We will assess the environmental quality of prairies across Minnesota. On-the-ground surveys and contaminant risk assessments will help inform partner management actions, endangered species recovery plans, and pollinator reintroduction efforts.
The Berger Fountain, known as the dandelion fountain to most, was installed in 1975 by Benjamin Berger and has been a beloved neighborhood landmark in Loring Park and a favorite location for wedding photographers and children ever since. Ben Berger was a park board commissioner and, after seeing a dandelion fountain in Australia, fundraised to build a sister fountain right here in Minnesota.
This study will leverage our current bioacoustics monitoring framework to assess avian diversity at the statewide scale through a citizen science acoustic monitoring program, with a focus on private lands.
The goal of this project is to facilitate strategic networking, relationships, and learning in targeted groups to assess, build, and leverage community capacity (i.e. community resources and values) to increase knowledge of the Blue Earth River watershed’s water resources and increase best management practice (BMP) adoption to restore and protect water quality in the Blue Earth River watershed. Additional goals include providing information that is readily available to the general public for updates on Watershed Approach work in the Blue Earth River watershed.
The Blue Earth SWCD will be monitoring 7 stream sites located in the Le Sueur River Watershed. The stream sites will be monitored at the road crossing locations via bridge, culvert or shore. Onsite conditions will be recorded, water sample readings will be taken for Secchi tube, specific conductance, temperature, pH, DO, and photos taken.
The purpose of this project is to complete a feasibility study to determine the best sites for projects in the Boot Creek headwaters, in the Le Sueur River watershed, to reduce erosion and pollutant loading. The study will identify critical source areas and provide additional watershed information to assist in prioritizing locations to address local resource management and water quality goals.
This project will result in the final the Bois de Sioux River Watershed Restoration and Protection Strategies (WRAPS) report and Total Maximum Daily Load (TMDL) study. This work order will authorize the consultant to address all comments received during the public notice period and produce the final WRAPS report for the Minnesota Pollution Control Agency's final approval and a final TMDL study for United States Environmental Protection Agency's (EPA) final approval.
The United States Environmental Protection Agency (USEPA) requires the Minnesota Pollution Control Agency (MPCA) to carry out the Total Maximum Daily Load Program (TMDL) in the state of Minnesota. Minnesota has an abundance of lakes and river reaches, many of which will require a TMDL study. In an effort to expedite the completion of TMDL projects, the MPCA has decided to construct watershed models. These models have the potential to support the simultaneous development of TMDL studies for multiple listings within a cataloging unit or 8-digit Hydrologic Unit Code watershed.
This project involves the extension and update of the Hydrological Simulation Program FORTRAN (HSPF) model for the Bois de Sioux and Mustinka watersheds.
This project will address United States Environmental Protection Agency (EPA) comments on the preliminary draft Total Maximum Daily Load (TMDL) study and Minnesota Pollution Control Agency (MPCA) comments on the pre-public notice draft TMDL study and Watershed Restoration and Protection Strategy (WRAPS) report, and produce the public notice draft TMDL study and the public notice draft WRAPS report ready for public review and comment. Conduct one public meeting for each watershed to present public notice drafts of the TMDL study and WRAPS report for each watershed.
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.
Over a century ago, the construction of Judicial Ditch No. 3 resulted in the rerouting of the South Branch of the Buffalo River, completely changing its flow characteristics. In the first phase of this multi-phase project, the Buffalo-Red River Watershed District (BRRWD) in partnership with landowners, federal, state, and local agencies, will put much of the rerouted channel back restoring up to 4.6 miles of the South Branch with up to 100 acres of associated riparian habitat corridor.
The goal of this project is to complete the construction of an Hydrologic Simulation Program FORTRAN (HSPF) watershed model for the Buffalo River watershed. Tetra Tech will produce a HSPF watershed model application(s) that will be fully functioning and ready for calibration as part of Phase 2.
This is the second phase of building the Hydrologic Simulation Program FORTRAN (HSPF) model for the Buffalo River watershed. The project will result in a completed model including necessary calibration and validation phases.
The United States Environmental Protection Agency (USEPA) requires the Minnesota Pollution Control Agency (MPCA) to carry out the Total Maximum Daily Load Program (TMDL) in the state of Minnesota. Minnesota has an abundance of lakes and river reaches, many of which will require a TMDL study. In an effort to expedite the completion of TMDL projects, the MPCA has decided to construct watershed models. These models have the potential to support the simultaneous development of TMDL studies for multiple listings within a cataloging unit or 8-digit Hydrologic Unit Code watershed.
This project will continue to develop, and calibrate/validate the hydrology of an Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Buffalo River watershed. The consultant will add representation of point source discharges to the model. The consultant will compile flow data for the purposes of calibration and validation. An initial hydrologic calibration will be performed and submitted for approval.
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.
The goal of this project is to address public comments on the public noticed draft Watershed Restoration & Protection Strategy (WRAPS) study and Total Maximum Daily Load (TMDL) report for the watershed, and to produce a final draft WRAPS study and TMDL report ready for final approval by the United States Environmental Protection Agency (USEPA) and Minnesota Pollution Control Agency (MPCA).
A century of channel straightening efforts has significantly reduced the habitat quality within the BRRWD. The BRRWD has identified, with preliminary designs completed, a number of straightened streams. In the second phase of this multi-phase project, the BRRWD in partnership with landowners, federal, state, and local agencies, will restore 7 miles of the Upper Buffalo River channel and riparian habitat corridor, and 4.2 miles of the South Branch Buffalo River channel and riparian habitat corridor.
This Surface Water Assessment Grant (SWAG) project is intended to supplement the 2019-2020 Intensive Watershed Monitoring (IWM) process for the Buffalo and Upper Red River of the North watersheds. Nine sites will provide water chemistry and river eutrophication data to the IWM. Monitoring sites were requested by the Buffalo - Red River Watershed District (BRRWD) and the Minnesota Pollution Control Agency (MPCA).
A century of channel straightening has significantly reduced the stream habitat quality within the BRRWD. The BRRWD has identified, with preliminary designs completed, a number of straightened streams. In several multi-phase projects, the BRRWD in partnership with landowners, federal, state, and local agencies, will restore 3 miles of targeted stream and their respective riparian habitat corridors. Targeted restorations of straightened streams include the South Branch of the Buffalo River, Upper Buffalo River, Stony Creek, Whisky Creek, and Whiskey's Creek southern tributary.
The Cannon River Watershed is a diverse watershed from the standpoint of topography, land use, and land cover, but a central issue of concern is increased sedimentation and turbidity within the river. One of the best ways to keep sediment from entering the Cannon River is to install vegetative buffers on the smaller tributaries in the upper reaches of the watershed. This project is important as it aims to help identify strategic locations where buffers are needed and to assist landowners to install buffers that will directly help reduce sedimentation within the watershed.
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.
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.
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.
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.
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.
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:
