HomeMy WebLinkAboutSDP 12-01; Vista La Costa Apartments; Site Development Plan (SDP) (3)EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
(619) 258-7901
Fax 258-7902
Diversified Development April 24, 2012
24335 Prielipp Road, Suite 112 Project No. 12-1147H1
Wildomar, Califomia 92595
Subject: Limited Geotechnical Investigation
Vista La Costa Residential Development
Parcel 2 of Certificate of Compliance Recorded on August 27,1984
as Document No. 84-325375
Gibraltar Street, APN 216-290-20, 21 & 216-290-47
Carlsbad, Califomia 92009
Ladies & Gentlemen:
In accordance with your request, we have performed a limited geotechnical investigation at the
subject site to discuss the geotechnical aspects of the project and provide recommendations for the
proposed development.
Our investigation has found that the proposed building pads are underlain by topsoil,
undocumented fill and alluvium to depths ranging from approximately 7 to 15 feet below existing
grades. These soils were underlain by dense sandstone/claystone of the Santiago Formation to the
explored depth of 17 feet. It is our opinion that the development of the proposed residential project
is geotechnically feasible provided the recommendations herein are implemented in the design and
constmction.
Should you have any questions with regard to the contents of this report, please do not hesitate to
contact our office.
Respectfully submitted.
Mamadou Saiiou Uiallo, P.E.
RCE 54071, GE 2704
MSD\md
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-U47HI
TABLE OF CONTENTS
INTRODUCTION 3
SCOPE OF SERVICES 3
SITE DESCRIPTION AND PROPOSED CONSTRUCTION 3
FIELD INVESTIGATION AND LABORATORY TESTING 4
GEOLOGY 4
Geologic Setting 4
Site Stratigraphy 4
SEISMICITY 5
Regional Seismicity 5
Seismic Analysis 5
2010 CBC Seismic Design Criteria 6
Geologic Hazard Assessment 6
GEOTECHNICAL EVALUATION 7
Compressible Soils 7
Expansive Soils 7
Groundwater 7
CONCLUSIONS AND RECOMMENDATIONS 8
GRADING AND EARTHWORK 8
Clearing and Grubbing 8
Structural Improvement of Soils 8
Transitions Between Cut and Fill 9
Method and Criteria of Compaction 9
Erosion Control 9
Standard Grading Guidelines 9
FOUNDATIONS AND SLABS 10
SETTLEMENT 10
PRESATURATION OF SLAB SUBGRADE 10
RETAINING WALLS 11
TEMPORARY SLOPES 11
TRENCH BACKFILL 11
DRAINAGE 12
FOUNDATION PLAN REVIEW 12
LIMITATIONS OF INVESTIGATION 12
ADDITIONAL SERVICES 13
PLATES
Plate 1- Location of Exploratory Boreholes
Plate 2 - Summary Sheet (Exploration Borehole Logs)
Plate 3 - USCS Soil Classification Chart
PAGE L-1, LABORATORY TEST RESULTS 17
REFERENCES 18
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-I147H1
INTRODUCTION
This is to present the findings and conclusions of a limited geotechnical investigation for the
proposed constmction of three 3-story residential buildings over basement garages to be located on
the north side of Gibraltar Street, in the City of Carlsbad, Califomia.
The objectives of the investigation were to evaluate the existing soils conditions and provide
recommendations for the proposed development.
SCOPE OF SERVICES
The following services were provided during this investigation:
O Site reconnaissance and review of published geologic, seismological and geotechnical reports
and maps pertinent to the project area
O Subsurface exploration consisting of five (5) test pits within the limits of the proposed area of
development. The test pits were logged by our Staff Geologist.
O Collection of representative soil samples at selected depths. The obtained samples were sealed
in moisture-resistant containers and transported to the laboratory for subsequent analysis.
O Laboratory testing of samples representative of the types of soils encountered during the field
investigation
O Geologic and engineering analysis of the field and laboratory data, which provided the basis
for our conclusions and recommendations
O Production of this report, which summarizes the results of the above analysis and presents our
findings and recommendations for the proposed development
SITE DESCRIPTION AND PROPOSED CONSTRUCTION
The subject site which comprises two lots (Parcel 2 of Certificate of Compliance Recorded on
August 27, 1984 as Document No. 84-325375) is located on the north side of Gibraltar Street, in
the City of Carlsbad, Califomia. The vacant property encompasses an area of approximately 38000
square feet. The lots were graded into two terraced pads with an elevation difference of
approximately 6 feet. Vegetation consisted of grass, shrub and a few trees. Site boundaries include
Gibraltar Street to the south, residential parcels to the west and east and La Costa Golf Course to
the north.
The revised drawings prepared by O'Day Consultants of Carlsbad, Califomia indicate that the
proposed constmction will include three residential buildings. It is our understanding that the
stmctures will be three-story over basement garages. Associated improvements will include asphalt
concrete and pervious pavements, a concrete sidewalk, landscaping and other appurtenances.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1I47H1
FIELD INVESTIGATION AND LABORATORY TESTING
On Febmary 22, 2012, five (5) test pits were excavated to a maximum depth of approximately 17
feet below existing grade with a Case CX 135 trackhoe. The approximate locations of the test pits
are shown on the attached Plate No. 1, entitled "Location of Exploratory Test pits". A continuous
log of the soils encountered was recorded at the time of excavation and is shown on Plate No. 2
entitled "Summary Sheet". The soils were visually and texturally classified according to the filed
identification procedures set forth on Plate No. 3 entitled "USCS Soil Classification".
Following the field exploration, laboratory testing was performed to evaluate the pertinent
engineering properties of the foundation materials. The laboratory-testing program included
moisture and density, maximum dry density and optimum moisture content, particle size analysis,
Atterberg limits and expansion index tests. These tests were performed in general accordance with
ASTM standards and other accepted methods. Page L-1 and Plate No. 2 provide a summary of the
laboratory test results.
GEOLOGY
Geologic Setting
The subject site is located within the southem portion of what is knovm as the Peninsular Ranges
Geomorphic Province of Califomia. The geologic map pertaining to the area indicates that the site is
underlain by sandstone/claystone of the Santiago Formation (Tsa).
Site Stratigraphy
The subsurface descriptions provided are interpreted from conditions exposed during the field
investigation and/or inferred fi'om the geologic literature. Detailed descriptions of the subsurface
materials encountered during the field investigation are presented on the exploration logs provided on
Plate No. 2. The following paragraphs provide general descriptions of the encountered soil types.
Topsoil
Topsoil is the surficial soil material that mantles the ground, usually containing roots and other organic
materials, which supports vegetation. Topsoil was observed in all test pits with a thickness of
approximately 6 inches. It consisted of dark brown, silty sand that was damp to moist, loose and
porous in consistency with some organics (roots and rootlets).
Undocumented Fill (Quf)
Undocumented fill soils were encountered below the topsoil with a thickness ranging fi'om
approximately 2 to 7 feet. They generally consisted of reddish brown, clayey sand with gravel that
was moist and medium dense in consistency.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
Alluvium (Gal)
Alluvium was underlying the fill with a thickness ranging between approximately 5 and 10 feet. The
material generally consisted of dark brown, sandy clay/ clayey sand with gravel that was moist to wet
and soft to medium stiff in consistency.
Santiago Formation (Tsa)
Sandstone/claystone of the Santiago Formation was encountered below the alluvium. The material
generally consisted of light-colored clayey sand that was moist and dense in consistency.
SEISMICITY
Regional Seismicity
Generally, Seismicity within Califomia can be attributed to the regional tectonic movement taking
place along the San Andreas Fault Zone, which includes the San Andreas Fault and most parallel
and subparallel faults within the state. The portion of southem Califomia where the subject site is
located is considered seismically active. Seismic hazards are attributed to groundshaking from
earthquake events along nearby or more distant Quatemary faults. The primary factors in
evaluating the effect an earthquake has on a site are the magnitude of the event, the distance from
the epicenter to the site and the near surface soil profile.
According to the Fault-Rupture Hazard Zones Act of 1994 (revised Alquist-Priolo Special Studies
Zones Act), quatemary faults have been classified as "active" faults, which show apparent surface
mpture during the last 11,000 years (i.e., Holocene time). "Potentially-active" faults are those faults
with evidence of displacing Quatemary sediments between 11,000 to 16,000 years old.
Seismic Analysis
Based on our evaluation, the closest knovm "active" fault is the Rose Canyon Fault located
approximately 7 miles (11 kilometers) to the west. The Rose Canyon Fault is the design fault ofthe
project due to the predicted credible fault magnitude and ground acceleration.
The Seismicity of the site was evaluated utilizing deterministic methods (Eqseach/ Eqfault ver 3.0,
Blake, 2008) for active Quatemary faults within the regional vicinity. The site may be subjected to
a Maximum Probable Earthquake of 6.9 Magnitude along the Rose Canyon fault, with a
corresponding Peak Ground Acceleration of 0.40g. The maximum Probable Earthquake is defined
as the maximum earthquake that is considered likely to occur within a 100-year time period.
The effective ground acceleration at the site is associated with the part of significant ground
motion, which contains repetitive strong-energy shaking, and which may produce stmctural
deformation. As such, the effective or "free field" ground acceleration is referred to as the
Repeatable High Ground Acceleration (RHGA). It has been determined by Ploessel and Slosson
(1974) that the RHGA is approximately equal to 65 percent of the Peak Ground Acceleration for
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
earthquakes occurring within 20 miles of a site. Based on the above, the calculated Credible
RHGA at the site is 0.0.26g.
