N55W; •34SW. @ 25 feet. Random gyps crystals.- - ' H 'Total Depth at '30 feet. No Water. No Caving. .. .--U - " V ce BORING ,LOG B-7, CLIENT Daon Corp. W.n.279-SD DATE DRILLEb 698kOGGED 'BYRCK PROJECTLa Costa SURFACE ELEV._260± DRIVING WT. 24001,' 1550# S.E. 13&14 U < U, U, U, 0 IL CD o_ B: Bedding S: Shear Surface - )U) U U)O I- Lii o< - Z . U-.- . cn I-• 0 U. TOPSOIL: Reddish-brown Clayey Sand, moist, medium dense, caliche. - - -. - - - - - - - - - - - - - - - - - - 5 4 7 5 6* 2* C C C C C C CL - 113.4 109.0 107.0 - L08.]. -04.9 107.5 14.1 16.2..... - - 9.6_ - - - - - - - 16.4 - - - - 20.6 - - 18.3— - - - — SLUMP DEBRIS(?): Silty Sand with angular Siltstone fragments, 1 yellow-brown, firm, no structure, irregular contact at base. - 5 - - - BEDROCK (Torrey Sandstone); Light orangish-brown to orangish- tan Sandy Siltstone with occasional thin gray and brown laminae of Silty Sandstone, damp, dense to hard. @ 8 feet. J: N20E; 44NW. with 2" thick greenish-gray Clay. @ 10 feet. B::, N40E; 1ONW: Brown and 'gray thin Sand Lamination. 14 feet. Coquina layer, white, well cemented, 1' thick. @ 15 feet. B: N70W; 15SW: Basal contact of coquina layer with orangish-tan Sandy Silt- stone. J @ 17 feet. B: E-W; 8-10s: Formation contact, irregular. --25- 10 -. - 15 \ - — - - BEDROCK (Del Mar Formation): Medium td. dark :greenish-gray Clayey Silts one to Silty Claystone with orange and brown mottling, moist, hard, 'äalic.he and gypsum 1n upper 3' __30- - ce B-7 BORING LOG -7 .CLIENT Corp.. w.O.279'D DATE DRILLEb692 LOGGED BYRCK PROJECT La Costa _SURFACE ELEV. 260± DRIVING WT 2400#, 1550* S.E. 13 & 14 Id - o_ W 0 • S. ... U)U Cl) S Cn : Cr 0 ____________________ WI' 0 Z) Id— CL MI ,w Cr o4 ' oo - in - - o I S @ 19 feet. J: N30E; 40NW, orange - stained. - @ 19.5 feet. J: N60E; 26NW, - orange stained. @ 20.5 feet. Random fractures, - gypsum infilled. @ 22 feet. I-1/2' thick fracture zone, randorii 4 órientations. @ 23.5 feet. S: N70W; 40SW. - Multiple parallel slid surfaces - at base of fracture zone. - 26 feet. Claystone becomes tight and hard. Total Depth at 30, feet. No water. . - No caving. S • - - - - S - - - - - - - S - - ST 1 OA TABLE I TEST PIT LOGS W.O. 279-SD U.S..C.S. MOISTURE DRY CVMnnT onmrrrmm i nir't'v tocf o - 1½ ' 0 TOPSOIL: Reddish brown Silty Clay • ' dry, porous. 1½ - 3 S ' ' Yellow-brown Silty Clay, moist, stiff. 3 - 4 ' ' BEDROCK (Volcanics): Basalt, mottled tan to brown, fractured, blocky, hard. Total Depth 4 feet. No Water. - No Caving '0 - 2½ ' TOPSOIL: Reddish brown Clayey Silt 0 with angular volcanic rock fragments, porous, dry and loose at surface, moist and firm below 1 foot. 2½ - 6 - BEDROCK (Volcanics): 'Tan basalt, weathered to a friable consistency in upper 3 feet; hard • 0 • and blocky below. Total Depth 6 feet. No Water. 0 • - - S No Caving. " - S PLATE C-i DETAILED DESCRIPTION TABLE. 1 TEST PIT LOGS W.O. 279-SD ST U.S.C.S. MOISTURE DRY T # DEPTH (ft.) GROUP SYMBOL CONTENT (%) DENSITY (pef) DETAILED DESCRIPTION 3 0 - 4 " TOPSOIL: Medium brown Clayey Silt, dry in upper 1 foot, moist and firm below. 4 - 6 BEDROCK, (Torrey Sandstone): White to yellow-tan Silty Sandstone,,-damp-to slightly moist, tight, hard, massive. Total Depth 6 feet. ' No. Water. No Caving. 4 0 - 2 .TOPSOIL: Medium brown Cläyey Silt, porous, loose, dry.in upper 1 foot. Firm and moist below. 2 - 5 . , BEDROCK (Torrey Sandstone): White to yellow tan -Silty- Sandstone,-s-l-ightly damp, hard, generally massive but thin laminae suggest near horizontal. • . . • bedding. • ' Total Depth 5 feet. • No Water. • • No Caving. •' • I- .' - PLATE C-2 TABLL I TEST PIT LOGS W.O. 279-SD ,ST U.S.C.