To rehabilitate the interior and exterior of the St. Louis County Jail, a contributing element of the Duluth Civic Center Historic District and listed in the National Register of Historic Places.
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).
This Partnership Agreement is a 5-year effort that will provide the technical, planning and engineering assistance for implementation of the 2013 St. Louis River Area of Concern Remedial Action Plan. Through this agreement the U.S. Army Corps of Engineers and MPCA will develop detailed work plans and construction design plans for numerous sites in the project AOC and assist with critical AOC-wide issues. • 21st Avenue West Restoration Site. Outcome will be preliminary to final engineering designs and costs ready for bid package development. • Knowlton Creek Site.
Chambers Grove: restored a natural shoreline, improved fish spawning habitat, and planted native shoreline vegetation (completed in 2015).
Kingsbury Bay: completed engineering and design; began restoration of a wetland complex impacted by excessive sediment and non-native species (to be completed Dec 2020).
Grassy Point: completed engineering and design; began restoration of a wetland complex impacted by legacy milling waste and non-native species (to be completed Dec 2020).
Kingsbury Bay: completed engineering, design, permitting, and contracting. Began a multi-year restoration of a wetland complex impacted by excessive sediment and non-native species in 2019 (to be completed fall 2021).
Grassy Point: completed engineering, design, permitting, and contracting. Began a multi-year restoration of a wetland complex impacted by legacy milling waste and non-native species in 2019 (to be completed fall 2021).
St. Louis County's Comprehensive Water Management Plan Update 2010-2020 identifies providing financial assistance to qualifying homeowners to upgrade or replace failing septic systems as a Priority 2 action. Funds from the FY-16 Clean Water Fund Projects and Practices Grant will be used to provide funding to low-income homeowners to repair or replace SSTS identified as Imminent Threat to Public Health (ITPH) within the following watersheds: Lake Superior South, St.
Preserve and enhance strategic quality natural resources and expand outdoor recreational access to the St. Louis River through trail improvements, trail extensions and connections to state, regional, and local parks.
DNR achieved the following outcomes using ML2019 funds.
-Advanced engineering and design of the Perch Lake, Mud Lake, and Lower Knowlton projects.
-Fabricated and installed a 183-foot, 700-ton culvert, restoring fish passage and hydrologic function at Perch Lake.
-Removed 68,000CY of sediment from Perch Lake, restoring coastal marsh and deep water habitat.
-Conducted professional engineering oversight and implemented a portion of the Kingsbury Bay/Creek watershed restoration project contributing to an estimated reduction of 400+ tons of sediment per year.
MNDNR's St. Louis River Restoration Initiative (SLRRI) is a collaborative program enhancing and restoring the St. Louis River estuary and contributing watershed. The 11,000-acre estuary is a unique resource of statewide significance. SLRRI's vision includes diverse, productive, and healthy aquatic and terrestrial ecosystems of the river and watershed. Through SLRRI Phase 11 we will restore or enhance an additional 62 acres of priority aquatic, wetland, and estuary forest habitat for important fish, game, and Species of Greatest Conservation Need.
Enhance strategic quality natural resources and expand outdoor recreational access to the St. Louis River through additions and connections to state, regional, and local parks and trails.
DNR achieved the following outcomes using ML2018 funds.
-Restored 4 acres of habitat at Interstate Island for threatened bird species, including a 30,000 sqft nesting area.
-Seeded 3,917 lbs of Manoomin with tribal partners across 28 acres.
-Removed 68,000CY of sediment from Perch Lake restoring coastal marsh and deep water habitat.
-Designed and implemented a portion of the Kingsbury Bay/Creek watershed restoration project contributing to an estimated total reduction of over 400 tons of sediment per year.
DNR's St. Louis River Restoration Initiative (SLRRI) advanced multiple large-scale habitat restoration projects. ML2017 funds contributed to:
-Removing 300,000 CY of invasive vegetation, sediment, and sawmill waste from the waters of Kingsbury Bay and Grassy Point, restoring approximately 230 acres of coastal marsh habitat;
-Restoring five acres of habitat at Interstate Island for a threatened avian species by beneficially using over 52,000 CY of clean sand dredged from navigation channels;
To mark our 30th anniversary, Teatro del Pueblo will produce a new LatinX adaptation of Shakespeare's Romeo & Juliet, titled Love in the Time of Hate. This show will celebrate Chicano identity and tackle contemporary issues of race and diversity in the LatinX community. Set at the southern border, we will present Shakespeare's timeless play through a uniquely LatinX perspective by blending Shakespearian verse with contemporary Chicano spoken word, Hip Hop Dance, and original music.