2010 CBC Seismic Design Criteria
A review of the active fault maps pertaining to the site indicates the existence of the Rose Canyon
Fault Zone approximately 11 km to the west. Ground shaking from this fault or one of the major
active faults in the region is the most likely happening to affect the site. With respect to this
hazard, the site is comparable to others in the general area. The proposed residential stmctures
should be designed in accordance with seismic design requirements of the 2010 Califomia Building
Code or the Stmctural Engineers Association of Califomia using the following seismic design
parameters:
PARA^TEIL-: VALUE 2010 CBC REFERENCE
Site Class D Table 1613.5.2
Mapped Spectral Acceleration For
Short Periods, S^
1.136 Figure 1613.5(3)
Mapped Spectral Acceleration For a
1-Second Period, Si
0.427 Figure 1613.5(4)
Site Coefficient, F, 1.046 Table 1613.5.3(1)
Site Coefficient, Fv 1.573 Table 1613.5.3(2)
Geolo^c Hazard Assessment
Ground Rupture
Ground mpture due to active faulting is not considered likely due to the absence of known fault traces
within the vicinity of the project; however, this possibility cannot be completely mled out. The
unlikely hazard of ground mpture should not preclude consideration of "flexible" design for on-site
utility lines and connections.
Liquefaction
Liquefaction involves the substantial loss of shear strength in saturated soils, usually sandy soils with a
loose consistency when subjected to earthquake shaking. Based on the absence of shallow
groundwater and consistency of the underlying sandstone/claystone of the Santiago Formation, it is
our opinion that the potential for liquefaction is very low.
Landsliding
There is no indication that landslides or unstable slope conditions exist on or adjacent to the project
site. There are no obvious geologic hazards related to landsliding to the proposed development or
adjacent properties.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-1147H1
Tsunamis and Seiches
The site is not subject to inundation by tsunamis due to its elevation and distance from the ocean.
The site is also not subject to seiches (waves in confined bodies of water).
GEOTECHNICAL EVALUATION
Based on our investigation and evaluation of the collected information, we conclude that the proposed
constmction is feasible from a geotechnical standpoint provided the recommendations provided herein
will be properly implemented during stmctural development.
In order to provide a uniform support for the proposed stmctures, overexcavation and recompaction of
the stmctural portions of the building pads will be required. The foundations may consist of
reinforced continuous and/ or spread footings with reinforced concrete slabs-on grade floors.
Recommendations and criteria for foundation design are provided in the Foundation recommendations
section of this report.
Compressible Soils
Our field observations and testing indicate low compressibility within the dense sandstone/claystone
of the Santiago Formation, which underlies the site. However, loose topsoil, undocumented fill and
alluvium were encotmtered to depths ranging fi-om approximately 7 to 15 feet below existing grades.
These soils are compressible and the alluvium is highly expansive. Due to the potential for soil
compression upon loading, remedial and select grading of these loose and expansive soils, including
overexcavation and recompaction will be required.
Following implementation of the earthwork recommendations presented herein, the potential for soil
compression resulting from the new development has been estimated to be low. The low-settlement
assessment assumes a well-planned and maintained site drainage system. Recommendations
regarding mitigation by earthwork constmction are presented in the Grading and Earthwork
recommendations section of this report.
Expansive Soils
Expansion index tests were performed on representative samples of the fill and alluvium to
determine volumetric change characteristics with change in moisture content. Expansion indexes
of 33 and 151 were obtained respectively which indicates a low to very high expansion potential
for the subgrade soils.
Groundwater
Static groundwater was not encountered to the depths of the test pits. The subject site is located at
elevations between approximately 50 and 60 feet above Mean Sea Level. We do not expect
groundwater to affect the proposed constmction. Recommendations to prevent or mitigate the
effects of poor surface drainage are presented in the Drainage section of this report.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
CONCLUSIONS AND RECOMMENDATIONS
The following conclusions and recommendations are based upon the analysis of the data and
information obtained from our soil investigation. This includes site reconnaissance; field
investigation; laboratory testing and our general knowledge of the soils native to the site. The site is
suitable for the proposed residential development provided the recommendations set forth are
implemented during constmction.
GRADING AND EARTHWORK
Based upon the proposed constmction and the information obtained during the field investigation, we
anticipate that the proposed stmctures will be founded on continuous and/ or spread footings, which
are supported by properly compacted fill. The following grading and earthwork recommendations are
based upon the limited geotechnical investigation performed, and should be verified during
constmction by our field representative.
Clearing and Grubbing
All areas to be graded or to receive fill and/or stmctures should be cleared of vegetation. Vegetation
and the debris fi-om the clearing operation should be properly disposed of off-site. The area should be
thoroughly inspected for any possible buried objects, which need to be rerouted or removed prior to
the inception of, or during grading. All holes, trenches, or pockets left by the removal of these objects
should be properly backfilled with compacted fill materials as recommended in the Method and
Criteria of Compaction section of this report.
Structural Improvement of Soils
Information obtained from our field and laboratory analysis indicates that loose topsoil, undocumented
fill and alluvium cover the building pads to depths of approximately 7 to 15 feet below existing grade.
These subgrade soils are susceptible to settlement upon loading. Based upon the soil characteristics,
we recommend the following:
* All topsoil, undocumented fill and alluvium should be completely removed from areas, which
are planned to receive compacted fills and/or stmctural improvements. The bottom of the
removal area should expose competent materials as approved by ECSC&E geotechnical
representative. Prior to the placement of new fill, the bottom of the removal area should be
scarified a minimum depth of 6 inches, moisture-conditioned within 2 percent above the
optimum moisture content, and then recompacted to at least 90 percent relative compaction
(ASTM D1557 test method).
* Overexcavation should be completed for the structural building pads to a minimum depth of
4 feet below basement grades. The limit of the required areas of overexcavation should be
extended a minimum of 5 feet laterally beyond the perimeter footings (building footprints).
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-II47H1
* Soils utilized as fill should be moisture-conditioned and recompacted in conformance with the
following Method and Criteria of Compaction section of this report. The depth and extent of
any overexcavation and recompaction should be evaluated in the field by a representative of
ECSC&E.
Transitions Between Cut and Fill
The proposed stmcture is anticipated to be foimded in properly compacted fill. Cut to fill transitions
below the proposed stmcture should be eliminated during the earthwork constmction as required in the
previous section.
Method and Criteria of Compaction
Compacted fills should consist of approved soil material, free of trash debris, roots, vegetation or other
deleterious materials. Fill soils should be compacted by suitable compaction equipment in uniform
loose lifts of 6 to 8 inches. Unless otherwise specified, all soils subjected to recompaction should be
moisture-conditioned within 2 percent over the optimum moisture content and compacted to at least
90 percent relative compaction per ASTM test method D1557.
The on-site soils with the exception of the alluvium, after being processed to delete the
aforementioned deleterious materials, may be used for recompaction purposes. The alluvium which is
highly expansive should not be used as fill within at least 4 feet below basement grades. Should any
importation of fill be planned, the intended import source(s) should be evaluated and approved by
ECSCE prior to delivery to the site. Care should be taken to ensure that these soils are not
detrimentally expansive.
Erosion Control
Due to the granular characteristics of the on-site soils, areas of recent grading or exposed ground may
be subject to erosion. During constmction, surface water should be controlled via berms, gravel/
sandbags, silt fences, straw wattles, siltation basins, positive surface grades or other method to avoid
damage to the finish work or adjoining properties. All site entrances and exits must have coarse
gravel or steel shaker plates to minimize offsite sediment tracking. Best Management Practices
(BMPs) must be used to protect storm drains and minimize pollution. The contractor should take
measures to prevent erosion of graded areas until such time as permanent drainage and erosion control
measures have been installed. After completion of grading, all excavated surfaces should exhibit
positive drainage and eliminate areas where water might pond.
Standard Grading Guidelines
Grading and earthwork should be conducted in accordance with the standard-of-practice methods for
this local, the guidelines of the current edition of the Uniform Building Code, and the requirements of
the jurisdictional agency. Where the infonnation provided in the geotechnical report differs from the
Standard Grading Guidelines, the requirements outiined in the report shall govem.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-I147HI
FOUNDATIONS AND SLABS
a. Continuous and spread footings are suitable for use and should extend to a minimum depth of 30
inches below the lowest adjacent grade for the proposed three-story stmctures over basement
garages. Continuous footings should be at least 18 inches in width and reinforced with four #5
steel bars; two bars placed near the top of the footings and the other two bars placed near the
bottom of the footings. Isolated or spread footings should have a minimum width of 24 inches.
