We assessed, designed rehabilitation features and permitted 7200 linear feet of river reach in prime spawning areas. We completed construction on over 2200 linear feet of the reach.
Poor historic forestry practices in the Knife River watershed have degraded trout habitat and resulted in a TMDL exceedance for turbidity. The LSSA proposes to locate, assess and rehabilitate identified stream impacts within the watershed. The LSSA will use the new MPCA and Natural Channel Design evaluation criteria to rank and prioritize locations for rehabilitation. Our major focus will be stabilizing streambanks, installation of instream habitat and replanting riparian forest.
Historic Knife River flooding has led to stream channel degradation. This degradation resulted in slumping streambanks, sediment discharge exceeding the total maximum daily load (TMDL) and the loss of instream trout habitat. This is LSSA's 6th LSOHC Grant proposal in the Knife River. Since the LSSA began grant work on the Knife River (2013), the DNR has observed a 215% increase in the adult steelhead population. Our LSOHC projects have also stabilized ~2 miles of stream channel, restored ~15,000 feet of streambanks and reduced annual sediment discharge by 700 tons.
Eroding streambanks in the Knife River Watershed have degraded trout habitat and resulted in a total maximum daily load (TMDL) exceedance for turbidity. The LSSA proposes to rehabilitate instream habitat to increase trout spawning and rearing. Natural Channel Design construction techniques will be utilized to create a self-sustaining project that enhances instream habitat, improves channel stability, facilitates sediment transportation, stabilizes eroding streambanks, creates riparian wetlands and replant riparian trees/pollinator shrubs.
Phase I work was conducted on the main Knife River and its Main West Branch tributary. Primary goals were met and these goals include: stream connectivity, riparian zone tree planting, stream assessment and black ash stand identification. • Stream Connectivity - repaired Second Falls on the main Knife River. • Tree Planting - two volunteer and one CCM projects where several thousand trees were planted.
The goal of PH II-Knife River Habitat Rehabilitation project was to improve instream habitat, stabilize slumping streambanks and restore the immediate riparian zone.
Instream habitat and streambank stabilization was achieved by rehabilitating a 2200-foot stretch of stream utilizing Natural Channel Design methodology. This project reduced turbidity by stabilizing four slumping streambanks and creating instream habitat in two areas for adult trout spawning and two areas for 1+ juvenile rearing. Riparian plantings also occurred in this area.
This proposal will address two separate problems: the eminent failure of the Lake George dam and two severe erosion sites on the Rum River at Rum River Central Regional Park. We propose to replace the current failing sheet pile dam with a new dam that allows for fish passage on the outlet of Lake George. We also propose to repair two river bank erosion sites rated as 'Severe' totaling approximately 625 feet on the Rum River which will reduce sediment loading into the river by 285 tons per year and will provide improved in stream fish habitat.
Kandiyohi County with Lessard-Sams Outdoor Heritage Council’s grant was used to address the ecosystem and critical lake habitat on Lake Wakanda. This shallow lake is part of a prairie chain of lakes located south of Willmar at the headwaters of the South Fork of the Crow River, which flows into the Mississippi River.
This project will improve the water quality of Lake Rebecca in Lake Rebecca Park Reserve, and improve the fish habitat in the premier muskellunge brood stock lake in Minnesota. Water quality improvements will be achieved through a combination of management activities in the watershed to reduce phosphorus inflow to Lake Rebecca, control of the invasive species curly-leaf pondweed, stabilization of eroding shorelines, and application of alum (aluminum sulfate) to reduce internal phosphorus loading.
After a century of industrial use, the project brought Lake Bemidji's South Shore to its original state. The city removed 1,144 tons of contaminated soil and sediment, 9,400 cubic yards of woody debris from the lake-bottom and planted native vegetation on the shoreline to restore and enhance aquatic habitat.
MPRB requests $444,000 to improve aquatic habitat in Lake Nokomis through integrated lake management. This project will enhance 4580 linear feet of shoreline.
Attempted to Acquire 108.5 acres of land adjacent to the 555 acre Janet Johnson WMA. The land is a mix of forest (29 acres), wetlands (35 acres on the NWI), and agriculture (44.5 acres).
Project Partners Minnesota Deer Hunters Association (MDHA) and The Conservation Fund (TCF) worked to cooperatively with St. Louis County to protect 1,600 acres of forest habitat at risk of being converted to uses that would degrade critical habitat for wildlife in Minnesota's northeast forest landscape.
This program will not only expand an existing WMA by 252 acres for public outdoor recreation (e.g. hunting, fishing, etc.) but it will also protect the viability of the WMA into perpetuity through 634 acres of permanent conservation easements. This project focuses on the Little Nokassippi River Wildlife Management Area (WMA) which was established in 2006 complements to the Army Compatible Use Buffer (ACUB) program and the support from Crow Wing County and the Minnesota Department of Natural Resources (DNR). The WMA is situated within a very critical area of the Camp Ripley ACUB.
This Phase 6 request for Ducks Unlimited’s Living Lakes program will enhance 1,000 acres of shallow lakes and restore 50 acres of small wetlands by engineering and installing water control structures for Minnesota DNR and U.S. Fish & Wildlife Service on public lands and wetlands under easement. Structures will be used by DNR and Service partners to restore wetland hydrology and actively manage shallow lake water levels to enhance their ecology for ducks, other birds, and hunters in the Prairie Region of Minnesota.
