This is Phase 13 Ducks Unlimited's of prairie wetland acquisition and restoration program in Minnesota. DU proposes to acquire and restore land containing wetlands and drained wetlands, and land bordering shallow lakes in Minnesota's Prairie Pothole Region for inclusion in MNDNR state WMAs and USFWS federal WPAs/NWRs. This ongoing land acquisition/restoration program focuses on restoring cropland with drained wetlands near existing WMAs and WPAs/NWRs to help restore prairie wetland habitat complexes for breeding ducks, other wildlife, and people.
Funding through this appropriation enhanced 4,745 acres of wetland habitat. Four wetland/shallow lake infrastructure projects were competed that enhanced 1,020 acres and and another project restored 50 acres. Wetland management actions (wild rice seeding, a significant drawdown, and a major large prescribed burn) enhanced 1,997 acres. Work by the Region 3 Roving Habitat Crew enhanced 1,678 wetland acres through work on prescribed burns, drawdowns, herbicide applications, and removal of woody vegetation.
This Phase 11 request supports Ducks Unlimited's prairie land acquisition and restoration program. DU proposes to acquire and restore 550 acres of land containing drained wetlands and land on shallow lakes in SW Minnesota's Prairie Pothole Region for transfer into the Minnesota DNR's state WMA system. This land acquisition and restoration program focuses on restoring cropland with drained wetlands along shallow lakes and adjoining WMAs to help restore prairie wetland habitat complexes for breeding ducks and other wildlife.
State leadership for the 4-H Shooting Sports & Wildlife Program, including staff and 4-H volunteer committee members, will provide a menu of equipment options for local programs to choose from as a means to build their Shooting Sports & Wildlife project. Local programs will submit a grant application justifying how the new equipment will help them build and grow their program, attract and engage new audiences, and provide sustainability in their local chapter.
The goal of this project is to extend, calibrate, and validate the existing Hydrological Simulation Program FORTRAN (HSPF) model for the Snake River Watershed in the Red River Basin. The contractor will produce an HSPF model that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDL) Studies. The model will generate predicted output for hydrology, sediment, nutrients, and dissolved oxygen that is consistent with observed data.
Continue and finalize watershed models using Hydrologic Simulation Program FORTRAN (HSPF) for the Grand Marais Creek and Snake River Watersheds and complete the calibration/validation process.
The goal of this project is to utilize the information and data collected in the Phase I project to develop a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study that will address water quality impairments and maintain or improve water quality throughout the Snake-Middle River Watershed. The Phase II project will allocate pollutant reductions goals, and prioritize and identify implementation strategies to maintain or improve water quality in key streams in the watershed.
This project will result in the completion of the first phase of the Watershed Restoration and Protection Strategy (WRAPS) for the Snake-Middle River Watershed.
The goal of this project is to utilize the information and data collected in the Phase 1 project to develop a Watershed Restoration and Protection Strategy (WRAPS) report and Total Maximum Daily Load (TMDL) study that will address water quality impairments and maintain or improve water quality throughout the Snake-Middle River Watershed. The Phase 2 project will allocate pollutant reductions goals and prioritize and identify implementation strategies to maintain or improve water quality in key streams in the watershed.
Prepare preliminary engineering report to help identify feasibility of adding a second intake upstream of current intake.
Prepare preliminary engineering report to help identify feasibility of adding a second intake upstream of current intake.
The goal of the project is to sustain the existing Volunteer Nitrate Monitoring Network (VNMN) domestic well network for long-term groundwater quality studies by generating ambient groundwater quality data in domestic drinking water wells completed in various southeastern Minnesota aquifers, contrasting vulnerable and non-vulnerable hydrogeologic settings.
Imminent Health Threat (IHT) systems are those that are discharging improperly treated human waste onto the ground surface or into surface waters. In addition to the potential water quality impacts, untreated sewage has the potential to introduce bacteria and viruses into the environment. When IHT systems are identified, county or city staff assist the homeowners through the process required to bring their systems into compliance with the septic ordinance.
Each fiscal year of ACHF funding, a majority of the twelve regional library systems agree to allocate 10% of their ACHF funding to support statewide partnership projects. SELCO serves as the fiscal agent for statewide projects.
We will deploy acoustic detectors and revisit roost trees identified in our previous ENRTF project to measure effect of seven years of white-nose syndrome on Minnesota bats.
This project seeks to provide data on insecticide contamination in the soil and the insect community across the state and the effect of sublethal insecticide exposure on insect reproduction.
To support teachers in addressing new science standards , we propose a series of workshops across Minnesota facilitating conversation about sustainability and water conservation, specifically integrating western science and Indigenous perspectives.
A partnership of local agencies and organizations will monitor water quality at eighteen carefully chosen sites within the Red Lake River and Grand Marais Creek watersheds. Fourteen monitoring sites have been chosen within the Red Lake River watershed. Four sites have been chosen in the Grand Marais Creek watershed. Each of these sites will provide a representative assessment of the water quality conditions within one or more minor subwatersheds at the 12-digit hydrologic unit code (HUC12) level.
This project will collect water quality data at sites within the Thief River watershed. Nine monitoring sites were chosen at strategic locations along the Thief River and its significant tributaries.
This project will finalize the Hydrologic Simulation Program FORTRAN (HSPF) watershed model construction and complete the calibration/validation process. The consultant will produce an HSPF watershed model that can readily be used to provide information to support conventional parameter TMDLs.
Three streambank stabilization projects have been identified as high priority projects in the Thief River Falls Water Quality Study completed in 2017. The proposal will use a combination of bendway weirs, toe protection by building a floodplain bench and live stake plantings. It has been estimated that a total of 385 tons per year of sediment from these three locations is entering the river contributing to the impairment downstream.
The goal of this project is to calculate an additional bacteria total maximum daily load and incorporating that information in the Total Maximum Daily Load Report (TMDL) and the Watershed Restoration and Protection Strategy (WRAPS) report. Other services that will be provided during this project are technical assistance, assistance with responses to comments received during the public notice process, incorporating public comments into the documents and preparing the documents for final federal and state approval.
The goal of the project is to identify priority locations for project implementation using the Prioritize, Targeting, and Measuring Application (PTMApp) in the Thief River Watershed. The PTMApp will be used to identify and evaluate the suitability and effectiveness of best management practices including treatment scenarios, and provide estimates of sediment, nitrogen, and phosphorus delivered to the Thief River Watershed, which is impaired for sediment.