-S. MOISTURE DRY :T # DEPTH (ft.) GROUP SYMBOL CONTENT (%) DENSITY (pcf) DETAILED DESCRIPTION 5 0 - 3 ALLUVIUM: Dark brown Clayey Sand with volcanic rock fragments, very . - moist, medium dense. 3 - 5 Yellow brown Silty Clay to 'Sandy Clay, moist to very, moist, stiff, . . . scattered volcanic rock fragments, • - (weathered bedrock?) ' 5 - 6 . . ' BEDROCK (Vlcanics); • ' . Basalt, mottled tan and brOwn, fractured,,hard,. blocky, red staining Total Depth 6'feet. ' No Water No Caving. 6 0 -' 3 ' S ' ' ' TOPSOIL:' Dark brown Silty Clay, dry and loose in upper 1 foot, moist and stiff below. 3 • - 6 'S ' BEDROCK (Volcanics); Basalt, yellow tan to brown with ,red and gray mottles,' weathered to a 'friable consistency in upper 2½ inches, hard, and blocky below.' Total Depth 6 feet.'. No Water. ' 'No 'Caving.. PLATE C-3 TABLL I TEST PIT LOGS W.O. 279-SD ST U.S.C.S. MOISTURE DRY :T # DEPTH (ft..) GROUP SYMBOL CONTENT (%) DENSITY (pcf) DETAILED DESCRIPTION 7 0 - 2½ . . 0 ALLUVIUM: Light brown Silty. Sand loose and dry in upper 6 inches, . slightly moist and medium dense below. 2½ - 6 . . . Dark. gr.eenish'brown Sand-Clay mix, very moist to wet, firm (weathered-. bedrock?) .. . 6 - 7 ,. . BEDROCK(Del Mar Formation): -.Medium greenish gray Sandy Claystohe., moist, hard, upper 2 inches weathered to -. - light greenish gray. Sandy Clay Total Depth 7 feet.. No- Water. No Caving. 8 0 - .1 . . . ALLUVIUM: -Lght-brown silts-ànc1, moist, loose, porous. . . 5 . . 0 Dark greenish brown Silty Clay, very moist, stiff, (weathered . bedrock?) . BEDROCK (Del Mar Formation): Medium greenish gray Clayey Siltstone, moist, hard, massive. • Total Depth 6 feet. No Water. • . • No Caving. •.. - PLATE C-4 . TABLE - TEST PIT LOGS W.O. 279-SD ST U.S.C.S. MOISTURE. DRY T # DEPTH (ft.) GROUP -SYMBOL CONTENT (%) DENSITY (pcf) DETAILED DESCRIPTION 9 0. - 4 ALLUVIUM: Dark brown.Silty Clay, moist, firm. 4 - 6 Dark greenish brown Silty Clay, very moist to wet, stiff (weathered bedrock?) 6 - 7 BEDROCK (Del Mar Formation): Mottled red and greenish gray Clayey Siltstone hard, moist to Silty.. Claystone. Total Depth 7 feet No Water. No Caving. 10 0 - 3½ TOPSOIL: Dark brown Silty Clay, firm, - dry and porous in upper one foot, • stiff,ànd moist below. 3½ .- 4½ • Light yellow brown Silty Clay, moist, stiff. 4½ - 5½ BEDROCK (Volcanics): Dark green and black basalt, with • • orange and brown mottles, blocky, • • • hard, fractured. . • • • Total Depth 5½ feet. • No Water. • • •• No.Caving. • • • • • • PLATE C-S I TABLE 1, TEST PIT LOGS EST U.S.C.S. MOISTURE DRY IT # DEPTH (ft.) GROUP SYMBOL CONTENT (%) DENSITY (pcf) 11 o 5 - V 12 'ALLUVIUM: Brown Clayey Silt, moist, firm, grades to green colored Silty • - Clay with depth. 5 - 7 , V ' ' ' BEDROCK (Del Mar Formation): Clay- stone, green color, random slick - • ' surfaces throughout. Soapy-texture'. hard, moist. V • V , ' ' Total Depth 7 feet'. V • ' ' No Water. No 'Caving. V O. - 5 • ' - ALLUVIUM: Light brown Clayey Silt, soft, very moist from .3 feet, grades to green color, becomes moderately' stiff. 5 - 7 V ' BEDROCK (D1 Mar Formation): Clay- stone, green color. Soapy texture with occasional slick surface, ' V ' ' moderately hard, moist. V ' ' Total Depth 7 feet.- No Water. ' No Caving. ' • ' PLATE'C-6 V DETAILED DESCRIPTION W.O. 279-SD TABLE £ TEST PIT LOGS W.O. 279-SD :ST U.S.C.S. MOISTURE DRY :T # DEPTH (ft.) GROUP SYMBOL CONTENT (%) DEIJSITY (pcf) DETAILED DESCRIPTION 13 O - 3 ALLUVIUM: Brown Clayey to Sandy Silt, moist, stiff. 3 - 8 BEDROCK (Del Mar Formation): Sand- stone,-white color. Fine to coarse grain, massive, friable to moderately well cemented, moist. Total Depth 8 feet. No Water. No Caving. 14 0 - 3 TOPSOIL Dark brown Sandy Silt with • • Clay, moist, stiff. 3 - 6 SLUMP DEBRIS(?): Tan to gray, mottled, • Silt and Sand. Contains Siltstone fragments throughout. Moist, medium dense. 