We protected 22.3 miles of trout streams and 1.3 miles of lakeshore via easements (585 acres in total), and 7.4 miles (504 acres) of lakeshore through fee-title purchase. We enhanced shoreline habitat on 524 acres of riparian land, and instream habitat on 3.1 miles of trout streams and 0.5 miles of warmwater rivers.
This program of on-the-ground conservation projects increased the wildlife and ecological values of forest communities on Minnesota's public forestlands. Restoration and enhancement projects in this program enhanced more than 10,000 acres of forest.
Water control structures and dikes were designed and constructed on six Wildlife Management Areas (WMA) in the counties of Becker, Clearwater, Itasca, Lincoln, Roseau, and Yellow Medicine. Dike work at Roseau River WMA protects and enhances 3200 acres of wetlands wetlands in Pool 2 of the WMA. Roseau River WMA has 10 large water control structures, seven moist soil cells, and four large pools covering 11,800 acres. Cells for a moist soil unit were constructed at Lac Qui Parle WMA in Lac Qui Parle County.
The AgBMP Loan Program provides needed funding for local implementation of clean water practices at an extremely low cost, is unique in its structure and is not duplicated by any other source of funding.The AgBMP loan program provides 3% loans through local lenders to farmers, rural landowners, and agriculture supply businesses.
Multiple water courses in the Buffalo River - Red River Watershed District are impaired for turbidity. These waterways include the Red River of the North, Wolverton Creek, Deerhorn Creek, Stoney Creek, South Branch Buffalo River, and the main stem of the Buffalo River. This project will provide a means of prioritizing areas of the watershed to implement conservation practices to reduce overland runoff contaminant loadings contributing to water quality impairments.
Erosion is a serious water quality issue found throughout the Buffalo-Red River Watersheds rivers and tributaries. Excessive erosion occurs in the beach ridge area where the land naturally has excessive slopes. The beach ridge area consists of sand and gravel deposited by wave action along the shoreline of Lake Agassiz at various times as the lake level rose and fell. The sand and gravel soils, combined with the relatively steep slopes of the area can be susceptible to erosion.
Bejou, Shoe and Dahlberg lakes are located in the upper reaches of one of the most popular fisheries in the region, the Cormorant Lakes chain.
Water quality issues impacting Bejou Lake were identified through the use of aerial photography. Results determined that a significant amount of sediment was being deposited into Bejou Lake from the 84 acre adjacent watershed. Several areas where water, sediment and erosion control basins could greatly reduce the amounts of sediments being delivered to the lake were identified.
This project is concentrated in the Hay Creek Watershed, a 24-square-mile area in Becker County that features several high-quality lakes including Stinking Lake, valued for high-quality waterfowl habitat and flood water storage. Protecting the lake has been a local priority.
Friends of the Detroit Lakes Wetland Management District is using these funds to restore approximately 50 acres of prairie pothole wetlands in Clay and Becker Counties. Efforts aim to create wildlife habitat for waterfowl and other species and reduce downstream flooding of the Red River Valley by increasing the capacity of the land to hold and store water from spring runoff and severe storms.
Goals for Phase 2 of the MN Prairie Recovery Program were to: protect 1200 acres native prairie/savanna; restore 250 acres grassland; enhance 6000 acres grassland/savanna with fire, invasive species removal, and grazing; and continue a new prairie conservation model.
This project will provide land and water managers in the Red River Basin with data and online tools to prioritize actions on the landscape that achieve water quality objectives identified in local and state plans. This will help identify strategically important locations for implementing erosion control and water management practices. Standardized watershed-based data products will be integrated into a web-based planning tool which will be added to the Red River Basin Decision Information Network (RRBDIN) being developed as part of the Red River Watershed Feasibility Study.