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Pearson Farm Residential Development EAW Draft—March XX,2017 <br /> downstream water bodies as well as the immediate receiving waters).Discuss any environmental <br /> effects from stormwater discharges. Describe stormwater pollution prevention plans including <br /> temporary and permanent runoff controls and potential BMP site locations to manage or treat <br /> stormwater runoff. Idents specific erosion control, sedimentation control or stabilization measures <br /> to address soil limitations during and after project construction. <br /> Pre-Construction Site Runoff <br /> Soils in the project area are quite sandy and most precipitation likely infiltrates into the soils, <br /> resulting in little surface runoff. Surface runoff from the project area under existing conditions likely <br /> contains some sediment pesticides,fertilizers, and other nutrients. Existing runoff drains overland <br /> from the project area to local wetlands. Nearly the entire project area drains east through a culvert <br /> under Puma Street NW. From the culvert,runoff drains through an intermittent drainageway and <br /> wetlands to a point about 1.4 miles downstream from the project area,where the dramageway ends. <br /> Runoff appears to infiltrate into the ground at that location. Although the region contains highly <br /> permeable soils,some surface runoff may reach the Mississippi River during extreme runoff events. <br /> Post-Construction Site Runoff <br /> Compliance with LRRWMO, City of Ramsey, and NPDES requirements will minimize and mitigate <br /> potential adverse effects on receiving waters. Project development will change the land use from <br /> agricultural to residential use. This land use change is expected to have mixed effects on runoff <br /> water volume and quality. Residential development may reduce concentrations of agricultural <br /> chemicals,but may increase the loading of suspended solids during construction. Other typical <br /> components of impervious surface runoff,such as hydrocarbons and heavy metals,may also <br /> increase. Post-development runoff water quality will be typical of suburban developments, and will <br /> likely be slightly degraded by pollutants carried in runoff from streets,roofs, and driveways. <br /> Residential project construction will add about 14.5 acres of impervious surface,consisting of <br /> streets,homes, and driveways. The increased impervious surface area is expected to increase in <br /> urban runoff pollutants and the volume of runoff during significant storm events. However,it is <br /> anticipated that stormwater rate and volume controls that comply with City of Ramsey and <br /> LRRWMO requirements will limit increases in runoff volume and associated pollutant transport to <br /> large storm events that occur infrequently. The creation of stormwater ponds and infiltration basins <br /> is expected to mitigate potential adverse effects from the increase in impervious surface. <br /> The project will include approximately 6.5 acres of stormwater ponds and infiltration areas in <br /> compliance City of Ramsey and LRRWMO requirements(Figures 3,4 and 8). The proposed <br /> design also includes excavation of a deep 3-acre pond. The deep pond will connect to the storm <br /> sewer system and discharge to the east under Puma Street NW,but it will not be designed as a <br /> stormwater pond and is not required to meet stormwater treatment requirements. However,the deep <br /> pond will serve some infiltration functions. <br /> Section 117-392 of the of Ramsey City Code requires permanent stormwater pollution controls, <br /> including: (1)infiltrating or retaining the first inch of precipitation over the impervious surface of the <br /> site; (2)retaining the post-construction runoff volume onsite for the 95'percentile storm; and (3)no <br /> increase in the post-construction rate,volume, and duration of runoff over existing conditions for the <br /> 13 <br />