6 - 8 BEDROCK (Del Mar Formation): Silt- • stone, Clayey tan to gray color. • • Abundant gypsum throughout. No apparent structure. Moderately hard, may be creep affected. Total Depth 8 feet. No Water. • No Caving. PLATE C7 I TABLE I TEST PIT LOGS W.O. 279-SD ST U.S.C.S. MOISTURE. DRY :'r # DEPTH (ft.) GROUP SYMBOL CONTENT (%) DENSITY (paf) DETAILED DESCRIPTION 15 0 - 2 TOPSOIL: Dark brown Clayey Silt, moist, hard. 2 - 14 SLUMP DEBRIS(?): Tan colored Silty Sand, occasional fossil shell fragment. No structure,-porous. Soft, slightly - - moist. From 6 feet grades to dark brown - Clayey Silt, moist, hard. From 8 feet, color is yellow-red, mottlod. 14 - 15 BEDROCK (Torrey SandsLon): At 1.4 feet, tan Sandstone, fractured, tight, moderately well cemented. Total Depth 15 feet. No Water. - No Caving. - • PLATE • - GeoSoils,, Inc. GRADING GUIDELINES . . . Grading should be performed to at least the minimum requirement of the governing agencies,. Chapter 70 of the Uniform Building Code and the guidelines presented below: S . Site Clearing . I Trees, dense vegetation, and other deleterious materials should be removed from the site. Non-organic debris or concrete may be placed in deeper fill areas under direction of the Soil Engineer. Light, dry grasses may be thinly scattered and incorporated into the fill under direction of...... Soils Engineer, provided concentrations of organics are not developed. Subdrainage Subd.raina.ge systems should be provided in all canyon bottoms and within buttress . and stabilization fills prior to placing fill. Subdrains should.. conform to schematic diagrams GS-I, GS-3., and GS-4, approved by the Soils Engineer. . For canyon subdrains, runs less than 500 feet may use six inch pipe. Runs in excess of 500 feet should have the lower end as eight inch minimum. . Filter material should be Class 2 permeable filter . material per California Department . of Transportation Standards tested by the Soil Engineer to verify its suitability. A sample of the material should be Geo Soils, Inc. .. S M.A.G. PROPERTIES ' ' ' ' JUNE '6, 1990 W.O. 1047-SD GRADING GUIDELINES PAGE 2 ' 'provided to the Soil Engineer by 'the contractor at least two' working days 'before it is delivered to the site. The filter should be clean with a wide range of sizes.', As an alternative to" the Class ,2 filter, ,the material may be a 50/50 mix' of pea gravel and clean concrete sand which is well mixed,, or clean'' gravel wrapped in a suitable filter fabric. 3. An exact delineation of anticipated subdrain locatiàiis may be determined, at 40 scale plan review stage. During grading,th' Engineering Geologist should evaluate the necessIt"of placing additional drains. 4; All subdrainage systems should be observed by the Engineering Geologist and Soils Engineer during construction and prior to covering with' compacted fill'. 5. Consideration should' be given to having subdrains located by the project surveyors. Outlets, should be located and protected. Treatment of Existing GrOund 1. All heavy vegetation, 'rubbish and other deleterious 'materials should be' disposed of off site. GeoSolls, Inc. 'M.A.G. PROPERTIES ... . : JUNE 6, 1990 W.O. 1047-SD . GRADING. GUIDELINES PAGE 3 All suricial deposits of allium and colluvium should be removed (see Plate. GS-1) unless- otherwise indicated in the text of .this report'. Groundwater existing in the alluvial areas may make excavation difficult. Deeper removals than indicated in the text of the report may be necessary due to saturation during winter months. Subsequent to removals, the natural, ground should be processed to a depth of six inches, moistened to near, optimum moisture conditions and compacted to fill standards. . . Fill Placement All site soil and bedrock may be reused for compacted Ira bw'd,me ;0041-1081 z' q, P Material used in' the compacting process should be evenly, spread, moisture conditioned, processed, and compacted in thin lifts not to exceed six inches in thickness to obtain a uniformly dense layer. . The fill should be placed and compacted on a horizontal plane, unless otherwise found acceptable by. the' Soil Engineer. GeoSoils, Inc. M.A.G. PROPERTIES JUNE '6, 1990 W.O.