Establish network of automated radiotelemetry stations to monitor bird migration and local movements of a threatened species, and develop strategic plans for long-term use of infrastructure to monitor animal movement.
We will quantify and map antibiotic and antibiotic resistance gene contamination in Minnesota waters and soils and identify locations in need of mitigation to protect environmental, human, and animal health.
We will map habitat and diseases of urban foxes and coyotes to understand what they need to live and risks posed to people and pets, thereby demystifying them for residents.
Data is needed about which aquatic habitats moose prefer and how moose can potentially enhance nearshore lake foodwebs. This project will map critical aquatic habitats and measure lake foodweb effects.
We propose conducting the first statewide analysis mapping the extent of Minnesota’s unprofitable cropland and estimating both the water-quality and habitat benefits of converting these lands to perennial crops/vegetation.
Wiyounkihipi (We Are Capable) Productions will be a platform for Dakota voices to publish and pass on their teachings to future generations. We will be a resource hub that publishes children's books of the Dakota culture and language. Writers and artists will be professionally supported through profile pages, encouraging educators from around the state to invite them into their schools through in-person or virtual meetings, so that there is authentic Native representation in our classrooms.
Since 2000, a diverse group of partners has been collectively working in northwestern Minnesota on one of the largest prairie-wetland restorations in the world. Spanning 22,000 acres and adjacent to an additional 16,000 acres of public and private conservation land, the goal of the Glacial Ridge Project has been to demonstrate whether large-scale habitat restoration is a viable way to reduce flooding and improve water quality. Prior to beginning restoration efforts on the project, a comprehensive baseline hydrologic study of the area was completed by the U.S. Geological Survey (USGS).
Since 2000, a diverse group of partners has been collectively working in northwestern Minnesota on one of the largest prairie-wetland restorations in the world. Spanning 22,000 acres and adjacent to an additional 16,000 acres of public and private conservation land, the goal of the Glacial Ridge Project has been to demonstrate whether large-scale habitat restoration is a viable way to reduce flooding and improve water quality. Prior to beginning restoration efforts on the project, a comprehensive baseline hydrologic study of the area was completed by the U.S. Geological Survey (USGS).
Waste streams often contain unutilized resources that if properly extracted or otherwise utilized could be used to provide additional sources of renewable energy or other benefits. Wastewater is one of the primary candidate waste streams because of its nutrient content and researchers have been developing technologies such as microbial fuel cells and algal-based biofuel production in order make use of these nutrients.
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).
Many types of bacteria perform critical ecological functions, such as cycling carbon and other nutrients, which enable life to exist. In fact, humans harness these types of bacteria in certain engineered systems, such as wastewater treatment plants and landfills, to provide various benefits such as protecting surface waters from excess nitrogen, decomposing solid waste, and treating wastewater.
University of Minnesota Duluth (UMD) will collect groundwater and drinking water samples from municipal supplies, private drinking water wells and monitoring wells to be analyzed by their laboratory for microplastics content. Surface water and sediment samples collected as part of this project may will also be analyzed for microplastics by UMD.
Migizi holds a large collection of reel-to-reel audio tape recordings of our original radio programming. Migizi intends to transfer 1,000 pieces of reel-to-reel audio to a digital format so that it may be preserved and re-introduced. With our media partner, KFAI Fresh Air Radio, we will produce 12 new audio stories utilizing the archive as source material. Stories will be broadcast on KFAI’s airwaves and digital media platforms for listeners across Minnesota on the AMPERS Radio Network.
The Minimal Impact Design Standards (MIDS) project represents the next generation of stormwater management in Minnesota. MIDS offers guidelines, recommendations and tools that help low impact development practices be implemented more uniformly across Minnesota's landscape and provides guidance to effectively implement the concepts and practices of low impact development. Products include performance goals for new development, redevelopment and linear projects, a graphic user interface calculator and flexible treatment options for sites design.
The Minimal Impact Design Standards (MIDS) project represents the next generation of stormwater management in Minnesota. The consultant was hired to conduct research and design specifications for permeable pavement and turf.
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.
