This project aims to reduce pollutant loading to Mille Lacs Lake by working with the City of Wahkon to develop a comprehensive stormwater management plan for the City of Wahkon, located on the south side of the lake. Wahkon has no stormwater facilities and pollutant laden runoff flows into Mille Lacs Lake, untreated. This project will delineate and model stormwater flow in the City of Wahkon watershed, prioritize and target BMPs in the city watershed and conduct outreach to keep all stakeholders informed and build buy-in for future project implementation.
The City of Inver Grove Heights will remove PAH contaminated sediment from the 79th Street Pond. Approximately 2,300 cubic yards of sediment will be dredged and disposed of at the Pine Bend Landfill located in the City of Inver Grove Heights.
The City of Waconia will implement its 2012-13 Storm Pond Cleaning Project and 2012 Improvement Project which includes removal and disposal of more than 2,200 cubic yards of PAH contaminated sediment from 3 stormwater ponds. The contaminated sediment will be disposed of in the Waste Management industrial landfill located in Burnsville, MN.
The Villa Park Wetland Restoration Project proposes sediment removal from 6 contiguous stormwater wetland treatment cells within the Villa Park Wetland system resulting in an additional 118lbs/yr of total phosphorus(TP) removal from water entering Lake McCarrons.
Pine Soil and Water Conservation District is partnering with the City of Sturgeon Lake to seal over 50% of the unused wells in the city limits. The City of Sturgeon Lake recently installed a municipal water supply system, and completed a Minnesota Department of Health approved Wellhead Protection Plan. Residents have connected to the new public water supply system and need to seal their unused wells.
Improving stormwater management in Grand Marais is a priority for the community. The Cook County Comprehensive Water Plan identifies water quality and quantity concerns related to residential development include increased runoff from roads, parking areas, roofs, etc. into Lake Superior.
The City of Brainerd will stabilize the 1.4-acre gulley that has eroded over 8,706 tons of sediment since 1985. The erosion started after the city constructed a conveyance pipe along Buffalo Hills Lane City Road. The current gully is unstable and poses significant risks to city and public infrastructures, three stormwater outfalls, ten private properties, and houses. Since the 1990s, this gully has transported 100 percent of bank and bed erosion to Little Buffalo Creek and the Mississippi River (HR Green Inc.).
This project would educate residents and provide assistance to the City of Le Center in sealing an unused/abandoned municipal well. One municipal well has been identified as a high risk due to impacting the groundwater and drinking water supply to the City of Le Center.
The City of Minnetonka and its residents highly value the water resources within the community, which include approximately ten lakes, four streams, and hundreds of wetlands. The City has been progressive in protecting these resources through policies and management strategies, and now wants to increase their on-the-ground efforts in protecting and improving water quality. The City hopes to conduct targeted watershed assessments for fourteen selected priority water bodies to identify and optimize the type and locations of Best Management Practices (BMPs) to be installed.
With a population of approximately 3,500, the City of Mora is the largest municipality in the Snake River watershed. Monitoring indicates the city's Lake Mora has high levels of total phosphorus, total suspended solids, and other pollutants. This project will develop a plan that identifies several stormwater best management practices (BMPs) for the City of Mora and surrounding rural areas to address these impairments. Modeling and analysis will be used to target projects where they can provide the most benefit.
Duluth area streams received over 10 inches of rainfall on June 19 and June 20, 2012. This "500 year event" provides a once in a lifetime opportunity to further understand sediment movement and stream channel alterations due to an event of this magnitude.
The purpose of this project is to project the ground water aquifer serving the City of Long Prairie through assisting low income landowners in the replacement of 12 sub-surface treatment systems that have been documented as failing to protect groundwater within the Long Prairie Drinking Water Supply Management Area. Although the primary driver is ground water protection, replacing these failing systems will also protect surface water of which Lake Charlotte is in close proximity.
The primary objective of this workplan is to demonstrate the ability of the City of Paynesville to meet the current and future wastewater treatment needs and achieve beneficial use of wastewater effluent, to replace the use of groundwater.
Sediment and water quality issues are local priorities within the Thief River and Red Lake River watersheds, which have their confluence in the city of Thief River Falls. The 1W1P effort underway in the Red Lake River Watershed will identify opportunities for projects and practices that are targeted and result in measurable water quality benefits throughout the watershed using PTMApp.
This project is to assist the Minnesota Pollution Control Agency in developing a robust inter-agency communications action plan and strategy for the Clean Water Fund. The goal of the project is to provide specific recommendations of how to best communicate to key stakeholders and the general public about statewide outcomes and outputs of clean water projects funded by dedicated sales tax revenue.