Their reinforcement should consist of a minimum of #5 bars spaced 12 inches on center (each way)
and placed horizontally near the bottom. The minimum reinforcement recommended is based on
geotechnical considerations and is not intended to supercede the structural engineer requirements.
b. Interior floor slabs for the basement garages should be a minimum 5-inch thick. Reinforcement
should consist of #3 bars placed at 16 inches on center each way within the middle third of the
slabs by supporting the steel on chairs or concrete blocks "dobies". The slabs should be underlain
by 2 inches of clean sand over a 10-mil visqueen moisture barrier and a capillary break at least 2
inches thick, consisting of coarse sand, gravel or crushed rock not exceeding 3/4 inch in size with
no more than 5 percent passing the #200 sieve. The effect of concrete shrinkage will result in
cracks in virtually all-concrete slabs. To reduce the extent of shrinkage, the concrete should be
placed at a maximum of 4-inch slump. The minimum steel recommended is not intended to
prevent shrinkage cracks.
c. An allowable soil bearing value of 2,000 pounds per square foot may be used for the design of
continuous and spread footings at least 12 inches wide and founded a minimum of 12 inches into
properly compacted fill soils as set forth in the 2010 Califomia Building Code, Table 1804.2. This
value may be increased by 400 psf for each additional foot of depth or width to a maximum value
of 4,000 lb/ft2.
d. Lateral resistance to horizontal movement may be provided by the soil passive pressure and the
friction of concrete to soil. An allowable passive pressure of 250 pounds per square foot per foot
of depth may be used. A coefficient of friction of 0.35 is recommended. The soils passive pressure
as well as the bearing value may be increased by 1/3 for wind and seismic loading.
SETTLEMENT
Settlement of compacted fill soils is normal and should be anticipated. Because of the minor
thickness of the fill soils anticipated under the proposed footings, total and differential settlements
should be within acceptable limits.
PRESATURATION OF SLAB SUBGRADE
Due the granular characteristics and low expansion potential of the anticipated foundation soils,
presoaking of subgrade prior to concrete pour is not required. However, subgrade soils in areas
receiving concrete should be watered prior to concrete placement to mitigate any drying shrinkage,
which may occur following site grading.
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DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-1I47HI
RETAINING WALLS
Cantilevered retaining walls should be designed for an "active" lateral earth pressure of 35 psf/ft (35
pcf EFP) for approved granular and level backfill conditions. Where the walls support 2H:1V sloping
backfill, the equivalent fluid pressure should be increased to 45 pcf. Cantilever walls subject to
uniform surcharge loads should be designed for an additional uniform lateral pressure equal to one-
third (1/3) the anticipated surcharge pressure. An additional lateral earth pressure due to earthquake
motions of 25 pcf (EFP) may be applied using an inverted triangular distribution if required.
Restrained walls such as basement walls should be designed utilizing an "at-rest" earth pressure of 60
psf/ft (60 pcf EFP) for approved granular and level backfill. Restrained walls subject to uniform
surcharge loads should be designed for an additional uniform lateral pressure equal to one-half (1/2)
the anticipated surcharge.
Soil design criteria, such as bearing capacity, passive earth pressure and sliding resistance as
recommended under the Foundation and Slab Recommendations section, may be incorporated into the
retaining wall design.
Footings should be reinforced as recommended by the stmctural engineer and appropriate back
drainage provided to avoid excessive hydrostatic wall pressures. As a minimum we recommend a
fabric-wrapped cmshed rock and perforated pipe system. At least 2 cubic feet per linear foot of free-
drainage cmshed rock should be provided.
The remaining wall backfill should consist of approved granular material. This fill material should
be compacted to a minimum relative compaction of 90 percent as determined by ASTM D-1557
test method. Flooding or jetting of backfill should not be permitted. Granular backfill should be
capped with 18 inches (minimum) of relatively impervious fill to seal the backfill and prevent
saturation. It should be noted that the use of heavy compaction equipment in close proximity to
retaining stmctures can result in wall pressures exceeding design values and corresponding wall
movement greater than that associated with active or at-rest conditions. In this regard, the
contractor should take appropriate precautions during the backfill placement.
TEMPORARY SLOPES
For the excavation of foundations and utility trenches, temporary vertical cuts to a maximum height of
4 feet may be constmcted in fill or natural soil. Any temporary cuts beyond the above height
constraints should be shored or further laid back following a 1:1 (horizontal to vertical) slope ratio.
OSHA guidelines for trench excavation safety should be implemented during constmction.
TRENCH BACKFILL
Excavations for utility lines, which extend under structural areas should be properly backfilled and
compacted. Utilities should be bedded and backfilled with clean sand or approved granular soil to
a depth of at least one foot over the pipe. This backfill should be uniformly watered and
compacted to a firm condition for pipe support. The remainder of the backfill should be on-site
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DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-II47HI
soils or non-expansive imported soils, which should be placed in thin lifts, moisture-conditioned
and compacted to at least 90% relative compaction.
DRAINAGE
Adequate measures should be undertaken to properly finish grade the site after the structure and
other improvements are in place, such that the drainage water within the site and adjacent
properties is directed away from the foundations, footings, floor slabs and the tops of slopes via
rain gutters, downspouts, surface swales and subsurface drains towards the natural drainage for this
area. A minimum gradient of 1 percent is recommended in hardscape areas. For earth areas, a
minimum gradient of 5 percent away from the stmcture for a distance of at least 5 feet should be
provided. Earth swales should have a minimum gradient of 2 percent. Drainage should be directed
to approved drainage facilities. Proper surface and subsurface drainage will be required to
minimize the potential of water seeking the level of the bearing soils under the foundations,
footings and floor slabs, which may otherwise result in undermining and differential settlement of
the stmcture and other improvements.
FOUNDATION PLAN REVIEW
Our firm should review the foundation plans during the design phase to assure conformance with the
intent of this report. During constmction, foundation excavations should be observed by our
representative prior to the placement of forms, reinforcement or concrete for conformance with the
plans and specifications.
LIMITATIONS OF INVESTIGATION
Our investigation was performed using the skill and degree of care ordinarily exercised, under similar
circumstances, by reputable soils engineers and geologists practicing in this or similar localities. No
other warranty, expressed or implied, is made as to the conclusions and professional advice included in
this report. This report is prepared for the sole use of our client and may not be assigned to others
without the written consent of the client and ECSC&E, Inc.
The samples collected and used for testing, and the observations made, are believed representative of
site conditions; however, soil and geologic conditions can vary significantly between exploration
trenches, boreholes and surface exposures. As in most major projects, conditions revealed by
constmction excavations may vary with preliminary findings. If this occurs, the changed conditions
must be evaluated by a representative of ECSC&E and designs adjusted as required or altemate
designs recommended.
This report is issued with the understanding that it is the responsibility of the owner, or of his
representative to ensure that the information and recommendations contained herein are brought to the
attention of the project architect and engineer. Appropriate recommendations should be incorporated
into the stmctural plans. The necessary steps should be taken to see that the contractor and
subcontractors carry out such recommendations in the field.
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DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
The findings of this report are valid as of this present date. However, changes in the conditions of a
property can occur with the passage of time, whether they are due to natural processes or the works of
man on this or adjacent properties. In addition, changes in applicable or appropriate standards may
occur from legislation or the broadening of knowledge. Accordingly, the findings of this report may
be invalidated wholly or partially by changes outside of our control. Therefore, this report is subject to
review and should be updated after a period of two years.
ADDITIONAL SERVICES
The review of plans and specifications, field observations and testing under our direction are integral
parts of the recommendations made in this report. If East County Soil Consultation and Engineering,
Inc. is not retained for these services, the client agrees to assume our responsibility for any potential
claims that may arise during constmction. Observation and testing are additional services, which are
provided by our firm, and should be budgeted within the cost of development.
Plates No. 1 through 3, Page L-1 and References are parts of this report.
13
1/
N
EAST COUNTY SOIL CONSULTATION
& ENGINEERING, INC.
