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09/09/2013 <br /> Impact: Impact 15-4: Settlement and Foundation Movement The project's preliminary <br /> geotechnical studies determined that structural loads imposed by buildings more <br /> than approximately three stories in height would likely exceed the bearing <br /> capacity of either fill or weakly consolidated Bay mud underlying conventional <br /> shallow foundations. Such buildings would potentially experience gradual but <br /> excessive long-term total and differential settlements. <br /> Mitigation: Mitigation 15-4. The detailed, design-level geotechnical investigations required <br /> under Mitigation 15-1 for each project construction phase shall include a <br /> thickness and consolidation analysis of all clay soils underlying proposed building <br /> locations. This analysis shall be sufficient to accurately estimate the rate and <br /> total amount of consolidation expected to occur in response to building <br /> construction, as well as the likely magnitude of differential settlement. Building <br /> foundations, surface improvements, and utility connections shall be designed to <br /> structurally withstand the associated movement, without disrupting either <br /> pedestrian or vehicular connections to the building. <br /> The requirement described in Mitigation 15-1 for peer review of the <br /> recommended design-level geotechnical investigations, as well as for certification <br /> by the project civil engineer that all provisions of the investigation have been <br /> incorporated into the project's design and construction, would also apply to this <br /> mitigation and to all subsequent geotechnical and soils mitigation measures set <br /> forth in Draft EIR chapter 15 (Geology and Soils). <br /> Finding: Implementation of Mitigation 15-4 would reduce the potential compressible soil <br /> and settlement impacts to a less-than-significant level. <br /> Facts in Support of Finding: Implementation of Mitigation 15-4 would reduce potential <br /> compressible soil and settlement impacts to a less-than-significant level by <br /> requiring detailed, site-specific geotechnical investigations and solutions <br /> prepared by a registered engineering geologist or geotechnical engineer, with <br /> review and approval authority by the City Engineer. These facts are described in <br /> Draft EIR chapter 15 (Geology and Soils) on pages 15-1 through 15-15, which is <br /> hereby incorporated by reference. <br /> Impact: Impact 15-5: Expansive Soils. Near-surface clay soils subjected to seasonal <br /> cycles of wetting and drying can undergo significant volume changes, expanding <br /> when wet and shrinking when dry. Structures based in these materials would be <br /> subjected to significant stresses that could destabilize foundations and cause <br /> cracking or heaving of floor slabs and exterior pavements. <br /> Mitigation: Mitigation 15-5. The detailed, design-level geotechnical investigations required <br /> for each project construction phase under Mitigation 15-1 shall include an <br /> evaluation of the likely effects of building on expansive soils and shall <br /> recommend specific measures designed to minimize soil movement and/or <br /> counter its potentially destructive effects. <br /> Finding: Implementation of Mitigation 15-5 would reduce the potential expansive soil <br /> impacts to a less-than-significant level. <br /> ATTY/RES0.2901/STANFORD EIR CERTIfICATION RESO.#15294 <br /> REV:09-10-13 VR MUFF#100 <br /> Page 19 of 55 <br />