- 1047-SD GRADING GUIDELINES PAGE 4 Ii 3. If the moisture content or relative density varies from'' that acceptable to the Soil Engineer, the Contractor should -rework the fill until it is in accordance with the following: Moisture content of the fill should 'be at or above, optimum moisture. Moisture. should be , evenly distributed without wet and dry pockets. Pre-watering of cut or removal areas should be consid&red in addition to •watering during fill ,plaOement, particularly in clay or dry surficial soils. Each six' inch layer should' be compacted to at least 90 percent of the maximum density in compliance! with the testing method specified by the controlling governmental agency.' In this case', the testing method is ASTN Test, Designation D-].557--78. 4. Side-hill fills shOuld have an equipment-width key at their toe excavated through all surficial soil and into competent material and tilted back into the, hill (GS-2, GS-6.). As the fill is elevated, it should be benched through surficial soil, and slopewas, 'and into competent bedrock or, other 'material 'deemed suitable by the Soil Engineer. GeoSoils, Inc. M.A.G. PROPERTIES . .. JUNE 6, 1990 .W.O. 1047-SD- GRADING-GUIDELINES PAGE 5 5. Rock fragments less;than eight ,inches in diameter may be utilized_inhQ1, provided: a) They'are not placed in concentrated pockets; There is a sufficient percentage of fine-grained material to surround the rocks; ç) The distribution, of the rocks .is supervised by the• Soil Engineer. 6. Rocks greater than eight inches in diameter should be taken off site, or placed, in accordance with the recommendation's of the Soil Engineer , in areas designated as suitable for. 5ock disposal (See GS-5). 7'. In clay soil large chunks or blocks are common; if' in excess of eight (8.) 'inches., minimum dimension then they are considered as oversized. Sheepsfoot compactors or other suitable methods'should be used to break the up blocks. 8 The Contractor should be required to obtain a minimum relative, compaction of 90 percent out to the' finished slope face of fill slopes. This may be achieved by either overbuilding the slope and cutting 'back to the compacted core, or by direct compaction of the slope face with suitable equipment. GeoSoils, Inc. M.A.G. PROPERTIES S JUNE 6, 1990 W.O. 1047-SD . . . GRADING GUIDELINES PAGE 6 If fill slopes are built "at grade" using direct compaction methods then the slope. construction should be performed so that a constant gradient is maintained throughout construction. Soil should not be "spilled" over the slope face nor should slopes be "pushed out" to obtain . grades. compaction equipment should compact each, lift along •the immediate . top of slope. Slopes should be back rolled rolled approximately every 4 feet vertically as the slope is built. ' Density tests should be taken periodically during grading on H the flat surface of the fill three to five feet horizontally from the face of" the slope. In addition, if a method other than over building and cutting back to the compacted core i's'to be employed, slope compaction testing .'during , construction should include testing the outer six inches to three feet in the slope face 