10925 HARTLEY RD.. SUITE I. SANTEE. CA 92071
(619) 258-7901 Fax (619) 258-7902
/^72 /yo. /
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
PLATE NO. 2
SUMMARY SHEET
DEPTH
Surface
0.5'
2.0'
7.0'
12.0'
13.5'
15.0'
17.0'
TEST PIT NO.1
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
It n II II II II II
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
dark brown, damp to moist, loose to medium dense, clayey sand
108.5
103.6
106.7
113.6
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense, clayey sand with gravel
bottom of test pit, no caving, no groundwater,
test pit backfilled and compacted with sheepsfoot roller 2/22/12
M
15.9
20.6
14.8
11.6
TEST PIT NO. 2
DEPTH
Surface
0.5'
3.0'
5.0'
8.0'
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
fl II fl If fl If ff
ALLUVIUM (Qal)
dark brown, damp to moist, loose to medium dense, clayey sand
SANTIAGO FORMATION (Tsa)
light reddish brown, moist, very dense, clayey sand with gravel
refusal, bottom of test pit, no caving, no groundwater
test pit backfilled with sheepsfoot roller 2/22/12
Y M
120.4 7.6
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
14
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
PLATE NO. 2 (Continued)
SUMMARY SHEET
DEPTH
Surface
0.5'
1.5'
2.0'
4.0'
7.0'
8.0'
13.0'
TEST PIT NO. 3
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
II tl tl tt It II It
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
It It II II II ft It
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense,
silty sand/ clayey sand with gravel
It II II II II It tl
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
113.7
105.8
18.2
M
12.4
17.2
9.7
DEPTH
Surface
0.5'
2.0'
7.0'
8.0'
10.0'
13.0'
14.0'
TEST PIT NO. 4
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
It It It II tl It tl
dark brown, moist to wet, loose to medium dense,
clayey sand with gravel
II It II It It It tl
SANTIAGO FORMATION (Tsa)
light reddish brown, moist, dense, clayey sand with gravel
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
102.0
88.7
M
17.6
23.0
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
15
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
PLATE NO. 2 (Continued)
SUMMARY SHEET
DEPTH
Surface
0.5'
3.0'
8.0'
13.0'
14.0'
TEST PIT NO. 5
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
reddish brown, damp to moist medium dense, poorly-graded sand
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense, silty sand/ clayey sand
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
M
110.1 7.8
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
16
MAJOR DIVISIONS SYMBOL DESCRIPTION
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GW WELL GRADED GRAVELS OR GRAVEL- SAND
MIXTURES, LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GP POORLY GRADED GRAVELS OR GRAVEL-SAND
MIXTURES, LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GM SILTY GRAVELS, GRAVEL-SAND-SILT MIXTURES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GC CLAYEY GRAVELS, GRAVEL-SAND-CLAY MIXTURES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN '/s
OF COARSE
FRACTION
< NO. 4 SIEVE
SCE)
SW WELL GRADED SANDS OR GRAVELLY SANDS,
LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN '/s
OF COARSE
FRACTION
< NO. 4 SIEVE
SCE)
SP POORLY GRADED SANDS OR GRAVELLY SANDS,
LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN '/s
OF COARSE
FRACTION
< NO. 4 SIEVE
SCE)
SM SILTY SANDS, SILT-SAND MIXTURES
COARSE
GRAINED SOILS
(MORE THAN'/2 OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN '/s
OF COARSE
FRACTION
< NO. 4 SIEVE
SCE)
SC CLAYEY SANDS, SAND-CLAY MIXTURES
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50
ML INORGANIC SILTS AND VERY FINE SANDS, ROCK
FLOUR, SILTY OR CLAYEY FINE SANDS OR CLAYEY
SILTS WITH SLIGHT PLASTICITY
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50
CL INORGANIC CLAYS OF LOW TO MEDIUM
PLASTICITY, GRAVELLY CLAYS, SANDY CLAYS,
SILTY CLAYS, LEAN CLAYS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50 OL ORGANIC SILTS AND ORGANIC SILTY CLAYS OF
LOW PLASTICITY
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
>50
MH INORGANIC SILTS. MICACEOUS OR DIATOMACEOUS
FINE SANDY OR SILTY SOILS, ELASTIC SILTS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
>50
CH INORGANIC CLAYS OF HIGH PLASTICITY, FAT
CLAYS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
>50 OH ORGANIC CLAYS OF MEDIUM TO HIGH PLASTICFFY,
ORGANIC SILTY CLAYS, ORGANIC SILTS
HIGHLY ORGAN fIC SOILS Pt PEAT AND OTHER HIGHLY ORGANIC SOILS
CLASSIFICATION CHART (UNIFIED SOIL CLASSIFICATION SYSTEM)
CLASSIFICATION RANGE OF GRAIN SIZES
U.S. STANDARD GRAIN SIZE IN
SIEVE SIZE MILLIMETERS
BOULDERS Above 12 Inches Above 305
COBBLES 12 Inches To 3 Inches 305 To 76.2
GRAVEL 3 Inches to No. 4 76.2 to 4.76
Coarse 3 Inches to '/< Inch 76.2 to 19.1
Fine V* Inch to No. 4 19.1 to 4.76
SAND No. 4 to No. 200 4.76 to 0.074
Coarse No. 4 to No. 10 4.76 to 2.00
Medium No. 10 to No. 40 2.00 to 0.420
Fine No. 40 to No. 200 0.420 to 0.074
SILT AND CLAY Below No. 200 Below 0.074
GRAIN SIZE CHART
ElMTK* itV-tiM
VirfiMI Jt LL "IS H'l'T TM. »:»0.J1LL->I /
27 MLo-OL
MH or OH
LIQUID UiMIT (LL)
PLASTICITY CHART
EAST COUNTY SOIL CONSULTATION DIVERSIFIED DEVELOPMENT PROJECT
AND ENGINEERING, INC. PROJECT NO. 12-il471ii
10925 HARTLEY ROAD, SUITE "I" PUATE ivO. 3
SANTEE, CALIFORNIA 92071 liARCH 2, 2012
U.S.C.S. SOIL CLASSIFICATION
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147 HI
PAGE L-1
LABORATORY TEST RESULTS
MAXIMUM DRY DENSITY AND OPTIMUM MOISTURE CONTENT (ASTM D1557)
The maximum dry density and optimum moisture content of the fill materials as determined by ASTM
D1557, Procedures A and B which use 25 blows of a 10-pound slide hammer falling from a height of 18
inches on each of 5 equal layers in a 4-inch diameter 1/30 cubic foot compaction cylinder and Procedure C
which uses 56 blows of a 10-pound slide hammer falling from a height of 18 inches on each of 5 equal
layers in a 6-inch diameter 1/13.3 cubic foot compaction cylinder are presented as follows:
SOIL TYPE/
PROCEDURE DESCRIPTION
MAXIMUM
DRY DENSITY
(PCF)
OPTIMUM
MOISTURE
CONTENT
(0/ LOCATION
1/A
2/A
REDDISH BROWN CLAYEY SAND 124.0
DARK BROWN CLAYEY SAND 125.0
12.0 TP-1@2.0'
10.4 TP-1 (S 14.0'
EXPANSION INDEX TEST (ASTM D4829)
INITIAL SATURATED INITIAL DRY
MOISTURE MOISTURE DENSITY EXPANSION
CONTENTf%) CONTENTC%) (PCF) INDEX LOCATION
11.1 23.3 106.7 33 TP-1 @2.0'
14.2 29.3 96.8 151 TP-1 @ 11.0'
PARTICLE SIZE ANALYSIS (ASTM D422)
U.S. Standard Percent Passing Percent Passing Percent Passing Percent Passing
Sieve Size TP-1 @ 7.0' TP-2@3.0' TP-4@ 10.0' TP-5 @ 8.0'
Alluvium Fill Alluvium Alluvium
2" 100
1" 100 78 -100
1/2" 96 61 -93
3/8" 96 58 -92
#4 96 52 100 88
#8 85 46 98 80
#16 78 37 87 65
#30 72 26 77 45
#50 62 16 68 24
#100 43 9 60 8
#200 31 6 54 5
USCS SC SP-SC CL SW-SM
17
Direct Shear Test Results
4.5
C> 3.0
w
0)
ii 2.5 (0
.c
• Shear Strength at 0.2 inches
of Deformation
1
*
>
*
*
0^
* *
*
*
*
SAMPLE DESCRIPTION
INTERNAL
FRICTION
ANGLE(DEG.)
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0
Confining Pressure (ksf)
COHESION
INTERCEPT
(PSF)
Vista La Costa Brown Silty Sand (Remold to 90%)
Shear Strength! at
0.2 Indies of Deformation
27 320
SOUTHERN CALIFORNIA
SOIL & TESTING
East Co. Soils
BY: CA
JOB NUMBER: 1212031
DATE: 3/16/2012
SYMBOL LOCATION DEPTH
(ft)
LL (==)
TP-i 11.0' 45.3
PL (%)
;i.o
•Pl (%) U.S.C.S.
(Entire Sarriple)
CL
30 40 50 60
LIQUID LIMIT (LL)
Plasllclty Chart FIG. 4
?=:'.."0R!.ti3 IN G^NCrAL ACCOF.CA.NCI WIT:-i ASTiwi 0^.312-93 j
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
(619) 258-7901
Fax 258-7902
ATTEr.EE^.G LIMITS TEST RESULTS ^
UIVERSIF J. ED DEVEi^OPMEiN T
VISTA LA COSTA PROJECT
FP.CJECT NC. DA I;
12-1147H1 3/2/12
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-I147H1
REFERENCES
1. "2010 Califomia Building Code, California Code of Regulations, Title 24, Part 2, Volume 2 of 2",
Published by International Code Council.
2. "Eqfault/ Eqsearch, Version 3.0", by Blake, T.F., 2000, Updated 2008.
3. "Limited Site Investigation, Proposed 26-Unit Apartment Complex, North Side of La Costa Avenue,
West of Romeria Street, City of Carlsbad, California", Project No. 01-114701(1), Prepared by East
County Soil Consultation and Engineering, Inc., Dated June 9, 2001.
4. "Geotechnical and Foundation Engineering: Design and Construction", by Robert W. Day, 1999.
5. "1997 Uniform Building Code, Volume 2, Structural Engineering Design Provisions", Published by
Intemational Conference of Building Officials
6. "Maps of Known Active Fault Near-Source Zones in Califomia and Adjacent Portions of Nevada to
be used with the 1997 Uniform Building Code", Published by Intemational Conference of Building
Officials.
7. "Geologic Maps of the Northwestern Part of San Diego County, Califomia", Department of
Conservation, Division of Mines and Geology, by Siang S. Tan and Michael P. Kennedy, 1996.
8. "Bearing Capacity of Soils, Technical Engineering and Design Guides as Adapted from the US
Army Corps of Engineers, No. 7", Published by ASCE Press, 1994.
9. "Foundations and Earth Structures, Design Manual 7.2", by Department of Navy Naval Facilities
Engineering Command, May 1982, Revalidated by Change 1 September 1986.
10. "Ground Motions and Soil Liquefaction during Earthquakes", by H.B. Seed and I.M. Idriss, 1982.
