The Accelerated Water Quality Project Implementation Program will increase the connection between landowners, local government units and the landscape to accelerate efforts addressing non-point source loading to surface waters throughout the Red River Valley Conservation Service Area.
This project will improve surface and groundwater quality in the rural sections of the Vermillion and North Cannon River Watersheds located in Dakota County through the installation of targeted structural and vegetative conservation practices. This project will leverage local and federal funds to provide technical and financial assistance to landowners that install agricultural water quality practices.
A direct appropriation of $400,000 in FY 2010 for the Anoka Conservation District (ACD) is for the metropolitan landscape restoration program for water quality and improvement projects in the seven-county metro area (the law also provides $600,000 for this purpose in FY2011).
A direct appropriation of $400,000 in FY 2010 and $600,000 in FY2011 for the Anoka Conservation District (ACD) is for the metropolitan landscape restoration program for water quality and improvement projects in the seven-county metro area.
South Central Technical Service Area (SCTSA) will use this Clean Water Fund grant to provide Soil and Water Conservation Districts and other local organizations in its eleven-county area with a Geographic Information System (GIS) Technician to assist in using available GIS information to target specific locations where Best Management Practices (BMPs) can be installed to help improve water quality.
Prevention of groundwater contamination from unused, unsealed wells is identified as a priority in the 2020-2030 Dakota County Groundwater Plan. Dakota County plans to prevent groundwater contamination, especially in drinking water supply management areas, by completing a well inventory in the Black Dog Watershed area to identify suspected abandoned wells, and provide 50% cost-share grants to seal approximately 13 unused, unsealed wells in the watershed.
Seminary Fen, a 600-acre complex in Carver County, supports one of only 500 calcareous fens in the world and is one of the highest quality calcareous fens in southern Minnesota. The Fen feeds Assumption Creek; one of the metro area's last known trout streams that supports naturally reproducing native brook trout. Assumption Creek then discharges to the nearby Minnesota River. The Fen's unique hydrology, soils, plants, and habitats are highly sensitive to water quality and sedimentation stress.
The nine member Counties and Soil and Water Conservation Districts of the Greater Blue Earth River Basin Alliance (GBERBA) will be able to enhance our effectiveness to provide elevated levels of technical assistance, education and outreach in the areas of urban stormwater, wellhead protection, nutrient management, conservation agronomy, drainage and agricultural best management practices to reduce nonpoint source pollution in the Blue Earth, Le Sueur and Watonwan River Watersheds.
This project will provide cost share funding to community organizations and associations to construct medium-sized water quality conservation practices in Dakota County.
This project will continue and build on the momentum developed through the successful Stormwater Retrofit Partnership (Partnership) from FY2010 and 2012 CWF. This project retrofits stormwater practices on public land to assist partnering Local Government Units (LGUs) in achieving water quality goals identified in local stormwater plans by providing technical assistance and cost share funding.
This project will provide cost share funding to organizations and associations to construct medium-sized water quality conservation projects in Dakota County. This project will continue the successful FY2012 Dakota County Community Partners in Conservation. The Community Initiative program will use the Soil and Water Conservation District's existing Conservation Initiative Funding program to provide technical assistance and monetary incentives for targeted, medium-sized projects such as raingardens, bioinfiltration, and bioswales.
The karst topography of southeast Minnesota increases the possibility of drinking water supplies becoming contaminated with high concentrations of nitrates. To address this risk in the region, there needs to be an increase in the use of nitrogen best management practices and agronomic rates of nitrogen need to be fine-tuned to balance production with environmental degradation. In addition, potential point sources of nutrient contamination in groundwater need to be addressed wherever possible. This project will have three components that will address these needs.
Martin County has 149 lakes and several are impacted by elevated phosphorus levels. Restoring the water quality of these lakes is a priority for county. In partnership with Minnesota Waters, Barr Engineering and the University of Minnesota Extension, this project specifically aims to educate residents about the threats to Martin County water resources. The goal is to engage residents in protecting and improving the quality and management of the lakes by establishing a minimum of four lake associations within the county.
Long Lake is impaired for nutrients and is a high priority in the City's Surface Water Management Plan and the Vermillion River Watershed Management Plan. As part of a pond feasibility study funded by 2021 WBIF dollars, the City identified pond EVR-P11 as a high quality project to help reduce nutrients in the watershed. The city is requesting $115,331 for a project that will include the excavation of existing pond, reconstruction of the pond outlet, and the installation of infiltration bench. The project will provide approximately 2.21 lbs of Total Phosphorous removal.
This project will improve water quality in the nutrient impaired Fairmont Chain of Lakes. These 5 lakes are a surface water drinking water source for a City of over 10,000 people. Phase one of this multi-phase water quality restoration project focuses on installing 12 targeted agricultural best management practices such as bioreactors, saturated buffers and grassed waterways and will reduce nitrogen by over 1,000 pounds per year, sediment by over 130 tons per year, and phosphorus by over 200 pounds per year.
