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.
A long-term project to protect Minnesota's only population of ball cactus has begun successfully. To cement this success, population expansion/establishment will finish and long-term volunteer monitors will be trained.
Loon Lake, the receiving waterbody for Jackson Judicial Ditch 8 (JD8), is impaired for nutrients - with phosphorus being a primary concern, along with a delta of sediment forming where JD8 flows into Loon Lake. JD8 is impaired for benthic macroinvertebrates and fish bioassessments, which indicates that the long-term health of the system is poor. The project proposed in this application will construct a 4.6-acre constructed wetland along the JD8 open ditch, providing water storage and allowing sediment and nutrients to settle out before entering the lake.
Beginning in June 2019, the St Louis River Watershed will start the second round of the Watershed Restoration and Protection Strategies (WRAPS) process. This project helps the Carlton County SWCD (SWCD) initiate a broader citizen participation process in the Watershed. The SWCD staff will be enabled to create a greater degree of public interest in and awareness of the general health of the Watershed. This work will create the foundation for greater citizen involvement in the planning and implementation of restoration and protection activities in the Watershed.
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.
This project will provide a protocol for prioritizing sites in the St. Louis Area of Concern (AOC ) for restoration based on site-specific bioavailability considerations. Despite large data collection efforts focused on sediment chemistry, the extent to which sediment with moderate levels of contamination is available for uptake into biota and therefore contributing to Beneficial Use Impairments (BUI)s is still largely unknown.
The St. Louis River Area of Concern (SLRAOC) conservation partners are focused on removing Beneficial Use Impairments (BUI) in the estuary and eventually delisting the SLRAOC. Cooperative efforts between multiple resource agencies and regional stakeholders have identified a host of restoration objectives, developed project support activities, and partially secured funding that includes a state commitment through the Minnesota Clean Water Fund.
The St. Louis River Area of Concern (SLRAOC) conservation partners are focused on removing Beneficial Use Impairments (BUI) in the estuary and eventually delisting the SLRAOC. Cooperative efforts between multiple resource agencies and regional stakeholders have identified a host of restoration objectives, developed project support activities, and partially secured funding that includes a state commitment through the Minnesota Clean Water Fund.
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.
This project will provide technical, planning and engineering assistance to the MPCA for the development and implementation of the St. Louis River Remedial Action Plan (RAP). USACE and USEPA in partnership with the MPCA will administer work plans to complete a sediment assessment for Minnesota areas within Superior Bay, St. Louis Bay, Lower St. Louis River and the Upper St. Louis River, encompassing approximately 5,349 acres of the St. Louis River and Estuary.
The purpose of this project is to provide technical support to data generators and users of the Saint Louis River Area of Concern (SLRAOC) to support the Beneficial Use Impairment (BUI) removal process.
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).
This project is completing Feasibility Study Addendums and updating other project documents for Thomson and Scanlon Reservoirs, and Mud Lake W sites in the St. Louis River Area of Concern (AOC).
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.
