Four stream segments, totaling over 100 miles, are impaired in the Little Fork River for Total Suspended Solids (TSS) and this study will provide local partners with project options for reduction of sediment in the Little Fork Watershed. Through the use of sediment fingerprinting determinations can be made if the sediment is from in or near channel, or the watershed and identify what sub-watershed the sediment is coming originating.
The sediment fingerprinting design will be custom fit for the unique geology and land-use history in the Little Fork River Watershed. The design will identify potential sources of sediment pollution within the watershed, including soil erosion from upland forests and wetlands from subwatersheds with different glacial deposits and bedrock geology, gullies, riverbanks, and bluffs. This will enable local partners to field verify potential BMP locations with private and public land owners to mitigate sediment inputs to the Little Fork Watershed.
This phase one project is to develop an understanding of sediment transport and fate in the Little Fork River system through the use of sediment fingerprinting and a sediment budget by setting up sampling sites for target sediments and source sediments.
The Little Fork River and Big Fork River - USGS FLOWSED project was established to collect site specific data for streamflow, SSC, and bedload at the Littlefork and Big Fork Rivers in Northern Minnesota; use the data to evaluate the use of dimensionless sediment rating curves for the rivers; and document the results of the study in conjunction with the results from other rivers in the state for the application of regional sediment rating curves to rivers in Minnesota.
Four stream segments, totaling over 100 miles, are impaired in the Little Fork River for Total Suspended Solids (TSS). This study will provide local partners with project options for reducing sediment in the Little Fork Watershed. Through the use of sediment fingerprinting determinations can be made if the sediment is from in (or near) channel, or the watershed and identify what sub-watershed the sediment is coming originating.
The Little Fork River Watershed Assessment will include the waters of the Rice River, Little Fork River, Flint Creek, Nett Lake River, Beaver Brook, Valley River, Willow River, Sturgeon River, Bear River, Dark River, and the Lost River. This Assessment will also include Little Bear Lake, Bear Lake, Thistledew Lake, Little Moose Lake, Raddison Lake, Napoleon Lake, Owen Lake, Dark Lake, Clear Lake, Long (Main) Lake, Dewey Lake, and Long (North) Lake. These lakes and streams are found throughout the Little Fork River Watershed, which spans parts of Koochiching, St. Louis and Itasca Counties.
The purpose of this project is to re-calculate the Littlefork river sediment Total Maximum Daily Load (TMDL) utilizing the 15 mg/L Total Suspended Solids (TSS) standard and update the associated Littlefork Watershed Restoration and Protection Strategies (WRAPS) document.
Provide approximately 15 matching grants for local parks, trail, acquisition of natural areas and trails to connect people safety to desirable community locations and regional or state facilities.
The objectives of this project are to update and extend the simulation periods of the St. Louis River and Cloquet River watershed Hydrologic Simulation Program – FORTRAN (HSPF) model and the Duluth urban area HSPF model and conduct recalibration of the hydrology and water quality simulations. The model updates will support work to update the existing Watershed Restoration and Protection Strategy (WRAPS) reports.
The goal of the St. Louis River Watershed Mercury Total Maximum Daily Load (TMDL) is to determine the mercury reductions needed to meet the water quality standards for mercury and support healthy consumption of fish by people and wildlife. Fishing is important in this watershed for economic and cultural reasons, including the exercise of tribal treaty rights; Fond du Lac’s 0.77 ng/L water quality standard protects subsistence fishing. This project will result in the development of the Mercury TMDL calculations and associated mercury source assessment.
The project provides the opportunity for the North Saint Louis Soil and Water Conservation District (NSLSWCD) to engage in efforts to increase public participation in the St. Louis River Watershed and participate in the planning and technical review of the Watershed Restoration and Protection Strategies (WRAPS) process. NSLSWCD contains the headwaters of the St. Louis River Watershed. The District’s knowledge of the area, communities, and organizations puts them in a unique position to work cooperatively in the watershed.
This project will gather watershed data necessary for the development of a Watershed Restoration and Protection Strategy (WRAPS) report to maintain and improve water quality for the St Louis River Watershed.
The St. Louis River watershed is one of the largest watersheds in northern Minnesota and the largest single contributing watershed to Lake Superior. Surface waters are abundant with 353 lakes and 97 streams segments. Large areas of forest and wetlands help to sustain areas of exceptional water quality. However, land use changes have degraded many lakes, rivers, and streams. 21 stream reaches have aquatic life impairments, as identified by high turbidity (1 reach), poor quality aquatic macro-invertebrate community (16 reaches), and/or poor quality fish community (12 reaches).
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 constructs watershed models. These models support the development of TMDL studies for multiple listings within a watershed. In 2017 the Lake of the Woods (LOW) watershed HSPF model was extended through 2014.
The Lower Mississippi River Feedlot Management in MN project will be leveraging State funding from BWSR to provide match for a United States Department of Agriculture Natural Resources Conservation Service (USDA-NRCS) Regional Conservations Partners Program (RCPP). BWSR will provide technical and financial assistance to plan and design projects to mitigate feedlot runoff from smaller (less than 300 animal units or AUs*), open lot feedlots in southeastern Minnesota.
This funding resulted in permanent protection of three strategically located parcels totaling 125 acres. Funding was used to protect high priority parcels within the Lower Root and Lower Zumbro River floodplains. This was part of a broad partnership working to improve habitat quality and connectivity in critical areas along the Mississippi River corridor. Two of the three parcels acquired are now being managed as State Forests (SFT), while the third parcel is being managed as a Wildlife Management Area (WMA).
Katha Dance Theatre (KDT) will produce a mainstage program of three world premiere dance concerts to share the art, culture, and history of India through the art of Kathak dance - the 2,000-year-old classical dance style of North India. These productions will include the world premiere of GANGA. The Myth and Reality, the world premiere of PANCHATANTRA, and the world premiere of PRAKRITIR PRATISODH Nature's Revenge. The first will premiere in St. Paul, the second in Minneapolis, and the third will play in another Twin Cities venue (TBD).
Leveraging new statewide climate data, we will assess future change in the duration, frequency and magnitude of heavy precipitation and drought events and engage communities to prepare for these extremes.
To rehabilitate plumbing, electrical, and weather-tightness, and restore interior finishes on the log residence of the Marcell Ranger Station, constructed by the Civilian Conservation Corps and listed in the National Register of Historic Places
