Diverse habitat is critical to sustaining quality fish populations in lakes and rivers. The Minnesota Department of Natural Resources (MNDNR) will complete nine fish passage projects to restore habitat connectivity for fish and other aquatic life, and restore reaches of five different rivers, creating nine miles of diverse aquatic habitat. Though the actual footprint of fish passage projects is relatively small, these projects will reconnect over 10,000 acres of lake and river habitat.
The Minnesota Department of Natural Resources (MNDNR) will complete one fish passage project to reconnect reaches of habitat for fish and other aquatic life and restore reaches of two rivers, creating over nine miles of diverse habitat. The footprint of fish passage projects is small, but the Bucks Mill project will reconnect 6,200 acres of lake and river habitat. Stream projects were selected from a statewide list, prioritized by factors such as ecological benefit, scale of impact, urgency of completion, and local support.
This DNR Aquatic Habitat appropriation used a programmatic approach to achieve prioritized aquatic habitat restoration, and enhancement of lakes and streams across all the LSOHC planning regions. Two large stream restoration projects totaling 54 acres were completed with this appropriation. Also, habitat enhancement projects were completed on 51 Aquatic Management Areas, totaling 1252 acres. Stream habitat work for this appropriation and LSOHC-funded projects from other appropriations was aided by funding for a stream restoration coordinator and interns.
The Fairmont Chain of Lakes habitat restoration project converted almost 35 acres of existing undeveloped and row crop lands into prime habitat. The open water areas were designed to promote northern pike spawning areas to benefit that fish species within the Chain of Lakes. This was accomplished by connecting to the existing Dutch Creek channel that flows adjacent to the project and outlets into the downstream lakes.
Determine habitat associations of breeding bottomland forest birds in response to restoration actions along the Mississippi River at the Reno Bottoms outside Reno, MN
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.
We will map habitat and diseases of urban foxes and coyotes to understand what they need to live and risks posed to people and pets, thereby demystifying them for residents.
This proposal seeks to enhance grassland habitats to benefit pollinators and other species on permanently protected lands. Research on enhanced sites will be conducted by the UofM.
The protection of insect-feeding animals is reliant on sustained insect abundance. We will investigate the ecological roles and energy transfer by Minnesota insects and train future insect researchers
Conduct GHG emissions inventory of City and County operations within the operational boundary of the Morris Model partnership, implement policy to achieve regional targeted reductions, and document and disseminate findings
The Red River Watershed Management Board (RRWMB) will partner with the Board of Water and Soil Resources (BWSR) on this basin-wide initiative to establish 780 acres of riparian/upland habitat within the Red River Basin (RRB) in Northwest Minnesota. This initiative will use BWSR's Reinvest in Minnesota (RIM) Program to target permanent conservation easements on agricultural lands to restore and protect stream and riparian habitat.
Minnesota Trout Unlimited, the Minnesota Land Trust, and The Nature Conservancy will combine their expertise within 12 targeted watersheds to increase the resilience of remnant populations of brook trout unique to Southeast Minnesota. We will protect 535 acres and restore/enhance 95 acres of instream and adjacent upland habitats to address stream degradation (floodplains, gullies, slopes, and bluffs), slow runoff, increase infiltration, and keep aquatic habitat productive.
This request will transform 1.6 miles of Shingle Creek in north Minneapolis into a functioning ecological corridor, leveraging an additional $3.27 million in planned recreational improvements.
Framework to prioritize water storage projects strategically throughout the state. The framework will use existing data, local stakeholder input, be scalable, and emphasize multi-benefit water storage (water quality, flooding, habitat).
A class of insecticides known as systemic neonicotinyl insecticides has been identified as a potential factor in recently observed declines in pollinators, including the phenomenon amongst honeybees known as Colony Collapse Disorder. Previous research examining the effects of neonicotinyl insecticides on lab colonies of bumblebees found that exposure to these insecticides at various levels increased queen bee mortality and detrimentally altered bee behavior and production.