Ducks Unlimited successfully enhanced 3,437 wetland acres and restored 83 wetland acres through this grant, which significantly exceeds our grant acre goals of 2,000 acres of wetland enhancement and 50 acres of wetlands restored for this 2017 OHF appropriation.
This Phase 7 request for Ducks Unlimited's Living Lakes program will enhance 1,160 acres of shallow lakes and restore 120 acres of small wetlands by engineering and installing water control structures for Minnesota DNR and U.S. Fish & Wildlife Service on public lands and wetlands under easement. Structures will help DNR and Service agency partners restore wetland hydrology and actively manage shallow lake water levels to enhance their ecology for ducks, other birds, and hunters in Minnesota's Prairie Pothole Region.
Phase 2 of Ducks Unlimited's ongoing engineering program restored and enhanced shallow lakes and wetlands by installing water level control structures to improve aquatic plant abundance and water clarity in partnership with the Minnesota DNR and U.S.
In this Phase 4 of our ongoing "Living Lakes" program to enhance shallow lakes and restore wetlands, DU successfully enhanced 5,952 acres of shallow lakes and wetlands and restored 59 acres of wetlands by completing 16 separate projects for waterfowl and other wildlife in the Prairie, Transition, and Metro Sections in partnership with Minnesota DNR, U.S. Fish & Wildlife Service, and private landowners.
MNDNR’s St. Louis River Restoration Initiative (SLRRI) applies a collaborative approach to restore sites impacted by legacy habitat alterations of wood waste, wetland loss and sedimentation to establish ecologically resilient aquatic and riparian fish and wildlife habitat that will establish the St. Louis River Estuary as a premier fishing and outdoor recreation destination. MNDNR will restore 181 acres of priority aquatic and riparian habitat at multiple sites in the lower St. Louis River in partnership with the Minnesota Land Trust.
MNDNR’s St. Louis River Restoration Initiative (SLRRI) is a collaborative program that has successfully enhanced and restored the ecological diversity of this unique and valuable resource. The vision for the Estuary includes diverse, productive, and healthy aquatic and terrestrial ecosystems of the river and watershed. Contributing to this vision, MNDNR will restore 133 acres of priority aquatic and riparian habitat at multiple sites in the Estuary in partnership with the Minnesota Land Trust.
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.
MNDNR's St. Louis River Restoration Initiative (SLRRI) is a collaborative program enhancing and restoring this unique and valuable resource. The SLRRI's vision for the estuary includes diverse, productive, and healthy aquatic and terrestrial ecosystems of the river and watershed. Contributing to this vision, MNDNR works with partners throughout the 12,000-acre estuary to identify and prioritize key projects and implement previously identified projects that restore 35 acres of priority aquatic and riparian habitat.
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).
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.
This Corridor Habitat Restoration Project is a cooperative effort between the District (WRWD), MN Board of Soil and Water Resources (MNBWSR), MN DNR, and Red River Watershed Management Board (RRWMB). This is a voluntary program with the long-term goal to restore a natural corridor area along the Lower Reach of the Wild Rice River. When completed, the project will restore 23 channelized river miles to 50 miles of natural stream channel.
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.
This program resulted in permanent protection of three parcels totaling 350 acres. All three parcels are now being managed as Wildlife Management Areas (WMA) by MN DNR. This exceeds the original goal of 319 acres. Acquisition of two other parcels were attempted, but the offers were turned down by the sellers.
The Lower Mississippi River Habitat Restoration Partnership is a long-term effort to restore habitat connectivity and improve water quality in critical areas along the Mississippi River corridor from the Twin Cities to the Iowa border by reconnecting tributaries to their floodplains, revitalizing backwaters and channels, and protecting and restoring floodplain forests, wetlands, and prairies that are essential to sustaining the incredible diversity of plants, animals, and human uses provided by this great river.
Channelization of the Lower Wild Rice River in the early 1900s converted 50 miles of sinuous river channel to 23 miles of straight channel and resulted in the loss of several thousand acres of wetland and grassland habitat within the river's corridor. Through a partnership between the Wild Rice Watershed District and the Minnesota Board of Water and Soil Resources, this proposal will permanently protect 430 acres of private lands in easements.
The Lower Mississippi River Habitat Partnership included three distinct project components. The U.S. Fish and Wildlife Service enhanced 700 acres of wetland and bottomland forest habitat on the Upper Mississippi River National Wildlife and Fish Refuge’s (Refuge) Root River Tract in Houston County.
Radio Tower Bay: 115,000 cubic yards of wood material was removed to increase water depth, provide greater habitat diversity, promote native aquatic vegetation and increase recreational access.Knowlton Creek: 6,500 linear feet of degraded stream was restored by reshaping and creating new stream channels; constructing instream structures; and native planting and seeding to stabilize the stream and minimize sediment into the Estuary.21st Ave W/Interstate Island: Restored 2 acres of critical nesting habitat for the Common Tern and Piping Plover.Wild Rice: Restored 133 acres of wild rice in the
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).
The primary goal of the Marsh Lake Ecosystem Restoration Project is, “To return the Marsh Lake area ecosystem to a less degraded and more natural condition by restoring ecosystem structure and functions.” Work was completed on this project in March 2020 and consisted of a new water control structure to allow for water level management, restoration of the Pomme de Terre River to its original channel, and establishment of a fishway to allow for movement of native fish.