'to'deterinine if the required compaction is being achieved. Finish grade testing of the slope should be performed after construction' is complete. Each day the Contractor should L receive a copy of the Soil Engineer's "Daily Field Engineering Report" which would indicate the "results of field density tests that day. . S GeoSoils, Inc. ' ' ' M.A.G. PROPERTIES JUNE 6, 1990 W.O. 1047-SD I GRADING GUIDELINES PAGE 7 9. Fill over cut slopes should be,' constructed in the following manner: S All stirficial soils and weathered rock materials should be removed at the cut-fill interface. A key at least 1 equipment width wide and tipped at least 1 foot into slope should be 'excavated into: competent äeria1s and observed by the soils engineer or his representative. C) The cut portion of the slope should be constructed prior to fill placement to evaluate if stabilization is necessary, the contractor should be responsible for any additional earthwork created by placing fill prior to cut excavation. 10. iTransition lots (cut and fill) and lots above stabilization fills should be .capped with a three foot thick compacted fill blanket. 11. Cut pads should be. observed by the Engineering Geologist to evaluate the need for overexcavation and replacement with fill. This may be necessary to reduce • water infiltration into highly fractured bedrock or. other permeable zonés,and/dr due to differing expansive GeóSoils, Inc. M.A.G. PROPERTIES JUNE -6, 1990 W.O. 1047-SD GRADING GUIDELINES PAGE 8 potential of materials beneath a structure. The overexcavation should-be at least three feet Deeper overexcavation may be recommended in some cases. 12. Exploratory backhoe Or dozer trenches still remaining after site removal should be excavated and filled with compacted fill if they can be located. Grading Observation and Testing Observation of the fill placement should be provided ,by the Soil Engineer during the progress of grading.. In general,. density tests would.be made at intervals not exceeding two feet of fill height or every -1,000 cubic yards of fill placed. This criteria will vary depending on soil conditions and the size of the fill. In any event, an adequate number of field density tests should:be made to evaluate if the required compaction and moisture content is generally being obtained. 3• Density tests may be. made on the surface material, to receive fill, as-required by the Soil Engineer. 4. .Cleanouts, . processed ground to receive • fill, key excavatibns,subdrains and rock disposal should be observed by the Soil Engineer prior to placing any GeoSoils, Inc. M.A.G. PROPERTIES . . JUNE 6, 1990 W.O. 1047-SD . . . . GRADING GUIDELINES PAGE 9 . fill. It will be the ContraorsS responsibility to . notify the Sail Engineer when such areas are ready for observation. 5,. An. Engineering Geologist should observe subdrain construction. . . 6. An Engineering Geologist should observe benching prior to and during placement of fill. . . Utility Trench Backfill . . Utility trench backfill should . be placed to the following. standards: . Ninety percent of the laboratory standard. if native material is used as backfill. As an alternative, clean sand may be utilized and flooded into place. No specific relative compaction would be required; however, observation, probing, and if deemed necessary, testing may be required. Exterior trenches,. paralleling a footing and extending below 'a 1:1 plane projected from the outside bottom edge of the footing.,...should be compacted, to 90 percent of the . .. . . . GeoSoits, Inc. K.A.G. PROPERTIES ' JUNE 6, 100 W.0.' 