To create restrooms that meet Americans with Disabilities Act requirements in the Litchfield Opera House, listed in the National Register of Historic Places
To hire a qualified and experienced HVAC engineer to evaluate current system preparatory to better control of the Litchfield Opera House, which is listed in the National Register of Historic Places.
To complete stabilization and rehabilitation of the exterior envelope of the Litchfield Opera House, listed in the National Register of Historic Places, and used as a community space.
Completed exterior masonry preservation and rebuild missing entrance column of the Litchfield Opera House which is listed in the National Register of Historic Places. The building envelope is experiencing disintegrating and spalling masonry, cracks in mortar joints and walls, and possible water intrusion. The project restored the physical and visual integrity of the masonry envelope and remove safety threats caused by the unstable parapet.
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 MPCA has selected the Soil and Water Assessment Tool (SWAT) watershed model to simulate watershed hydrology and water quality to assess various restoration scenarios in the Little Cannon River watershed. The SWAT model is an important tool in developing an understanding of existing conditions and simulating conditions under various management scenarios to inform the development of implementation strategies and plans to restore and protect streams and lakes.
The Little Fork River and Big Fork River - USGS FLOWSED project was established to collect site specific data for streamflow, SSC, and bedload at the Littlefork and Big Fork Rivers in Northern Minnesota; use the data to evaluate the use of dimensionless sediment rating curves for the rivers; and document the results of the study in conjunction with the results from other rivers in the state for the application of regional sediment rating curves to rivers in Minnesota.
Little Rock Lake,in Benton County, is negatively impacted for nutrients. Little Rock Lake is a significant regional recreational lake. Toxins released by blue green algae blooms have been the highest ever measured by the Minnesota Department of Health. Given the importance of this resource and the severity of the water quality problems, obtaining tangible water quality improvements is a high priority in the Benton and Morrison County local water management plans.
The water quality and recretional value of Little Rock is negatively impacted by phosphorus. One important strategy involves reducing the quantity of phosphorus imported to the watershed through animal feeding operations. Farm management strategis coupled with traditional conservation practices will reduce surface runoff and phosphorus transport from feedlots and fields. This project will assist corporate poultry industry and local farmers to put into practice animal feed management strategies that reduce the amount of phosphorus contained in chicken feed rations.
Four stream segments, totaling over 100 miles, are impaired in the Little Fork River for Total Suspended Solids (TSS). This study will provide local partners with project options for reducing 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 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.
Little Rock Creek, a cold-water trout stream in central Minnesota, is impaired due to the lack of trout and other cold water fish. The trout are absent because of high water temperatures, low dissolved oxygen and high nitrate levels, stressors caused from a lack of base flow and overuse of groundwater. This project continues a 2011 initiative to assist irrigators in the Little Rock Creek groundwater recharge area with managing the timing and amount of irrigation applied to their crops.
The Little Rock Lake Total Maximum Daily Load study has identified areas in the watershed where phosphorus reduction is needed and what best management practices need to be applied. This is a coordinated implementation effort with Benton and Morrison Soil and Water Conservation Districts and Natural Resources Conservation Service, the Little Rock Lake Association, the livestock industry and other partners to install best management practices at numerous sites to continue cleaning up Little Rock Lake.
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.
The short term goal of the project is introduce the Ojibwe and Dakota Languages to the residents of Little Earth. Programs will be developed to help feel residents feel welcomed and have a basic understanding of the languages. Learning the language will also bring forth the culture of the American Indian community to the residents of Little Earth.
The project will restore and protect cold-water streams for natural occurring brook trout, a sensitive, and semi-rare species, by removing an undersized culvert. The structure is a fish barrier and is creating bank erosion. The project is part of a watershed project identified in local planning efforts and through collaboration with local partners.
ASAL Charities will empower Oromo elders and the wider Oromo community to preserve, celebrate, and honor our identity and culture. This proposal would fund both 1) an intergenerational culture-bearing training program and, 2) add a new cultural celebration component to the annual Ireechaa Festival.
The purpose of this project is to re-calculate the Littlefork river sediment Total Maximum Daily Load (TMDL) utilizing the 15 mg/L Total Suspended Solids (TSS) standard and update the associated Littlefork Watershed Restoration and Protection Strategies (WRAPS) document.
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.
The 11th Grade English and Social Studies students of Windom Area High School (WAHS), the Cottonwood County Historical Society (CCHS), and the American Legion (AL) Post #206 developed a project centered on collecting the experiences of living war Veterans by interviewing, writing, publishing in book format, and promoting the stories of Veterans from CC who have served in the military.
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.
This Phase 9 request for Ducks Unlimited's Living Lakes program will enhance or restore 1,440 acres of wetlands and adjacent prairie grasslands for the U.S. Fish & Wildlife Service and Minnesota DNR on public lands and private lands under permanent easement. DU biologists and engineers will design wetland restorations and water control structures for active management of shallow lake water levels to enhance their ecology for ducks, other wildlife, and people, primarily in SW Minnesota's Prairie Pothole Region.
This Phase 10 request for Ducks Unlimited's Living Lakes program will enhance or restore 1,325 acres of wetlands and adjacent prairie grasslands for the U.S. Fish & Wildlife Service and Minnesota DNR on public lands and private lands under permanent easement. DU biologists and engineers will design wetland restorations and water control structures for active management of shallow lake water levels to enhance their ecology for ducks, other wildlife, and people, primarily in SW Minnesota's Prairie Pothole Region.
Planting Minnesota native trees, shrubs, grasses, and wildflowers in new and/or existing living snow fence sites provides blowing snow control along transportation corridors and decreases road salt use.
This Phase 8 request for Ducks Unlimited's Living Lakes program will enhance or restore 1,070 acres of wetlands and adjacent prairie grasslands for the U.S. Fish & Wildlife Service and Minnesota DNR on public lands and private lands under permanent USFWS easement. Where required, DU engineers will design water control structures to restore wetland hydrology and allow active management of shallow lake water levels to enhance their ecology for ducks, other wildlife, and people, primarily in Minnesota's Prairie Pothole Region.
LEQA is a Minnesota Department of Agriculture (MDA) program to help livestock producers address, using a non-regulatory approach, the unique water quality issues on their farms. The MDA has contracted with Ag Resource Strategies, LLC, to recruit farmers to enroll in the LEQA program. The company trains technicians to assess different areas of each farms, such as the farmstead, livestock facilities, fields and wooded areas. The technicians then develop an environmental assessment and identify financial assistance for these projects.
A Level III Feedlot Inventory in the West Fork Des Moines River Watershed identified the need for a new manure storage basin. The Heron Lake Watershed District will be partnering with Murray County, Murray Soil and Water Conservation District, and Southwest Prairie Technical Service Area to construct the basin to ensure that manure and milk house wastewater will be properly stored. In addition, the project will decrease the size and usage of open lots using buffer strip and pasture to significantly reduce nutrient loading.
