The Shell Rock River Watershed District (SRRWD) Phase X Habitat Restoration Program will enhance, and protect 389 acres of essential prairie upland, wetland, and streambank habitat across the watershed. As a result of the strategic projects, key biological functioning parcels will be permanently protected, vegetation and feeding sources will be restored for migratory fowl habitat and wetlands will be restored from row crop agriculture.
The Shell Rock River Watershed District (SRRWD) Phase IX Habitat Restoration Program will restore, enhance, and protect 483 acres of essential prairie upland, wetland, and streambank habitat across the watershed. As a result of strategic projects, key biological functioning parcels will be permanently protected, streambank habitat will be protected, vegetation and feeding sources will be restored for migratory fowl habitat and wetlands will be restored from row crop agriculture.
Run a set of scenarios in Hydrological Simulation Program – Fortran Scenario Application Manager (HSPF-SAM) for the Shell Rock and Winnebago River Watersheds. The scenario results will identify the most cost-effective subwatersheds and higher resolution areas based on the terrain component for the scenario best management practices (BMPs) to be implemented. The terrain analyses redistributes subbasin-wide SAM loading rates at a higher resolution for localized targeting of more critical and cost-effective source areas.
The goal of this project is to leverage the existing Hydrological Simulation Program FORTRAN (HSPF) model application that has been calibrated and validated for the Shell Rock River Watershed to assist with wastewater permitting. The contractor will deliver all modeling files and a final technical memorandum outlining the scenarios developed, how the scenarios are represented in the model, and the impact these scenarios have on water quality at specified locations for parameters of concern as described below.
The project consists of two initiatives: soil health outreach and a street sweeping study. These two initiatives will support further prioritization and targeting for nutrient reduction in the watersheds. The goal of this project is to increase implementation of soil health practices across the watersheds and adjust street sweeping schedules to reduce stormwater nutrient loading to surface waters.
RESPEC will address comments on the Shell Rock Total Maximum Daily Load (TMDL) document. The outcome of this project will be a Shell Rock River Total Maximum Daily Load (TMDL) report that is updated to reflect comments from the Minnesota Pollution Control Agency (MPCA), Environmental Protection Agency (EPA), the general public, and other stakeholders.
The Shell Rock River Watershed District’s Watershed Habitat Restoration Program will restore, enhance, and protect 5393 acres of critical shallow lake, wetland and stream bank habitat benefiting fish, waterfowl and wildlife populations, preserving an outdoor legacy for future generations.
The Shell Rock River Watershed District's Phase 5 Habitat Restoration Program will restore, enhance, and protect 1040 acres of essential shallow lake, wetland and stream bank habitat benefiting fish, waterfowl and wildlife populations, preserving an outdoor legacy for future generations.
The Shell Rock River Watershed District (SRRWD) is seeking funding for their Habitat Restoration Program to restore, and protect essential prairie upland, wetland, lake and streambank habitat across the watershed. As a result of the projects, key biological functioning parcels will be permanently protected, streambank habitat will be enhanced, and vegetation and feeding sources will be restored for migratory fowl habitat. Projects are critical for the benefit of fish, waterfowl, and wildlife populations, reversing the trend of wetland loss and habitat degradation.
The Shell Rock River Watershed District (SRRWD) is seeking funding for the Habitat Restoration Program to restore and protect 104 acres of essential prairie upland, wetland and streambank habitat across the watershed. As a result, key biological functioning parcels will be permanently protected, streambank habitat will be enhanced, vegetation and feeding sources will be restored for migratory fowl habitat, and wetlands will be restored from row crop agriculture.
The Shell Rock River Watershed District (SRRWD) is seeking funding for their Habitat Restoration Program to restore, enhance, and protect 302 acres of essential prairie upland, wetland, lake and streambank habitat across the watershed. As a result of the projects, key biological functioning parcels will be permanently protected, streambank habitat will be enhanced, vegetation and feeding sources will be restored for migratory fowl habitat and wetlands will be restored from row crop agriculture.
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 Greater Blue Earth River Basin is a large area within the Watonwan, Le Sueur, and Blue Earth River watersheds. Recent research by University of Minnesota, the National Center for Earth Dynamics, and others has found this basin to be the largest contributor of sediment to Lake Pepin.
This contract is a component of larger project (Snake River E.coli Microbial Source Tracking Study – Cycle II) in the Snake River Watershed located in the St. Croix river basin. The study will address microbial water quality impairments in the watershed. This study will conduct fecal bacteria source tracking using genetic markers across impaired streams in the watershed during the spring and summer months of 2021.
This project will complete a Total Maximum Daily Load (TMDL) study for the impaired reaches of the Snake River Basin. The project includes development of a Generalized Watershed Loading Function (GWLF) model for nutrient sources and Total Suspended Sediment (TSS), a spreadsheet version of a BATHTUB model of lake response for four lakes, and a bacteria source assessment. Wenck will also provide all stream channel data as a spreadsheet and locational database.
The purpose of the project is to reduce sediment and nutrient deposition in surface waters within priority areas of the watershed. A five percent reduction goal has been established in the County Local Water Management Plan and Impaired Waters project in progress. Eleven Best Management Practice (BMP) installations are planned for this project in cooperation with local landowners, Cities, Townships and Lake Associations.
