This full-scale pilot will evaluate supercritical water oxidation (SCWO) for managing PFAS in biosolids and water treatment residuals. SCWO can destroy PFAS in a variety of wastes and recover energy.
We will partner with urban municipalities and school districts to support planting of climate-resilient tree species. Activities include planting trees, gravel bed nursery creation, tree assessment and mapping, and community.
While aspen is one of the most dominant forest types, predicted future conditions will negatively impact aspen growth. Increasing tree diversity can provide increase ecological and economic resilience.
The Cannon River Watershed Habitat Complex Phase VIII program will protect approximately 160 acres in fee, and restore and enhance approximately 188 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, Big Woods forest, and river/shallow lake shoreline. Its goal is to reverse habitat loss, prevent degradation of water quality, improve watershed function, and provide public access.
This project is to refresh the Cannon River Watershed Hydrologic Simulation Program FORTRAN (HSPF) model. The previous model was developed for the time period of 1995-2012. This phase will extend the model to include data through 2019. All time series data will be updated through 2019, land classification zones will be restructured, hydrology calibration will be updated as needed, and final reporting including technical memo and model package.
This project with the Cannon River Watershed Joint Powers Board will conduct lake and stream sampling for the watershed restoration and protection strategy (WRAPS) update in the Cannon River Watershed. This sampling will track changes from the 2011 results, along with fill in gaps, delist or keep an eye out for new impairments, and gather data for permitting. The sites of sampling were selected by the Minnesota Pollution Control Agency (MPCA) and will be looking at lake and stream chemistry and stream bacteria.
The Cannon River Watershed Habitat Protection and Restoration Program will protect approximately 275 acres in fee, and restore and enhance approximately 181 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, Big Woods forest, and river/shallow lake shoreline. Its goal is to protect existing high quality habitat, restore degraded habitat, prevent degradation of water quality, and provide public access.
The goal of this project is to use a science-based and participatory approach to understanding and promoting conservation practices in the agricultural community.
The Cannon River Watershed Habitat Complex Phase IX program will protect approximately 150 acres in fee, and restore and enhance approximately 93 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, Big Woods forest, and river/shallow lake shoreline. Its goal is to reverse habitat loss, prevent degradation of water quality, improve watershed function, and provide public access.
The goal of this project is to apply the Hydrological Simulation Program FORTRAN (HSPF) model to evaluate scenarios to support potential management actions and implementation in the watershed, construct Total Maximum Daily Load (TMDL) studies, and to develop a conceptual site model of the lakes for understanding phosphorus release.
This program will protect ~510 acres and restore ~200 acres near Cannon River Headwaters including wetlands, Big Woods forest, and river & shallow lake shoreline to reverse habitat loss, improve watershed function, and provide access
Complete section 3 of Watershed Restoration and Protection Strategy (WRAPS) document for the Cannon and Zumbro Watersheds and provide input to sections 1 and 2.
Through fee-title acquisition, the Trust for Public Land permanently protected 242 acres (88% of our goal) in the Cannon River Watershed. This resulted in one new Wildlife Management Areas (WMA) and four additions to existing WMAs. Now publicly accessible, these protected areas include wetland, prairie, and "Big Woods" forest habitat. The permanent preservation of these places has reversed habitat loss, allowed for habitat restoration, and increased access to public lands for hunting, fishing, hiking, and other outdoor recreation opportunities.
Protect and restore approximately 80 acres in and near the Cannon River watershed, including wetlands, prairies, Big Woods forest, and river and shallow lake shoreline to reverse habitat loss, improve watershed function and provide access.
The Cannon River Watershed Habitat Protection and Restoration Program will protect approximately 264 acres in fee, and restore and enhance approximately 238 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, Big Woods forest, and river/shallow lake shoreline. Its goal is to protect existing high quality habitat, restore degraded habitat, prevent degradation of water quality, and provide public access. We will restore and enhance riverine, forest, wetlands, oak savanna, and prairie habitat
The Cannon River Watershed Habitat Protection and Restoration Program will protect approximately 290 acres in fee, and restore and enhance approximately 358 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, forests, and river/shallow lake shoreline. Its goal is to protect existing high quality habitat, restore degraded habitat, prevent degradation of water quality, and provide public access.
The Cannon River Watershed Habitat Protection and Restoration Program will protect approximately 180 acres in fee, and restore or enhance approximately 136 acres of high priority wildlife habitat within the Cannon River Watershed, including wetlands, prairies, forests, and river/shallow lake shoreline. Its goal is to protect existing high quality habitat, restore degraded habitat, prevent degradation of water quality, and provide public access.
Through fee-title acquisition, Trust for Public Land permanently protected 253 acres (115% of our goal) throughout the Cannon River Watershed. This resulted in two additions to existing Wildlife Management Areas (WMAs). These now publicly accessible and protected areas include wetland, prairie, and Big Woods forest habitat. The permanent protection of these places has reversed habitat loss, allowed for habitat restoration, and increased access to public lands for hunting, fishing, hiking, and other outdoor recreation opportunities.
Revitalizing the old deer yards into Caribou Yards is a transformative initiative aimed at creating habitats for a herd of caribou. The need for this project arises from the closure of the old deer yards, which were previously inhabited by white-tailed deer until the last one passed away of old age. Subsequently, the fencing surrounding these three habitats has weathered and suffered damage during the years of inoccupancy.
Pileated Woodpeckers are keystone habitat modifiers that support an array of game, non-game, and conservation concern species. Additional information is needed to understand cavity dynamics for these species.
The Children’s Museum of Southern Minnesota (CMSM) will build upon a strong foundation of Minnesota Arts, Culture and Heritage (ACH) learning experiences made possible with prior MN Legacy funding support to:
This project would educate residents and provide assistance to the City of Le Center in sealing an unused/abandoned municipal well. One municipal well has been identified as a high risk due to impacting the groundwater and drinking water supply to the City of Le Center.
The nine member Counties and Soil and Water Conservation Districts of the Greater Blue Earth River Basin Alliance (GBERBA) will be able to enhance our effectiveness to provide elevated levels of technical assistance, education and outreach in the areas of urban stormwater, wellhead protection, nutrient management, conservation agronomy, drainage and agricultural best management practices to reduce nonpoint source pollution in the Blue Earth, Le Sueur and Watonwan River Watersheds.
Rising temperatures and increased precipitation contribute to decreased oxygen and increased methane in Minnesota lakes and wetlands. We will identify impacts on water quality and methane emissions, providing management guidance.
This project builds partnerships among natural resource professionals, college, middle and high schools to work collaboratively to increase youth exposure to outdoor experiences, environmental issues, and natural resource career paths.
