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Trott Brook Crossing EAW August 2021 <br /> on these features. Identify any project designs or mitigation measures to address effects to geologic <br /> features. <br /> The Geologic Atlas of Anoka County, Minnesota(Minnesota Geological Survey 2013)indicates the <br /> surficial geology of the area is characterized by the following three units: <br /> Richfield terrace - Sand and gravelly sand about 50 to 70 feet(15 to 21 meters) above the modern <br /> floodplain,ranging in elevation from about 870 feet(265 meters) in southern Fridley to about 915 <br /> feet(279 meters) in western Ramsey. <br /> Peat and muck-Partially decomposed plant matter deposited in swamps, commonly formed in ice- <br /> block melt-out depressions and in former meltwater channels. Generally mapped only where greater <br /> than 4 feet(1.2 meters)thick. Includes fine-grained organic matter laid down in ponded water,marl <br /> at depth in places, and small bodies of open water. <br /> Sand and clay facies - Generally thinly bedded, clay to sandy silt; silt predominates over clay in most <br /> places. Deposited in ice-block melt-out depressions by slack water of the Mississippi River at the <br /> Richfield terrace level. In places may include exhumed silt and clay of the New Brighton Formation <br /> (unit Qbc). <br /> The estimated depth to bedrock in the project area,based on the Geologic Atlas, generally ranges <br /> between 51 and 350 feet. <br /> Sinkholes and karst lands are not known to occur in western Anoka County where the project is <br /> located. Minnesota Karst Lands and Sinkhole Mapping prepared by Calvin Alexander and others <br /> (2006) does not shows karst lands or sinkholes in or near the project area. The site geology is not <br /> anticipated to be problematic. <br /> b. Soils and topography-Describe the soils on the site, giving NRCS(SCS) classifications and descriptions, <br /> including limitations of soils. Describe topography, any special site conditions relating to erosion <br /> potential, soil stability or other soils limitations, such as steep slopes, highly permeable soils. Provide <br /> estimated volume and acreage of soil excavation and/or grading.Discuss impacts from project activities <br /> (distinguish between construction and operational activities) related to soils and topography. Identify <br /> measures during and after project construction to address soil limitations including stabilization, soil <br /> corrections or other measures. Erosion/sedimentation control related to stormwater runoff should be <br /> addressed in response to Item IL b.ii. <br /> The Web Soil Survey indicates the project area includes fifteen soil mapping units that consist of <br /> mostly loamy sands (Table 4 and Figure 7). <br /> 8 <br />