18
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
(619) 258-7901
Fax 258-7902
Diversified Development March 2,2012
24335 Prielipp Road, Suite 112 Project No. 12-1147H1
Wildomar, Califomia 92595
Subject: Limited Geotechnical Investigation
Vista La Costa Residential Development
Lots 21 & 22 Gibraltar Street
APN 216-290-20,21 & 216-290-47
Carlsbad, Califomia 92009
Ladies & Gentlemen:
In accordance with your request, we have performed a limited geotechnical investigation at the
subject site to discuss the geotechnical aspects of the project and provide recommendations for the
proposed development.
Our investigation has found that the proposed building pads are underlain by topsoil,
undocumented fill and alluvium to depths ranging from approximately 7 to 15 feet below existing
grades. These soils were underlain by dense sandstone/claystone of the Santiago Formation to the
explored depth of 17 feet. It is our opinion that the development of the proposed residential project
is geotechnically feasible provided the recommendations herein are implemented in the design and
construction.
Should you have any questions with regard to the contents of this report, please do not hesitate to
contact our office.
Respectfully submitted,
Mamadou Saiiou Diallo, P.E.
RCE 54071, GE 2704
MSD\md
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
TABLE OF CONTENTS
INTR0DUCTI(3N 3
SCOPE OF SERVICES 3
SITE DESCRIPTION AND PROPOSED CONSTRUCTION 3
FIELD INVESTIGATION AND LABORATORY TESTING 4
GEOLOGY 4
Geologic Setting 4
Site Stratigraphy 4
SEISMICITY 5
Regional Seismicity 5
Seismic Analysis 5
2010 CBC Seismic Design Criteria 6
Geologic Hazard Assessment 6
GEOTECHNICAL EVALUATION 7
Compressible Soils 7
Expansive Soils 7
Groundwater 7
CONCLUSIONS AND RECOMMENDATIONS 8
GRADING AND EARTHWORK 8
Clearing and Gmbbing 8
Structural Improvement of Soils 8
Transitions Between Cut and Fill 9
Method and Criteria of Compaction 9
Erosion Control 9
Standard Grading Guidelines 9
FOUNDATIONS AND SLABS 10
SETTLEMENT 10
PRESATURATION OF SLAB SUBGRADE 10
RETAINING WALLS 11
TEMPORARY SLOPES 11
TRENCH BACKFILL 11
DRAINAGE 12
FOUNDATION PLAN REVIEW 12
LIMITATIONS OF INVESTIGATION 12
ADDITIONAL SERVICES 13
PLATES
Plate 1- Location of Exploratory Boreholes
Plate 2 - Summary Sheet (Exploration Borehole Logs)
Plate 3 - USCS Soil Classification Chart
PAGE L-1, LABORATORY TEST RESULTS 17
REFERENCES 18
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
INTRODUCTION
This is to present the findings and conclusions of a limited geotechnical investigation for the
proposed constmction of three 3-story residential buildings over basement garages to be located on
the north side of Gibraltar Street, in the City of Carlsbad, Califomia.
The objectives of the investigation were to evaluate the existing soils conditions and provide
recommendations for the proposed development.
SCOPE OF SERVICES
The following services were provided during this investigation:
O Site reconnaissance and review of published geologic, seismological and geotechnical reports
and maps pertinent to the project area
O Subsurface exploration consisting of five (5) test pits within the limits of the proposed area of
development. The test pits were logged by our Staff Geologist.
O Collection of representative soil samples at selected depths. The obtained samples were sealed
in moisttire-resistant containers and transported to the laboratory for subsequent analysis.
O Laboratory testing of samples representative of the types of soils encountered during the field
investigation
O Geologic and engineering analysis of the field and laboratory data, which provided the basis
for our conclusions and recommendations
O Production of this report, which summarizes the results of the above analysis and presents our
findings and recommendations for the proposed development
SITE DESCRIPTION AND PROPOSED CONSTRUCTION
The subject site which comprises two lots (Lots 21 and 22) is located on the north side of Gibraltar
Street, in the City of Carlsbad, Califomia. The vacant property encompasses an area of
approximately 38000 square feet. The lots were graded into two terraced pads with an elevation
difference of approximately 6 feet. Vegetation consisted of grass, shmb and a few trees. Site
boundaries include Gibraltar Street to the south, residential parcels to the west and east and La
Costa Golf Course to the north.
The revised drawings prepared by O'Day Consultants of Carlsbad, Califomia indicate that the
proposed constmction will include three residential buildings. It is our imderstanding that the
stmctures will be three-story over basement garages. Associated improvements will include asphalt
concrete and pervious pavements, a concrete sidewalk, landscaping and other appurtenances.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
FIELD INVESTIGATION AND LABORATORY TESTING
On Febmary 22, 2012, five (5) test pits were excavated to a maximum depth of approximately 17
feet below existing grade with a Case CX 135 trackhoe. The approximate locations of the test pits
are shown on the attached Plate No. I, entitled "Location of Exploratory Test pits". A continuous
log of the soils encountered was recorded at the time of excavation and is shown on Plate No. 2
entitled "Summary Sheet". The soils were visually and texturally classified according to the filed
identification procedures set forth on Plate No. 3 entitled "USCS Soil Classification".
Following the field exploration, laboratory testing was performed to evaluate the pertinent
engineering properties of the foundation materials. The laboratory-testing program included
moisture and density, maximum dry density and optimum moisture content, particle size analysis,
Atterberg limits and expansion index tests. These tests were performed in general accordance with
ASTM standards and other accepted methods. Page L-1 and Plate No. 2 provide a summary of the
laboratory test results.
GEOLOGY
Geologic Setting
The subject site is located within the southem portion of what is known as the Peninsular Ranges
Geomorphic Province of Califomia. The geologic map pertaining to the area indicates that the site is
underlain by sandstone/claystone of the Santiago Formation (Tsa).
Site Stratigraphy
The subsurface descriptions provided are interpreted from condifions exposed during the field
investigation and/or inferred fi-om the geologic literature. Detailed descriptions of the subsurface
materials encountered during the field investigation are presented on the exploration logs provided on
Plate No. 2. The following paragraphs provide general descriptions of the encountered soil types.
Topsoil
Topsoil is the surficial soil material that mantles the ground, usually containing roots and other organic
materials, which supports vegetation. Topsoil was observed in all test pits with a thickness of
approximately 6 inches. It consisted of dark brovm, silty sand that was damp to moist, loose and
porous in consistency with some organics (roots and rootlets).
Undocumented Fill (Quf)
Undocumented fill soils were encountered below the topsoil with a thickness ranging from
approximately 2 to 7 feet. They generally consisted of reddish brown, clayey sand with gravel that
was moist and medium dense in consistency.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
Alluvium (Qal)
Alluvium was underlying the fill with a thickness ranging between approximately 5 and 10 feet. The
material generally consisted of dark brown, sandy clay/ clayey sand with gravel that was moist to wet
and soft to medium stiff in consistency.
Santiago Formation (Tsa)
Sandstone/claystone of the Santiago Formation was encountered below the alluvium. The material
generally consisted of light-colored clayey sand that was moist and dense in consistency.
SEISMICITY
Regional Seismicity
Generally, Seismicity within Califomia can be attributed to the regional tectonic movement taking
place along the San Andreas Fault Zone, which includes the San Andreas Fault and most parallel
and subparallel faults within the state. The portion of southem Califomia where the subject site is
located is considered seismically active. Seismic hazards are attributed to groundshaking from
earthquake events along nearby or more distant Quatemary faults. The primary factors in
evaluating the effect an earthquake has on a site are the magnitude of the event, the distance from
the epicenter to the site and the near surface soil profile.
According to the Fault-Rupture Hazard Zones Act of 1994 (revised Alquist-Priolo Special Studies
Zones Act), quatemary faults have been classified as "active" faults, which show apparent surface
mpture during the last 11,000 years (i.e., Holocene time). "Potentially-active" faults are those faults
with evidence of displacing Quatemary sediments between 11,000 to 16,000 years old.
Seismic Analysis
Based on our evaluation, the closest known "active" fault is the Rose Canyon Fault located
approximately 7 miles (11 kilometers) to the west. The Rose Canyon Fault is the design fault of the
project due to the predicted credible fault magnitude and ground acceleration.
The Seismicity of the site was evaluated utilizing deterministic methods (Eqseach/ Eqfault ver 3.0,
Blake, 2008) for active Quatemary faults within the regional vicinity. The site may be subjected to
a Maximum Probable Earthquake of 6.9 Magnitude along the Rose Canyon fault, with a
corresponding Peak Ground Acceleration of 0.40g. The maximum Probable Earthquake is defined
as the maximum earthquake that is considered likely to occur within a 100-year time period.
The effective ground acceleration at the site is associated with the part of significant ground
motion, which contains repetitive strong-energy shaking, and which may produce stmctural
deformation. As such, the effective or "free field" ground acceleration is referred to as the
Repeatable High Ground Acceleration (RHGA). It has been determined by Ploessel and Slosson
(1974) that the RHGA is approximately equal to 65 percent of the Peak Ground Acceleration for
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
earthquakes occurring within 20 miles of a site.
RHGA at the site is 0.0.26g.