1047-SD GRADING GUIDELINES PAGE. 10 , 'laboratory standard. Sand backfill, until it is similar' to the inplace fill, should not be allowed in these, trench backfill areas. • ' Density testing along with probing should be. accomplished to verify the desired results. • • ' Final Grade ..\ Origin a I ground Loose Surface Deposits Suitable Suitable Material -i— 4 - Material Bench where slopeI - exceeds 5:1 \ • Subdrain • • . • • •• • (See Plate GS-3) .. • • TYPICAL TREATMENT OF NATURAL GROUND S :• •.Y ______________________________ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Geo.SoI,. DATE 6/90 1047-SD GsI O Soil Mechanics • Geology • Foundation Engineering TOE SHOWN ON / GRADING PLAN - / - I - - F /1 1•'•l PROJECTED ) r 4 'I I jl Typica O NATURAL Ij.iv—IO Typical SLOPE ' 110, J t/ 'I I- - Minimum ' $5 Minimum — Note: Where natural ppe gradient is 5:$ or less, benching is nôt necessary unless stripping did not remove all compressible material. TYPICAL FILL OVER NATURAL SLOPE GeoSoilI, c GSI In. DATE 6/90 W. 0. ± NO47SD IBy • • . Soil Mechanics • Geology 'Foundation Engineering BEDROCK OR FIRM FORMATION MATERIAL II AT (Ilb -if SOIL SLOPEWASH JJ* 0 ALLUVIUM REMOVED TO BEDROCK S%\ •%I ... BEDROCK Canyon subdrain : 6' perforated pipe with 9 cu. 'ft. gravel per ft. of drain wraped with - filter fabric. - I ALTERNATE 2 / / , .; 6' perforated pipe with 9' Cu. ft. gravel per ft. of drain wraped with filter fabric. CANYON SUBDRAIN DESIGN AND CONSTRUCTION GeoSoils, Inc. DATE 6 /9 0 WO NO.1o47-SD tBY CST Soil Mechanics • Geology • Foundation Engineering oR A 36" THICK FILL CAP FINISHED 1 . 2%_] SURFACE . - . • COMPACTED FILL -' --• 1< d e.t oil) - -. 4perforated pipe (or approved- equivalent) placed in I Cu. ft.-per linear ft. of. graded • filter material. I- Pipe to extend- . full length of buttress;--- [----'-above___ 4"nonperforated pipe.lateral to. Pipe I slope face at 10.0' intervals J' bench Gradéd filter material to conform to State of Calif. Dept. Public Works standard specifications for Class 2 permeable material &. Buttress slope to have a bench at every 20 to 30 feet. Buttress key depth varies. (see S preliminary reports) Buttress key width varies. (see preliminary reports) Baôkdraiflsand lateral drains located at elevation of every bench drain. First drain at elevation just above lower lot grade. Additional drains.may be required at discretion of GeoSoils, inc. GàoSoiliInè. / 1\ •E-5;? c ' 4:) TYPICAL BUTTRESS. SECTION DATE r,/q _IW.0..N0_iiL47-sn!BY ci Soil Mechanics • Geology • Foundation Engineering DI ATJ (-4 FILL I SLOPE A A V CLEAR ZONE I , LEQUIPMENT WIDTH- Soil shall be pu shed over rocks -and flooded into voids. Compact around and over each windrow. Stack boulders end to:. end. Do not pile upon each other. 1O' Tyical : FILL SLOPE Stagger rows rows • 0 imu ____ im 3' m I .h i m:u rn n CO 0 / FIRM GROUND /\ / -. / ROCK DISPOSAL DETAIL GeoSoils,1nc. DATE 6/90 IWO NO 1047-SD IBY GSI - ..... . Soil Mechanics • Geology *-Foundation Engineering 01 AT f•.Q_;' REMOVE ALL TOPSOIL, S -CQLLUVIUM AND CREEP MATERIAL FROM TRANSITION FILL I •- / 7 0 -•-•. I' I. -S CO O Typical _.- i.— I- I_ / • • > F tO' Ty pica H 0.00 CUT SLOPE .j I5' Minimum __t_t. I , BEDROCK OR FIRM - -- - FORMATION MATERIAL : TYPICAL FILL OVER CUT SLOPE 1) I GeoSoils,Inc. DATE 6/90 Iwo NO 1047_SDIBy GSI • Soil Mechanics. Geology • Foundation Engineering M A -re GeoSoils, Inc. ROCK HARDNESS AND 'EVALUATION . Volcanic bedrock materials are moderately hard to hard, brittle and dense. To estimate excavation. charécteristics onsite, six shallow seismic refraction profiles'were made in representative areas of volcanic: bedrock. In addition to the seismic profiles, much of recent site exploration used a Komatsu PC220LC. This equipment we feel is approximately equivalent to a 'Caterpillar 225. . The depth of practical