Life House will develop an in-depth strategic planning process lead by Northspan Consulting to 1) develop a three-year strategic plan; 2) analyze contradictions; 3) create an action plan.
A 38-minute documentary video was produced to capture and portray the diversity and vibrancy of the Lincoln Park/West End neighborhood and its history from the late 1880's to 1950's.
Research was conducted for the local churches, schools, businesses, events and the Park. Seven interviews provide insights into the life and times of area residents.
The video was made available to the public via the Duluth public television station, through community showings and at the Public Library.
To restore the masonry foundation facade, exterior steps, and interior fireplace hearth in the cabin at Listening Point, listed in the National Register of Historic Places.
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 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.
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.
This project will develop, implement, and evaluate civic engagement activities within the Rainy River Headwaters and Cloquet watersheds. In addition, Lake County will also assist in expanding water quality monitoring efforts in support of the Watershed Restoration and Protection Strategy (WRAPS) process.
The purpose of this contract is to augment data collection efforts for the St. Louis River (SLR) Watershed Restoration and Protection Strategy (WRAPS) and for four impaired Duluth beaches. For the SLR WRAPS, activities include: attaining datasets for watershed stressors and geomorphic conditions, water quality gap monitoring, and a civic engagement component. Impaired beaches activities include: collection of field observational data, field water chemistry, and water quality samples for analytical analysis.
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.
State resource agencies are implementing a delisting strategy for the St. Louis River Area of Concern (AOC) by completing the Remedial Action Plan (RAP). A suite of 80 management actions in the RAP were developed to address specific Beneficial Use Impairments (BUI) identified throughout the estuary. Removing these legacy impacts often involves restoring historically altered habits by manipulating sediment characteristics, restoring shoreline function, and constructing under water features.
MNDNR's St. Louis River Restoration Initiative (SLRRI) is a collaborative program enhancing and restoring the St. Louis River estuary. This 12,000 acre estuary is a unique resource of statewide significance. SLRRI's vision for the estuary includes diverse, productive, and healthy aquatic and terrestrial ecosystems of the river and watershed. MNDNR and MN Land Trust's SLRRI Phase 8 will restore an additional 155 acres of priority aquatic, wetland, and forested habitat for important fish, game, and SGCN.
To offer new arts and cultural heritage programming at the St. Louis County Fair. Programming will include performances by Irish Dancers, a Native American pow-wow, children's theater, vaudeville, and music featuring a barbershop quartet, gospel, and Americana songs.
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.