2010 CBC Seismic Design Criteria
Based on the above, the calculated Credible
A review of the active fault maps pertaining to the site indicates the existence of the Rose Canyon
Fault Zone approximately 11 km to the west. Ground shaking from this fault or one of the major
active faults in the region is the most likely happening to affect the site. With respect to this
hazard, the site is comparable to others in the general area. The proposed residential stmctures
should be designed in accordance with seismic design requirements of the 2010 Califomia Building
Code or the Structural Engineers Association of Califomia using the following seismic design
parameters:
PARAMETER VALUE 2010 CBC REFERENCE
Site Class D Table 1613.5.2
Mapped Spectral Acceleration For
Short Periods, Ss
1.136 Figure 1613.5(3)
Mapped Spectral Acceleration For a
1-Second Period, Si
0.427 Figure 1613.5(4)
Site Coefficient, Fj 1.046 Table 1613.5.3(1)
Site Coefficient, Fv 1.573 Table 1613.5.3(2)
Geologic Hazard Assessment
Ground Rupture
Ground mpture due to active faulting is not considered likely due to the absence of known fault traces
within the vicinity of the project; however, this possibility cannot be completely mled out. The
unlikely hazard of ground mpture should not preclude consideration of "flexible" design for on-site
utility lines and cormections.
Liquefaction
Liquefaction involves the substantial loss of shear strength in saturated soils, usually sandy soils with a
loose consistency when subjected to earthquake shaking. Based on the absence of shallow
groundwater and consistency of the underlying sandstone/claystone of the Santiago Formation, it is
our opinion that the potential for liquefaction is very low.
Landsliding
There is no indication that landslides or unstable slope conditions exist on or adjacent to the project
site. There are no obvious geologic haz£irds related to landsliding to the proposed development or
adjacent properties.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-I147H1
Tsunamis and Seiches
The site is not subject to inundation by tsunamis due to its elevation and distance from the ocean.
The site is also not subject to seiches (waves in confined bodies of water).
GEOTECHNICAL EVALUATION
Based on our investigation and evaluation ofthe collected information, we conclude that the proposed
constmction is feasible fi-om a geotechnical standpoint provided the recommendations provided herein
will be properly implemented during stmctural development.
In order to provide a uniform support for the proposed stmctures, overexcavation and recompaction of
the stmctural portions of the building pads will be required. The foundations may consist of
reinforced continuous and/ or spread footings with reinforced concrete slabs-on grade floors.
Recommendations and criteria for foundation design are provided in the Foimdation recommendations
section of this report.
Compressible Soils
Our field observations and testing indicate low compressibility within the dense sandstone/claystone
of the Santiago Formation, which imderlies the site. However, loose topsoil, undocumented fill and
alluvium were encountered to depths ranging fi-om approximately 7 to 15 feet below existing grades.
These soils are compressible and the alluvium is highly expansive. Due to the potential for soil
compression upon loading, remedial and select grading of these loose and expansive soils, including
overexcavation and recompaction will be required.
Following implementation of the earthwork recommendations presented herein, the potential for soil
compression resulting from the new development has been estimated to be low. The low-settlement
assessment assumes a well-plarmed and maintained site drainage system. Recommendations
regarding mitigation by earthwork constmction are presented in the Grading and Earthwork
recommendations section of this report.
Expansive Soils
Expansion index tests were performed on representative samples of the fill and alluvium to
determine volumetric change characteristics with change in moisture content. Expansion indexes
of 33 and 151 were obtained respectively which indicates a low to very high expansion potential
for the subgrade soils.
Groundwater
Static groundwater was not encountered to the depths of the test pits. The subject site is located at
elevations between approximately 50 and 60 feet above Mean Sea Level. We do not expect
groundwater to affect the proposed constmction. Recommendations to prevent or mitigate the
effects of poor surface drainage are presented in the Drainage section of this report.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-1I47H1
CONCLUSIONS AND RECOMMENDATIONS
The following conclusions and recommendations are based upon the analysis of the data and
information obtained from our soil investigation. This includes site reconnaissance; field
investigation; laboratory testing and our general knowledge of the soils native to the site. The site is
suitable for the proposed residential development provided the recommendations set forth are
implemented during constmction.
GRADING AND EARTHWORK
Based upon the proposed constmction and the information obtained during the field investigation, we
anticipate that the proposed stmctures will be fotmded on continuous and/ or spread footings, which
are supported by properly compacted fill. The following grading and earthwork recommendations are
based upon the limited geotechnical investigation performed, and should be verified during
constmction by our field representative.
Clearing and Grubbing
All areas to be graded or to receive fill and/or stmctures should be cleared of vegetation. Vegetation
and the debris from the clearing operation should be properly disposed of off-site. The area should be
thoroughly inspected for any possible buried objects, which need to be rerouted or removed prior to
the inception of, or during grading. All holes, trenches, or pockets left by the removal of these objects
should be properly backfilled with compacted fill materials as recommended in the Method and
Criteria of Compaction section of this report.
Structural Improvement of Soils
Information obtained from our field and laboratory analysis indicates that loose topsoil, undocumented
fill and alluvium cover the building pads to depths of approximately 7 to 15 feet below existing grade.
These subgrade soils are susceptible to settlement upon loading. Based upon the soil characteristics,
we recommend the following:
* All topsoil, undocumented fill and alluvium should be completely removed from areas, which
are planned to receive compacted fills and/or stmctural improvements. The bottom of the
removal area should expose competent materials as approved by ECSC&E geotechnical
representative. Prior to the placement of new fill, the bottom of the removal area should be
scarified a minimum depth of 6 inches, moisture-conditioned within 2 percent above the
optimum moisture content, and then recompacted to at least 90 percent relative compaction
(ASTM D1557 test method).
* Overexcavation should be completed for the stmctural building pads to a minimum depth of
4 feet below basement grades. The limit of the required areas of overexcavation should be
extended a minimum of 5 feet laterally beyond the perimeter footings (building footprints).
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
* Soils utilized as fill should be moisture-conditioned and recompacted in conformance with the
following Method and Criteria of Compaction section of this report. The depth and extent of
any overexcavation and recompaction should be evaluated in the field by a representative of
ECSC&E.
Transitions Between Cut and Fill
The proposed stmcture is anticipated to be founded in properly compacted fill. Cut to fill transitions
below the proposed stmcture should be eliminated during the earthwork constmction as required in the
previous section.
Method and Criteria of Compaction
Compacted fills should consist of approved soil material, free of trash debris, roots, vegetation or other
deleterious materials. Fill soils should be compacted by suitable compaction equipment in uniform
loose lifts of 6 to 8 inches. Unless otherwise specified, all soils subjected to recompaction should be
moisture-conditioned within 2 percent over the optimum moisture content and compacted to at least
90 percent relative compaction per ASTM test method D1557.
The on-site soils with the exception of the alluvium, after being processed to delete the
aforementioned deleterious materials, may be used for recompaction purposes. The alluvium which is
highly expansive should not be used as fill witiiin at least 4 feet below basement grades. Should any
importation of fill be planned, tiie intended import source(s) should be evaluated and approved by
ECSCE prior to delivery to the site. Care should be taken to ensure that these soils are not
detrimentally expansive.
Erosion Control
Due to tiie granular characteristics of the on-site soils, areas of recent grading or exposed ground may
be subject to erosion. During constmction, surface water should be controlled via berms, gravel/
sandbags, silt fences, straw wattles, siltation basins, positive surface grades or other method to avoid
damage to the finish work or adjoining properties. All site entrances and exits must have coarse
gravel or steel shaker plates to minimize offsite sediment tracking. Best Management Practices
(BMPs) must be used to protect storm drains and minimize pollution. The contractor should take
measures to prevent erosion of graded areas until such time as permanent drainage and erosion control
measures have been installed. After completion of grading, all excavated surfaces should exhibit
positive drainage and eliminate areas where water might pond.
Standard Grading Guidelines
Grading and earthwork should be conducted in accordance with the standard-of-practice methods for
this local, the guidelines ofthe current edition of the Uniform Building Code, and the requirements of
the jurisdictional agency. Where the information provided in the geotechnical report differs fi-om the
Standard Grading Guidelines, the requirements outlined in the report shall govem.
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
FOUNDATIONS AND SLABS
a. Continuous and spread footings are suitable for use and should extend to a minimum depth of 30
inches below the lowest adjacent grade for the proposed three-story stmctures over basement
garages. Continuous footings should be at least 18 inches in width and reinforced with four #5
steel bars; two bars placed near the top of the footings and the other two bars placed near the
bottom of the footings. Isolated or spread footings should have a minimum width of 24 inches.
Their reinforcement should consist of a minimum of #5 bars spaced 12 inches on center (each way)
and placed horizontally near the bottom. The minimum reinforcement recommended is based on
geotechnical considerations and is not intended to supercede the stmctural engineer requirements.
b. Interior floor slabs for the basement garages should be a minimum 5-inch thick. Reinforcement
should consist of #3 bars placed at 16 inches on center each way within the middle third of the
slabs by supporting the steel on chairs or concrete blocks "dobies". The slabs should be underlain
by 2 inches of clean sand over a 10-mil visqueen moisture barrier and a capillary break at least 2
inches thick, consisting of coarse sand, gravel or cmshed rock not exceeding 3/4 inch in size with
no more than 5 percent passing the #200 sieve. The effect of concrete shrinkage will result in
cracks in virtually all-concrete slabs. To reduce the extent of shrinkage, the concrete should be
placed at a maximum of 4-inch slump. The minimum steel recommended is not intended to
prevent shrinkage cracks.
c. An allowable soil bearing value of 2,000 pounds per square foot may be used for the design of
continuous and spread footings at least 12 inches wide and founded a minimum of 12 inches into
properly compacted fill soils as set forth in the 2010 Califomia Building Code, Table 1804.2. This
value may be increased by 400 psf for each additional foot of depth or width to a maximum value
of 4,000 lb/ft2.
d. Lateral resistance to horizontal movement may be provided by the soil passive pressure and the
friction of concrete to soil. An allowable passive pressure of 250 pounds per square foot per foot
of depth may be used. A coefficient of firiction of 0.35 is recommended. The soils passive pressure
as well as the bearing value may be increased by 1/3 for wind and seismic loading.
