Little Rock Lake,in Benton County, is negatively impacted for nutrients. Little Rock Lake is a significant regional recreational lake. Toxins released by blue green algae blooms have been the highest ever measured by the Minnesota Department of Health. Given the importance of this resource and the severity of the water quality problems, obtaining tangible water quality improvements is a high priority in the Benton and Morrison County local water management plans.
The water quality and recretional value of Little Rock is negatively impacted by phosphorus. One important strategy involves reducing the quantity of phosphorus imported to the watershed through animal feeding operations. Farm management strategis coupled with traditional conservation practices will reduce surface runoff and phosphorus transport from feedlots and fields. This project will assist corporate poultry industry and local farmers to put into practice animal feed management strategies that reduce the amount of phosphorus contained in chicken feed rations.
Little Rock Creek, a cold-water trout stream in central Minnesota, is impaired due to the lack of trout and other cold water fish. The trout are absent because of high water temperatures, low dissolved oxygen and high nitrate levels, stressors caused from a lack of base flow and overuse of groundwater. This project continues a 2011 initiative to assist irrigators in the Little Rock Creek groundwater recharge area with managing the timing and amount of irrigation applied to their crops.
The Little Rock Lake Total Maximum Daily Load study has identified areas in the watershed where phosphorus reduction is needed and what best management practices need to be applied. This is a coordinated implementation effort with Benton and Morrison Soil and Water Conservation Districts and Natural Resources Conservation Service, the Little Rock Lake Association, the livestock industry and other partners to install best management practices at numerous sites to continue cleaning up Little Rock Lake.
Provide approximately 15 matching grants for local parks, trail, acquisition of natural areas and trails to connect people safety to desirable community locations and regional or state facilities.
The NCHS's collection of vintage clothing was re-packaged, re-labeled and re-cataloged using proper storage methods. The 232 textiles are now more accessible.
This project is designed to reduce sediment in the Wild River River based on a state approved plan (TMDL). The estimated water quality benefits completed by this project are 12,980 (120 truckloads) tons of soil saved per year, which will assist in reducing turbidity impairments downstream on the LWRR.
This Corridor Habitat Restoration Project is a cooperative effort between the District (WRWD), MN Board of Soil
and Water Resources (MNBWSR), MN DNR, and Red River Watershed Management Board (RRWMB). This is a
voluntary program with the long-term goal to restore a natural corridor area along the Lower Reach of the Wild
Rice River. When completed, the project will restore 23 channelized river miles to 50 miles of natural stream
channel. The funding from this allocation was used to protect and restore approximately 151 acres of floodplain
Channelization of the Lower Wild Rice River in the early 1900s converted 50 miles of sinuous river channel to 23 miles of straight channel and lost several thousand acres of wetland and grassland habitat within the river corridor. Through an established and successful partnership between the Wild Rice Watershed District and the Minnesota Board of Water and Soil Resources, this 4th request for funding from LSOHC will permanently protect 420 acres of private lands in easements.
This Corridor Habitat Restoration Project is a cooperative effort between the District (WRWD), MN Board of Soil and Water Resources (MNBWSR), MN DNR, and Red River Watershed Management Board (RRWMB). This is a voluntary program with the long-term goal to restore a natural corridor area along the Lower Reach of the Wild Rice River. When completed, the project will restore 23 channelized river miles to 50 miles of natural stream channel.
This project will support water quality monitoring and data analysis in the Red River Basin. The monitoring will assist in providing water chemistry data needed to calculate annual pollutant loads for the Major Watershed Load Monitoring Program (MWLMP) and provide short term data sets of select parameters to other MPCA programs.
Leveraging new statewide climate data, we will assess future change in the duration, frequency and magnitude of heavy precipitation and drought events and engage communities to prepare for these extremes.
Phase 2 of the Marsh River Watershed Restoration and Protection Strategy (WRAPS) project includes: continued civic engagement; production of the Total Maximum Daily Load (TMDL) study, which allocates pollutant load reductions for impaired waters; and production of the WRAPS report, which identifies implementation strategies that will maintain or improve water quality in many lakes and streams throughout the watershed.
The goals of Phase I of the Marsh River Watershed (WRW) Watershed Restoration and Protection Strategy (WRAPS) project are to: 1) gather or develop watershed data needed for the development of the WRAPS project; 2) establish project and sub-basin work groups, develop a social outcomes strategy, and develop a civic engagement evaluation strategy to guide the WRAPS project; and 3) begin to identify, create, and organize tools that can be used to determine potential stressors and priority management areas.
The Benton County Local Water Management Plan's first priority concern is feedlot and nutrient management. Our objective is to reduce or minimize the negative impact of animal manure and fertilizer on surface and ground water by increasing the adoption of feedlot, manure, fertilizer and pasture best management practices.
The Benton SWCD is applying to use Clean Water funds to work with livestock producers in implementing a variety of BMPs including, but not limited to cropland erosion control projects (water and sediment control basins, grade stabilization structures), extending buffers where appropriate to exceed state buffer laws, riparian pasture management and conversion to other uses, nutrient management and feedlot pollution control systems. Our goal is to reduce runoff from these sites and improve water quality within the Mayhew Lake and Big Elk Lake watersheds.
The ENRTF grant will introduce 12 young people to conservation careers through full-time, paid internships and apprenticeships on the Minnesota Valley National Wildlife Refuge (16 FTEs over 2 years).
This project will provide condition monitoring and problem investigation monitoring at the following sites. Mississippi River: Tributaries include Bassett Creek, Cannon River, Crow River, and Minnehaha Creek. Minnesota River: Tributaries include Eagle Creek, Riley Creek, and Willow Creek. St. Croix River: Tributary includes Valley Creek.
Expanding waste diversion practices across the state this project will: create 16 jobs, reduce greenhouse gas emissions, provide data to measure the social, economic, and environmental benefits of waste diversion.
Legacy funds allow the Minnesota Zoo to extend the season of the Wells Fargo Family Farm beyond its historical May to September season to include full programming and exhibits from April through November.
The Civics Education Coalition will create opportunities for students, enrich teacher capacity to engage students, and build state-wide networks. Work will include an interactive website, online youth summit, youth conference, new lessons for educators, teacher institutes, and expansion of the statewide Civic Education Network and its activities.
The Minnesota Invasive Terrestrial Plants and Pests Center (MITPPC) requests $7 million to fund up to 20 new, high-priority applied TIS research projects to improve Minnesota's natural and agricultural resources.
We will investigate the potential of natural microbes indigenous to Minnesota to biodegrade conventional plastics in the environment as a means for cleaning contaminated soils and waters across the state.