USGS will make streamflow discharge measurements at lowflow measuring stations throughout the state. Measurements will be made during lowflow conditions. On average 100 measurements will be made during FY2012. Stream flow measurements will be entered into the USGS database and made available on the USGS Low Flow Data for Minnesota Streams website.
This proposal seeks to enhance and restore 35 acres of fish and wildlife habitat on the lower Mississippi River in Houston County benefiting bluegill, crappie, bass, deer and Blue-winged and Prothonotary warblers. Sedimentation in Upper Mississippi River (UMR) backwaters and declining UMR floodplain forests are a concern to resource managers, anglers, hunters and recreational users.
The Rice Creek Watershed District is proposing to improve water quality and habitat in Locke Lake and Lower Rice Creek by stabilizing stream banks and bluffs on Lower Rice Creek, reducing in-stream erosion and sediment delivery to Locke Lake, and improving in-stream habitat complexity for fish and invertebrates. Eleven bank stabilization practices would be installed over a continuous 5,400-foot reach in Lower Rice Creek. The anticipated outcome of this project is the prevention of 2,874 tons per year of sediment, which is 58% of the sediment reduction goals for Lower Rice Creek.
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 purpose of this work is to develop a Watershed Restoration and Protection Strategy (WRAPS) and associated Total Maximum Daily Load (TMDL) documents for the Lower Rainy River and Rainy River Rainy Lake Watersheds.
The goal of the Dakota History Symposium at Lower Sioux Agency is to reclaim Dakota voice in a narrative that under-represents Dakota perspective and cultural worldview while providing opportunity for exiled Dakota to reconnect to their shared history, disrupting dominant power dynamics that restrict Dakota truth-telling. Hosting a Dakota-led educational event will enhance public understanding, broaden worldviews perspective and increase access to historic truths of the State of Minnesota.
The goal of the Cansayapi Dakota Iapi (Language) Program is to establish a permanent Dakota language program at Lower Sioux that promotes continuous language learning and speaking opportunities across the generations and community.
Channelization of the Lower Otter Tail River in the early 1950s converted 18 miles of sinuous river channel to 11 miles of straight channel and resulted in the loss of several thousand acres of wetland, and prairie habitat within the river's corridor. Through a partnership between the Buffalo-Red River Watershed District, the Wilkin Soil & Water Conservation District, and the Minnesota Board of Water and Soil Resources, this proposal will permanently protect 410 acres (est.) of private lands in easements.
Objective 1: Increase Dakota language immersion capacity of at least 30 early childhood educators and staff. Objective 2: Introduce and expand Dakota language learning among up to 26 students in grades 9-12 at Cedar Mountain Secondary School. Objective 3: Promote 15 K-8 youth, family, and community engagement in the language through classes, apprenticeships, and community events at the new Lower Sioux Intergenerational Incubator.
Objective 1: By 06/30/2024, increase Dakota language immersion capacity of at least 30 early childhood educators and staff. Objective 2: By 06/30/2024, introduce and expand Dakota languages learning among up to 26 students in grades 9-12 at Cedar Mountain Secondary School Objective 3: by 06/30/2024, promote 150 K-8 youth, family and community engagement in the language through classes, apprenticeships, and community events at the new Lower Sioux Intergenerational Incubator.
Objective 1: By September 30, 2025, increase full time teachers with at least intermediate-mid fluency from 2 to 3 at Lower Sioux/Cansayapi. Objective 2: By September 30, 2025, increase Dakota fluency of two (2) early childhood language nest teachers' Dakota language fluency to at least intermediate low as measured by the ACTFL fluency scale. Objective 3:By September 30, 2025, increase language speaking at home from weekly to daily among 50 families and increase fluency of 20 families by .5-1 level on the ACTFL fluency scale.
Objective 1: By 06/30/2024, increase Dakota language immersion capacity of at least 30 early childhood educators and staff. Objective 2: By 06/30/2024, introduce and expand Dakota languages learning among up to 26 students in grades 9-12 at Cedar Mountain Secondary School Objective 3: by 06/30/2024, promote 150 K-8 youth, family and community engagement in the language through classes, apprenticeships, and community events at the new Lower Sioux Intergenerational Incubator.
This Sauk River Watershed District project will conduct the Whitney Park river clean-up, adopt a river program and other community events as part of their healthy living programs; will collaborate with the city of St. Cloud to install a rain garden demonstration site at Whitney Park; use local radio and public television stations to promote the District’s “neighborhood rain garden initiative” and other incentive programs.
This project will include analysis of existing and newly collected water quality data to verify the impairments on the currently listed reaches and to determine the status of the remaining river reaches as being either impaired or currently meeting standards. Stakeholder involvement and public participation will be a focus throughout the Watershed Approach Project. The project provides an opportunity to assess and leverage the capacity for the local community to engage in the process of watershed management and to adopt protection and restoration practices.