refusal on hard rock with this machine, roughly 'approximates the limit of production ripping. Approximate locations of the seismic profiles and excavator test pits are shown on the enclosed Geotechni,cal.Map (Plate 1). Refraction, profiles were made using a GeoMetrics, Inc., Model 117C seismic timer which provided velocity characteristics of bedrock at various depths below the, surface. Table A indicates the average, velocity interpretations of each seismic line. This velocity information is specific to the area of each survey; variations should be expected at other locations. Depth of practical refusal and difficulty of excavation using the Komatsu PC220LC is noted on the test pit logs. In areas where excavation utilizing conventional grading equipment is possible, it should, be anticipated that oversize material (boulders) would be generated and local hard. zones requiring blasting may be encountered. Trenching for utilities into the volcanic rocks will,be difficult. This can be mitigated G.IeóSoils, Inc. M.A.G. PROPERTIES 'JUNE '6, 1990 W.O. 1047-SD ROCK HARDNESS PAGE 2 by over-excavating utility areas to below utility line invert levels' and rebuilding to grade with. compacted fills. While it is difficult t'b'ácburate1y predict rippability and associated fill quality on any site, we typically find 'the. following in volcanics: Seismic velocities varying from 5000 to 6000 feet per second (fps) represent the start of blasting. . Material displaying velocities of 5000 to .10,000 fps necessitate light to moderate blasting and produce reasonable, quality material to use as structural .rock, fills.. Materials with seismic velocities exceeding 10,000 fps indicate moderate to heavy, blasting and pro.uce. relatively clean rock with little 'if any matrix material.. Seismic velocities in the"10,000 fps range are indicated on all. refraction profiles ranging from 6 to 23 feet deep. At this stage of. project planning we suggest that cut depths in volcanic rock be minimized as much as feasible, as this would reduce grading costs. 'Additional rock hardness studies using seismic refraction. and trenching with D-9L or equivalent would be useful to assist in refining project budgets. GeoSoils, Inc. 1 .. TABLE. A *seismic .: Depth Average Velocity Refraction Direction **•Bedrock. (feet),., (It.—per second).,.-. 1 north-south Jsp 0-10 2,00 10+ 10,•000 • south—north.., 0-6 3,500 6+ 10,000.- 2 . no Jsp 0-3.5 1,300 3.5-23 3,500 . . '23+ 101 000 • south-north 0-14 . 2,500 . . . 14-27.5 . 10,000 27.5 10,000 .3 north-south '.' Jsp 0-4 1,400 .4-15. 5,000 15+ 10,000 south-,,north ' . • 0-3 11 100 3-15.5 2,500 15.5+ 10,000 4 . . .' north-south Jsp • • '0-9 1,100 9-23.5 5,500 23.5 10,000 south-'north .0-4 1,600 4+ 5,000 below 32 10,000 5. north-south Jsp • 0-3 1,200 • 3+ 3,250 below 32 10,000 south-north . . 0-6 900 6-17 5,000 17+ 10,000 6 31 2.50 north-'south . Jsp • . 0-9 • 9-24 61 000 • • 24+ 10,000 south-north 0-14 3,500 . . 14+ • . 10,000 *See Plate 1 for location. . **Jsp - Volcanic/metavolcanic rock. GeoSoils, Inc. . •..• . RESULTS I phi angle = 270 I cohesion = 0.51 kst 3.0 2.5 LU 1.0 Cr) 0.5 U 0•5 I.P . 1.5 2.0 2.5 3.0 NORMAL 'PRESSURE —'KSF KEY: o reshear SHEAR TEST DIAGRAM initial shear • Remolded Shear ..:P•--'• .' TP-43 @ 5 feet GeoSoils,Inc. DATE 5/90 0 NO±7:SD 'BY GSI oti mecnanics • eoiogy 0 -ounaaiion tngrnnny SHEAR TEST DIAGRAM CLIENT_Daon Corporation PROJECT La Costa S.E. 13 .& 14 UNDISTURBED 0 REMOLDED W NAT. MOIST. 0. SATURATED • . . . 279-SD. DATE 6-18-82 LOCATION See below 0 DEPTHSee_ below FT.. 2. Ii- • • .cI) 2 . • I—. Wi (1) 0 z QH.I w I. (I) 0. ••• • 5 - • .. •• I 0 re ) -• __ 51 - 0 05 1.0 1.5 2.0 2.5 3.0 • NORMAL PRESSURE -• KSF • fl £'! ('U_P)