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MOUNTAIN HousF PROPOSED ALTAMONT HEIGHTSTENTATIVE MAP 4. ENVIRONMENTAL CHECKLIST <br /> 4.6 GEOLOGY AND SOILS <br /> c) Be located on a geologic unit or soil that is unstable, or that would become unstable as <br /> a result of the project, and potentially result in on-or off-site landslide, lateral <br /> spreading, subsidence, liquefaction or collapse? <br /> The proposed project is not located in an unstable geologic unit. As stated in the discussion <br /> of Item a) above, the potential for landslides and liquefaction at the site are considered <br /> remote, and construction of the proposed project would not change these conditions. <br /> Following construction of the proposed project,the site would slope down gradually from <br /> east to west at less than four percent, with the exception of Court B. Court B would slope <br /> down to the north at 4.6 percent so the adjoining lots would be at lower elevations than the <br /> rest of the site. Retaining walls, varying in height from four to seven feet, would be installed <br /> along the north and west boundaries of the site. A retaining wall four feet high or less would <br /> be installed along a portion of the southern boundary of the project site, and a retaining wall <br /> three feet high or less would be installed along the southern boundary of flag Lot 50. There <br /> would be little chance of lateral spreading or subsidence provided the engineered fills are <br /> compacted to the appropriate relative compaction. The geological and soils impacts of <br /> constructing the proposed project would be less than significant. <br /> Mitigation Measures <br /> No mitigation measures are required. <br /> d) Be located on expansive soil, as defined in Table 18-1-B of the Uniform Building Code <br /> (1994), creating substantial risks to life or property? <br /> The soils at the project site are expansive. The term generally applies to any soil that has a <br /> potential for swelling with seasonal or man-made increases in moisture content. These soils <br /> also have a potential to shrink or settle due to decreases in moisture content or drying of the <br /> soil (Kleinfelder, 2006). Unless properly mitigated, soil expansion has the potential to cause <br /> cracks in concrete floor slabs and foundations and exterior walls of masonry buildings as well <br /> as wavy surfaces along sidewalks and streets. Given the extensive cut and fill and the <br /> construction of retaining walls which are proposed for the project,proper design and <br /> construction to accommodate the presence of expansive soils will be important. <br /> Methods of controlling expansive soils include constructing post-tensioned slab foundations, <br /> moisture conditioning of soils prior to construction, or replacement of expansive clay soils <br /> with non-expansive fill. Positive site drainage should be provided away from building pads <br /> and pavement areas toward drop inlets or other drainage devices(Kleinfelder,2006). A <br /> geotechnical engineer and a structural engineer(not a civil engineer) should evaluate each <br /> area of the project site during design and construction to determine the appropriate option for <br /> expansive soil control. If the recommendations of the engineers are followed, the impacts of <br /> expansive soils would be)less than significant. <br /> Mitigation Measures <br /> No mitigation measures are required- <br /> 4-32 <br />