The goals of the program are to evaluate the effectiveness of agricultural conservation practices, identify underlying processes that affect water quality, and develop technologies to target critical areas of the landscape. Funded projects provide current and accurate scientific data on the environmental impacts of agricultural practices and help to develop or revise agricultural practices that reduce environmental impacts while maintaining farm profitability.
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.
The City of Forest Lake will install four biofiltration basins and a wet sedimentation pond to treat stormwater prior to discharge into Clear Lake. Clear Lake is identified as a priority lake within the Rice Creek Watershed District's (RCWD) Watershed Management Plan and does not meet the nutrient goals established by the RCWD. Mid-summer algae blooms are common and occasionally severe enough to impact recreation.
This project represents a one-time opportunity to improve the quality of stormwater runoff from the parking lot and access road at Cleary Lake Regional Park. Cleary Lake is listed as impaired for excessive nutrients and is a focal point for many park activities. Three Rivers Park District and Scott County are partnering to reconstruct the park access road and to mill and overlay or conduct full depth reclamation of the parking lot at the park in 2013. Other partners include the Scott Watershed Management Organization (Scott WMO) and the Scott County Public Works Department.
The Clearwater Lake Chain has elevated nutrient levels which lead to poor water quality. The City of Kimball and surrounding agricultural area drains, mostly untreated, into a trout stream which empties into the Clearwater River Chain of Lakes.
This project will produce a final Total Maximum Daily Load (TMDL) study and Watershed Restoration and Protection Strategy (WRAPS) report that will be utilized by local government units for water planning purposes during the Board of Water and Soil Resources One Water One Plan process for the Clearwater River Watershed.
The goal of this project is to update existing bacteria and Total Suspended Solids (TSS) source inventory through desktop survey and field reconnaissance to identify and prioritize locations to reduce sediment and bacteria loading to the Clearwater River; then, design and implement best management practices (BMPs) at prioritized locations to reduce loading.
This project will complete a lake data set for 303(d) and Aquatic Recreation use assessments in Clearwater County by monitoring total phosphorus, chlorophyll-a and Secchi depth; by utilizing lakeshore owners.
The overall goal is to develop a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study that will address water quality impairments and maintain or improve water quality throughout the Clearwater River watershed. The study will identify sources of pollutants to the streams and lakes, allocate pollution reduction goals, and prioritize and identify implementation strategies to maintain or improve water quality in key lakes and streams in the watershed.
This project is to develop a watershed restoration and protection strategies report that provides quantitative pollutant source estimates and a set of pollutant reduction and watershed management strategies to protect and achieve water quality standards for all aquatic life and aquatic recreation impairments in the watershed. The strategies will be understood and adoptable by local units of government and other stakeholders. New understandings and new relationships will inform and lead to eventual environmental improvements.
This project targets an older residential area that does not have permanent water quality practices. Storm water presently runs directly to the Mississippi River using out of date and under-sized infrastructure. Expanding upon a very successful pilot program for retro-fitting storm water treatment practices in residential neighborhoods, rain gardens will be strategically placed to maximize water quality benefits for each dollar spent. Each rain garden will have a pre-treatment device to help achieve the cost-effective long-term water quality goals of the City.
The Q-Lot at St. Cloud State University (SCSU) is an 8 acre (1,000 spaces) gravel and asphalt parking lot. The parking lot's surface is impervious, which means it doesn't allow for rainfall or snow melt to soak into the ground. Instead, the water runs off directly into storm sewers, taking with it sediment, bacteria, automotive fluids and other pollutants which flow straight into the Mississippi River. SCSU staff has frequently witnessed plumes of sediment the color of chocolate milk where the storm sewer discharges into the river.
This project addresses the northeast St. Cloud drainage basin, the highest priority in the St. Cloud Stormwater Management Plan. St. Cloud has observed and documented ongoing sediment loading to the Mississippi River from the 367 acre watershed. The project is also a companion to the Green Roofs Blue Waters program in which several sediment reduction BMPs are being identified and installed along the Mississippi River.
The St. Cloud Waste Water Treatment Facility (SCWWTF) is currently conducting long term planning for future biosolids management. The most likely path forward includes dewatering of the digested biosolids, which will produce a supernatant stream with significant phosphorus and ammonia loads that would be returned to the liquids treatment portion of the WWTF. Returning these nutrient loads to the liquids train would result in increases to effluent concentrations, increases in power consumption, or both.
The Hawk Creek - Middle Minnesota Comprehensive Watershed Management Plan identifies priority concerns, short-term and long-term goals for surface waters, groundwater, habitat and recreation, local knowledge, and land stewardship. Through the plan, specific details for structural and management practices are described in the Implementation Schedule for each of the planning regions and priority areas.
