The Elk River Watershed Association Joint Powers Board, via the Sherburne Soil and Water Conservation District, will utilize project funds to implement a pasture and manure management program which will provide technical and financial assistance to large animal/hobby farm owners. Staff will work with identified landowners to implement bacteria reduction best practices such as pasture renovation/management, riparian buffer strips, clean water diversions, vegetated buffer strips, and manure management including composting structures.
The Elk River Watershed Association (ERWSA) was formed to enable Sherburne and Benton Counties to work together to implement Local Water Management Plans. Since its formation in 1994, the ERWSA has primarily focused on working with land owners to reduce non-point sources of pollution within the watershed. Sherburne and Benton SWCD staff have extensive experience installing conservation practices. The ERWSA draws support from Sherburne County, Benton County, and local lake associations.
The Media Education team we will share resources with the community so they can tell their own stories through youth and adult programs. These programs focus on photography, audio and visual storytelling, and advanced cinematography skills.
Low-levels of perfluoroalkyl substances (PFAS) contaminate water and soil in Minnesota. We propose to identify enzymes and microbes that break down PFAS, making them non-toxic.
Increasing energy conservation and efficiency in residences can play a significant role in Minnesota's goals for energy savings and carbon emissions reductions. The Center for Energy and Environment (CEE), a Minneapolis-based nonprofit organization, is using this appropriation to develop and implement innovative residential energy efficiency programs. Programs will be demonstrated in eight cities: Apple Valley, Austin, Duluth, Minneapolis, Owatonna, Park Rapids, Rochester, and St. Paul.
Over 527,000 acres of unmanaged woodlands are being used for livestock grazing throughout Minnesota. Managing these grazed woodlands based on the use of best management practices can provide environmental and economic opportunities, including improved water quality, maximized forage production, and higher-quality timber. The best management practices involved are commonly used in other parts of the country with other types of ecosystems, but have not been widely adopted in Minnesota due to a lack of knowledge and experience with implementing them within the ecosystems of Minnesota.
We will generate genome sequences of bacteria growing in wastewater treatment bioreactors, allowing us to improve phosphorus and nitrogen removal from wastewater in Minnesota and to discover novel pharmaceutical compounds.
Minnesota Trout Unlimited will enhance and restore degraded habitat for fish and diverse wildlife in and along priority trout streams located on existing public lands and conservation easements in the Metro area and southeast Minnesota. Increasing threats to these highly prized, yet relatively scarce, resources require accelerating habitat work to reduce the backlog of degraded stream reaches and buffer streams from the increased frequency and intensity of large rainfall and flood events.
This program enhanced 10,583 and restored 198 acres for a total impact of 10,781 acres by restoring wetlands, removing invasive trees, seeding prairies, prescribed burning, and installing infrastructure for conservation grazing. These practices took place on Waterfowl Production Areas (WPA's), and Wildlife Management Areas (WMA's) in the prairie, metro and the forest/prairie transition regions of Minnesota. We exceeded our acre goals in every category, brought $45,768.51 in match funds, and are returning $833.50 in funds.
Minnesota Trout Unlimited will enhance and restore degraded habitat for fish and wildlife along coldwater streams with existing protections. We will utilize a crew of young people from diverse backgrounds to enhance habitat along Twin Cities area trout streams. Increasing threats to North Shore streams require accelerating work improving riparian forest habitat to improve stream flows and lower water temperatures, and buffering streams from larger, more frequent rainfall and flooding.