SETTLEMENT
Settlement of compacted fill soils is normal and should be anticipated. Because of the minor
thickness of the fill soils anticipated under the proposed footings, total and differential settlements
should be within acceptable limits.
PRESATURATION OF SLAB SUBGRADE
Due the granular characteristics and low expansion potential of the anticipated foundation soils,
presoaking of subgrade prior to concrete pour is not required. However, subgrade soils in areas
receiving concrete should be watered prior to concrete placement to mitigate any drying shrinkage,
which may occur following site grading.
10
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-II47HI
RETAINING WALLS
Cantilevered retaining walls should be designed for an "active" lateral earth pressure of 35 psf/ft (35
pcf EFP) for approved granular and level backfill conditions. Where the walls support 2H:1V sloping
backfill, the equivalent fluid pressure should be increased to 45 pcf Cantilever walls subject to
uniform surcharge loads should be designed for an additional imiform lateral pressure equal to one-
third (1/3) the anticipated surcharge pressure. An additional lateral earth pressure due to earthquake
motions of 25 pcf (EFP) may be applied using an inverted triangular distribution if required.
Restrained walls such as basement walls should be designed utilizing an "at-rest" earth pressure of 60
psfft (60 pcf EFP) for approved granular and level backfill. Restrained walls subject to uniform
surcharge loads should be designed for an additional uniform lateral pressure equal to one-half (1/2)
the anticipated surcharge.
Soil design criteria, such as bearing capacity, passive earth pressure and sliding resistance as
recommended under the Foundation and Slab Recommendations section, may be incorporated into the
retaining wall design.
Footings should be reinforced as recommended by the stmctural engineer and appropriate back
drainage provided to avoid excessive hydrostatic wall pressures. As a minimum we recommend a
fabric-wrapped cmshed rock and perforated pipe system. At least 2 cubic feet per linear foot of free-
drainage cmshed rock should be provided.
The remaining wall backfill should consist of approved granular material. This fill material should
be compacted to a minimum relative compaction of 90 percent as determined by ASTM D-1557
test method. Flooding or jetting of backfill should not be permitted. Granular backfill should be
capped with 18 inches (minimum) of relatively impervious fill to seal the backfill and prevent
saturation. It should be noted that the use of heavy compaction equipment in close proximity to
retaining stmctures can result in wall pressures exceeding design values and corresponding wall
movement greater than that associated with active or at-rest conditions. In this regard, the
contractor should take appropriate precautions during the backfill placement.
TEMPORARY SLOPES
For the excavation of foundations and utility trenches, temporary vertical cuts to a maximum height of
4 feet may be constmcted in fill or natural soil. Any temporary cuts beyond the above height
constraints should be shored or further laid back following a 1:1 (horizontal to vertical) slope ratio.
OSHA guidelines for trench excavation safety should be implemented during constmction.
TRENCH BACKFILL
Excavations for utility lines, which extend under structural areas should be properly backfilled and
compacted. Utilities should be bedded and backfilled with clean sand or approved granular soil to
a depth of at least one foot over the pipe. This backfill should be uniformly watered and
compacted to a firm condition for pipe support. The remainder of the backfill should be on-site
11
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
soils or non-expansive imported soils, which should be placed in thin lifts, moisture-conditioned
and compacted to at least 90% relative compaction.
DRAINAGE
Adequate measures should be undertaken to properly finish grade the site after the stmcture and
other improvements are in place, such that the drainage water within the site and adjacent
properties is directed away from the foundations, footings, floor slabs and the tops of slopes via
rain gutters, downspouts, surface swales and subsurface drains towards the natural drainage for this
area. A minimum gradient of 1 percent is recommended in hardscape areas. For earth areas, a
minimum gradient of 5 percent away from the structure for a distance of at least 5 feet should be
provided. Earth swales should have a minimum gradient of 2 percent. Drainage should be directed
to approved drainage facilities. Proper surface and subsurface drainage will be required to
minimize the potential of water seeking the level of the bearing soils under the foundations,
footings and floor slabs, which may otherwise result in undermining and differential settlement of
the stmcture and other improvements.
FOUNDATION PLAN REVIEW
Our firm should review the foimdation plans during the design phase to assure conformance with the
intent of this report. During constmction, foundation excavations should be observed by our
representative prior to the placement of forms, reinforcement or concrete for conformance with the
plans and specifications.
LIMITATIONS OF INVESTIGATION
Our investigation was performed using the skill and degree of care ordinarily exercised, under similar
circumstances, by reputable soils engineers and geologists practicing in this or similar localities. No
other warranty, expressed or implied, is made as to the conclusions and professional advice included in
this report. This report is prepared for the sole use of our client and may not be assigned to others
without the written consent of the client and ECSC&E, Inc.
The samples collected and used for testing, and the observations made, are believed representative of
site conditions; however, soil and geologic conditions can vary significantiy between exploration
trenches, boreholes and surface exposures. As in most major projects, conditions revealed by
constmction excavations may vary with preliminary findings. If this occurs, the changed conditions
must be evaluated by a representative of ECSC&E and designs adjusted as required or altemate
designs recommended.
This report is issued with the understanding that it is the responsibility of the owner, or of his
representative to ensure that the information and recommendations contained herein are brought to the
attention of the project architect and engineer. Appropriate recommendations should be incorporated
into the stmctural plans. The necessary steps should be taken to see that the contractor and
subcontractors carry out such recommendations in the field.
12
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-1147HI
The findings of this report are valid as of this present date. However, changes in the conditions of a
property can occur with the passage of time, whether they are due to natural processes or the works of
man on this or adjacent properties. In addition, changes in applicable or appropriate standards may
occur from legislation or the broadening of knowledge. Accordingly, tiie findings of this report may
be invalidated wholly or partially by changes outside of our control. Therefore, this report is subject to
review and should be updated after a period of two years.
ADDITIONAL SERVICES
The review of plans and specifications, field observations and testing under our direction are integral
parts of the recommendations made in this report. If East County Soil Consultation and Engineering,
Inc. is not retained for these services, the client agrees to assume our responsibility for any potential
claims that may arise during constmction. Observation and testing are additional services, which are
provided by our firm, and should be budgeted within the cost of development.
Plates No. 1 through 3, Page L-1 and References are parts of this report.
13
N
EAST COUNTY SOIL CONSULTATION
& ENGINEERING, INC.