Phase 3 of the PCHP sought to acquire parcels as State Wildlife Management Areas or Waterfowl Production Areas in the Southern Red River Valley. Over the course of the appropriation, we acquired one 64.1 acre tract as a waterfowl production area and two tracts totaling 555.7 acres as wildlife management areas. Upland prairie and wetland habitat were restored on all tracts to provide the highest quality wildlife habitat possible.
RIM Wetlands - Restoring the most productive habitat in Minnesota's Prairie Pothole Region will protect and restore approximately 520 acres of previously drained wetlands and adjacent native grasslands on approximately 12 easements across the State. The Board of Water and Soil Resources (BWSR) will utilize the Reinvest in Minnesota (RIM) easement program in partnership with local Soil and Water Conservation District (SWCDs) to target, protect and restore high priority habitat. The program will utilize a ranking and selection process and be implemented locally by SWCD staff.
This Phase 1 partnership will accelerate USFWS wildlife habitat easements to restore and protect 720 acres of private grasslands and pothole wetlands in west-central Minnesota. These "working land" conservation easements allow delayed haying and grazing while protecting restored wetlands and prairie grasslands for nesting ducks, pheasants, and other wildlife.
This Phase 2 partnership will accelerate USFWS wildlife habitat easements to restore and protect 775 acres of private grasslands and pothole wetlands in west-central Minnesota, and restore 50 additional prairie-wetland acres too. These "working land" conservation easements allow delayed haying and grazing while protecting restored wetlands and prairie grasslands for nesting ducks, pheasants, and other wildlife.
Using two prairie restorations, we will investigate how common restoration variables affect bumblebee habitat suitability by conducting bumblebee surveys and assessing nesting and foraging habitat in restored and remnant prairies.
This project involves collaboration with various organizations to enhance cultural connections, strengthen positive identity development, and provide enriching experiences for Black youth and families in Central Minnesota. Specific activities include 1) cultural heritage learning sessions and field trips; 2) a film festival honoring Black filmmakers and performers; 3) a Afrofuturist comic book workshop; 4) Boys & Girls Club art initiatives; 5) a Hip-Hop culture lab; 6) a Hip-Hop dance show; 7) educational support to cultural athletics and sports; 8) theatre production.
This project is to develop a watershed restoration and protection strategies report that provides quantitative pollutant source estimates and a set of pollutant reduction and watershed management strategies to protect and achieve water quality standards for all aquatic life and aquatic recreation impairments in the watershed. The strategies will be understood and adoptable by local units of government and other stakeholders. New understandings and new relationships will inform and lead to eventual environmental improvements.
A pilot project that will enhance connectivity within the Mississippi Flyway by linking urban neighborhood parks to the Mississippi River through restoration and implementation of identified habitat corridors.
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.
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 lost several thousand acres of wetland and grassland habitat within the river corridor. Through an established and successful partnership between the Wild Rice Watershed District and the Minnesota Board of Water and Soil Resources, this 4th request for funding from LSOHC will permanently protect 420 acres of private lands in easements.
Since 2000, a diverse group of partners has been collectively working in northwestern Minnesota on one of the largest prairie-wetland restorations in the world. Spanning 22,000 acres and adjacent to an additional 16,000 acres of public and private conservation land, the goal of the Glacial Ridge Project has been to demonstrate whether large-scale habitat restoration is a viable way to reduce flooding and improve water quality. Prior to beginning restoration efforts on the project, a comprehensive baseline hydrologic study of the area was completed by the U.S. Geological Survey (USGS).
This project will restore lost Mississippi River habitat and reintroduce mussels above St. Anthony Falls on four river islands and along approximately 6,000 linear feet of shoreline.
This project examines strategies to reduce water and land contamination from microplastics, PFASs, and other contaminants due to plastics use in agriculture (agroplastics) and their limited recycling options
