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.
The goal of this project is to develop a stream restoration opportunities matrix for the Amity Creek watershed, which will prioritize the various protection and restoration options in the watershed for the Minnesota Pollution Control Agency (MPCA) and local partners.
Degradation to trout habitat in the Knife River Watershed has occurred from past clear-cut forestry practices resulting in uncontrolled beaver colonization. This project will continue work on the West Branch and begin work on other Knife River tributaries.
Improved levels of civic engagement and community participation in support for the Watershed Restoration and Protection Strategy (WRAPS) processes in the St. Louis River, Lake Superior South, and Cloquet River Watersheds. Monitoring plans and compiled field data will be provided and summarized that will aid in the future completion of Total Maximum Daily Load Reports (TMDLs) in these watersheds and in the Lake Superior North Watershed.
MDNR will implement a programmatic approach to complete prioritized aquatic habitat restoration projects in the Lower St. Louis River Estuary through a partnership between Great Lakes Restoration Initiative and OHF to recover this nationally important fishery and migratory bird corridor.
Minnesota Trout Unlimited and its volunteers, chapters and partners will directly enhance habitat for fish, game and wildlife in and along twelve or more coldwater streams located on existing Aquatic Management Areas and other existing public lands around the state.
This partnership will protect, restore and enhance 2,769 acres, primarily brushland, in northeastern Minnesota. Habitat will be added to the WMA system and enhanced on existing public lands for species in greatest conservation need, outdoor recreation, and environmental benefits.
The project’s first phase includes development and implementation of a sampling plan to investigate stormwater quality within impervious areas; soil borings to determine the soil type; a topographical survey to determine drainage patterns and infrastructure locations; and data gathering of existing infrastructure. A season-long stormwater quality monitoring program will monitor stormwater within the drainage areas that flow directly to the storm sewer, including monitoring of roof runoff and overland flow to determine potential pollutant sources and mitigation options.