10925 HARTLEY RD.. SUITE I. SANTEE. CA 92071
(619)258-7901 Fax (619) 25«-7902
•^-y/^ry// Ayo. /
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-I147HI
PLATE NO. 2
SUMMARY SHEET
DEPTH
Surface
0.5'
2.0'
7.0'
12.0'
13.5'
15.0'
17.0'
TEST PIT NO. 1
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
ff ff ff ff ff ff ff
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
dark brown, damp to moist, loose to medium dense, clayey sand
108.5
103.6
106.7
113.6
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense, clayey sand with gravel
bottom of test pit, no caving, no groundwater,
test pit backfilled and compacted with sheepsfoot roller 2/22/12
M
15.9
20.6
14.8
11.6
TEST PIT NO. 2
DEPTH
Surface
0.5'
3.0'
5.0'
8.0'
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
fi ft ft ft tt ft It
ALLUVIUM (Qal)
dark brown, damp to moist, loose to medium dense, clayey sand
SANTIAGO FORMATION (Tsa)
light reddish brown, moist, very dense, clayey sand with gravel
refusal, bottom of test pit, no caving, no groundwater
test pit backfilled with sheepsfoot roller 2/22/12
Y M
120.4 7.6
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
14
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. I2-1147HI
PLATE NO. 2 (Continued)
SUMMARY SHEET
DEPTH
Surface
0.5'
1.5'
2.0'
4.0'
7.0'
8.0'
13.0'
TEST PIT NO. 3
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
It ft It It It II It
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
It It It ft ft II If
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense,
silty sand/ clayey sand with gravel
ft ft It It It tt It
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
113.7
105.8
118.2
M
12.4
17.2
9.7
DEPTH
Surface
0.5'
2.0'
7.0'
8.0'
10.0'
13.0'
14.0'
TEST PIT NO. 4
SOIL DESCRIPTION
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
It ft ft ft ft ft It
dark brown, moist to wet, loose to medium dense,
clayey sand with gravel
ft tl ft ft M It fl
SANTIAGO FORMATION (Tsa)
light reddish brown, moist, dense, clayey sand with gravel
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
Y
102.0
88.7
M
17.6
23.0
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
15
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
PLATE NO. 2 (Continued)
SUMMARY SHEET
DEPTH
Surface
0.5'
3.0'
8.0'
13.0'
14.0'
TEST PIT NO. 5
SOIL DESCRIPTION Y
TOPSOIL
dark brown, damp to moist, loose, porous, silty sand with rootlets
UNDOCUMENTED FILL (Quf)
reddish brown, moist, medium dense, clayey sand with gravel
ALLUVIUM (Qal)
dark brown, moist to wet, soft to medium stiff, sandy clay
reddish brown, damp to moist medium dense, poorly-graded sand 110.1
SANTIAGO FORMATION (Tsa)
light reddish gray, moist, medium dense to dense, silty sand/ clayey sand
bottom of test pit, no caving, no groundwater
test pit backfilled and compacted with sheepsfoot roller 2/22/12
M
7.8
Y = DRY DENSITY IN PCF M = MOISTURE CONTENT IN %
16
MAJOR DIVISIONS SYMBOL DESCRIPTION
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN '/i
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GW WELL GRADED GRAVELS OR GRAVEL- SAND
MIXTURES, LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN '/i
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GP POORLY GRADED GRAVELS OR GRAVEL-SAND
MIXTURES, LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN '/i
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE)
GM SILTY GRAVELS, GRAVEL-SAND-SILT MIXTURES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
GRAVELS
(MORE THAN '/i
OF COARSE
FRACTION
>N0. 4 SIEVE
SIZE) GC CLAYEY GRAVELS, GRAVEL-SAND-CLAY MIXTURES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN Vz
OF COARSE
FRACTION
< NO. 4 SIEVE
SIZE)
SW WELL GRADED SANDS OR GRAVELLY SANDS,
LITTLE OR NO FINES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN Vz
OF COARSE
FRACTION
< NO. 4 SIEVE
SIZE)
SP POORLY GRADED SANDS OR GRAVELLY SANDS,
LTTTLEORNO FINES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN Vz
OF COARSE
FRACTION
< NO. 4 SIEVE
SIZE)
SM SILTY SANDS, SILT-SAND MIXTURES
COARSE
GRAINED SOILS
(MORE THAN Vi OF SOIL
> NO. 200 SIEVE SIZE)
SANDS
(MORE THAN Vz
OF COARSE
FRACTION
< NO. 4 SIEVE
SIZE)
SC CLAYEY SANDS, SAND-CLAY MIXTURES
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50
ML INORGANIC SILTS AND VERY FINE SANDS, ROCK
FLOUR, SILTY OR CLAYEY FINE SANDS OR CLAYEY
SILTS WITH SLIGHT PLASTICITY
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50
CL INORGANIC CLAYS OF LOW TO MEDIUM
PLASTICITY, GRAVELLY CLAYS, SANDY CLAYS,
SILTY CLAYS, LEAN CLAYS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE)
SILTS &
CLAYS
LIQUID LIMIT
<50 OL ORGANIC SILTS AND ORGANIC SILTY CLAYS OF
LOW PLASTICITY
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE) SILTS &
CLAYS
LIQUID LIMFT
>50
MH INORGANIC SILTS, MICACEOUS OR DIATOMACEOUS
FINE SANDY OR SILTY SOILS, ELASTIC SILTS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE) SILTS &
CLAYS
LIQUID LIMFT
>50
CH INORGANIC CLAYS OF HIGH PLASTICTTY, FAT
CLAYS
FINE GRAINED
SOILS
(MORE THAN '/j OF SOIL
< NO. 200 SIEVE SIZE) SILTS &
CLAYS
LIQUID LIMFT
>50 OH ORGANIC CLAYS OF MEDIUM TO HIGH PLASTICTTY,
ORGANIC SILTY CLAYS, ORGANIC SILTS
HIGHLY ORGA^ nc SOILS Pt PEAT AND OTHER HIGHLY ORGANIC SOILS
CLASSIFICATION CHART (UNIFIED SOIL CLASSIFICATION SYSTEM)
CLASSIFICATION RANGE OF GRAIN SIZES
U.S. STANDARD GRAIN SIZE IN
SIEVE SIZE MILLIMETERS
BOULDERS Above 12 Inches Above 305
COBBLES 12 Inches To 3 Inches 305 To 76.2
GRAVEL 3 Inches to No. 4 76.2 to 4.76
Coarse 3 Inches to '/< Inch 76.2 to 19.1
Fine '/< Inch to No. 4 19.1 to 4.76
SAND No. 4 to No. 200 4.76 to 0.074
Coarse No. 4 to No. 10 4.76 to 2.00
Medium No. 10 to No. 40 2.00 to 0.420
Fine No. 40 to No. 200 0.420 to 0.074
SILT AND CLAY Below No. 200 Below 0.074
GRAIN SIZE CHART PLASTICITY CHART
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
U.S.C.S. SOIL CLASSIFICATION
DIVERSIFIED DEVELOPMENT PROJECT
PROJECT NO. 12-lU71ii
PLATE 3
T'lARCH 2, 2012
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147H1
PAGE L-1
LABORATORY TEST RESULTS
MAXIMUM DRY DENSITY AND OPTIMUM MOISTURE CONTENT (ASTM D1557)
The maximum dry density and optimum moisture content of the fill materials as determined by ASTM
D1557, Procedures A and B which use 25 blows of a 10-pound slide hammer falling from a height of 18
inches on each of 5 equal layers in a 4-inch diameter 1/30 cubic foot compaction cylinder and Procedure C
which uses 56 blows of a 10-pound slide hammer falling from a height of 18 inches on each of 5 equal
layers in a 6-inch diameter 1/13.3 cubic foot compaction cylinder are presented as follows:
SOIL TYPE/
PROCEDURE DESCRIPTION
MAXIMUM
DRY DENSITY
(PCF)
OPTIMUM
MOISTURE
CONTENT
mt LOCATION
1/A
2/A
REDDISH BROWN CLAYEY SAND 124.0
DARK BROWN CLAYEY SAND 125.0
12.0
10.4
TP-1 (§2.0'
TP-1 (g 14.0'
EXPANSION INDEX TEST (ASTM D4829)
INITIAL SATURATED INITIAL DRY
MOISTURE MOISTURE DENSITY EXPANSION
CONTENT(%) CONTENT(%) (PCF) INDEX LOCATION
11.1 23.3 . 106.7 33 TP-1 (§2.0'
14.2 29.3 96.8 151 TP-1 @ 11.0'
PARTICLE SIZE ANALYSIS (ASTM D422)
U.S. Standard Percent Passing Percent Passing Percent Passing Percent Passing
Sieve Size TP-1 (g 7.0' TP-2 (g3.0' TP-4@ 10.0' TP-5 @ 8.0'
Alluvium Fill Alluvium Alluvium
2" 100
1" 100 78 -100
1/2" 96 61 -93
3/8" 96 58 -92
#4 96 52 100 88
#8 85 46 98 80
#16 78 37 87 65
#30 72 26 77 45
#50 62 16 68 24
#100 43 9 60 8
#200 31 6 54 5
USCS SC SP-SC CL SW-SM
17
SYMBOL LOCATION DEPTH
(ft)
LL (%) PL (%) •PI (%) U.S.C.S.
(Entire Saniple)
TP-1 11.0' 45. :i.o >4.8 CL
40 50 60 70
L IQUID LIMIT (LL)
Pl»sllcily Chart FIG. 4
?Z"0r.uZ2 IN CtSZ?..^l ACCOHOANCi WI7:-i ASTivt Qi3;2-93
EAST COUNTY SOIL CONSULTATION
AND ENGINEERING, INC.
10925 HARTLEY ROAD, SUITE "I"
SANTEE, CALIFORNIA 92071
(619) 258-7901
Fax 258-7902
A I I EnEE^G LIMITS TEST RESULTS
DIVERS IF J.ED DEVE 1.OPKENT
VISTA LA COSTA PROJECT
rr.CJECT NC. DATE
I2-1147H1 3/2/12
FGL'.=.=,
DIVERSIFIED DEVELOPMENT/ VISTA LA COSTA PROJECT NO. 12-1147HI
REFERENCES
1. "2010 Califomia Building Code, Califomia Code of Regulations, Titie 24, Part 2, Volume 2 of 2",
Published by Intemational Code Council.
2. "Eqfault/ Eqsearch, Version 3.0", by Blake, T.F., 2000, Updated 2008.
3. "Limited Site Investigation, Proposed 26-Unit Apartment Complex, North Side of La Costa Avenue,
West of Romeria Street, City of Carisbad, California", Project No. 01-1147G1(1), Prepared by East
County Soil Consultation and Engineering, Inc., Dated June 9, 2001.
4. "Geotechnical and Foundation Engineering: Design and Construction", by Robert W. Day, 1999.
5. "1997 Uniform Building Code, Volume 2, Stmctural Engineering Design Provisions", Published by
Intemational Conference of Building Officials
6. "Maps of Known Active Fault Near-Source Zones in California and Adjacent Portions of Nevada to
be used with the 1997 Uniform Building Code", Published by International Conference of Building
Officials.
7. "Geologic Maps of the Northwestem Part of San Diego County, Califomia", Department of
Conservation, Division of Mines and Geology, by Siang S. Tan and Michael P. Kennedy, 1996.
8. "Bearing Capacity of Soils, Technical Engineering and Design Guides as Adapted from the US
Army Corps of Engineers, No. 7", Published by ASCE Press, 1994.
9. "Foundations and Earth Structures, Design Manual 7.2", by Department of Navy Naval Facilities
Engineering Command, May 1982, Revalidated by Change 1 September 1986.
10. "Ground Motions and Soil Liquefaction during Earthquakes", by H.B. Seed and I.M. Idriss, 1982.
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