The Hawk Creek Watershed Runoff and Sedimentation Reduction Project will improve and protect water quality through implementation of small-scale conservation practices within the watershed to reduce runoff and decrease movement of sediment and nutrients. Practices include streambank stabilizations, water and sediment control basins, grade/gully stabilizations, side inlets, alternative intakes, and buffer incentives.
Agricultural drain tiles with surface intakes are considered a significant delivery mechanism of nutrients to Minnesota River. Protecting those surface water inlets can reduce the direct path those nutrients have to the river. In addition, in agricultural fields with subsurface drainage, leached nitrate creates elevated nitrate levels in tile drainage water. These high nitrate concentrations can cause algae blooms that remove oxygen. To help remove nitrates leached into tile drains, wood chip bioreactors can be installed to remove nitrate from the tile water before it enters surface water.
The proposed project will be in conjunction with an improvement project to the 103E County Ditch 63 Lateral N (CD 63) system. The project will accomplish the construction of five water and sediment control basins (WASCOB) and five alternate intakes to replace open intakes within the CD63 system, which is the headwaters of Beaver Creek East Fork. The construction and installation of the conservation practices will achieve a reduction of sediment, provide temporary water storage, and reduce peak flows that allow sediment and phosphorus to directly enter impaired Beaver Creek East Fork.
The Lac qui Parle-Yellow Bank Watershed District will contract with the Water Resource Center at the Minnesota State University in Mankato to complete a Geographic Information System (GIS) terrain analysis for the watershed. It will concentrate on the impaired reaches of the Lac qui Parle and Yellow Bank Rivers and tributaries. This inventory will utilize LiDAR elevation datasets to create many GIS datasets by spatially analyzing the elevation data.
The goal of the Lake Volney Targeted Restoration project is to improve the water quality draining to Lake Volney, which is impaired for excess nutrients. The project contains eight priority areas and will install a variety of Best Management Practices, including stormwater basins, ag retention, wetland enhancement, and more.
The Lower Mississippi River Feedlot Management in MN project will be leveraging State funding from BWSR to provide match for a United States Department of Agriculture Natural Resources Conservation Service (USDA-NRCS) Regional Conservations Partners Program (RCPP). BWSR will provide technical and financial assistance to plan and design projects to mitigate feedlot runoff from smaller (less than 300 animal units or AUs*), open lot feedlots in southeastern Minnesota.
The project will utilize GIS to analyze the Middle Minnesota River Watershed in Renville County to inventory conservation project potential in this watershed, then target priority projects for future funding. This project will create the opportunity to evaluate the watershed using the most advance scientific data available. Conservation practices that will be evaluated are wetland restorations, buffers and filter strips, sediment basins, grass waterways, and grade stabilization structures using LiDAR layers.
This project proposes utilizing a precision conservation framework to assess two small impaired agricultural watersheds (HUC12) to determine optimal locations of best management practices and structures on the landscape that will address local water quality issues in a more strategic manner. The watershed assessment process will create GIS-generated maps that will be available to local SWCD staff that will inform decision-making for interested landowners.
The Greater Blue Earth River Basin Alliance (GBERBA) along with Soil and Water Conservation Districts, Counties, landowners, and drainage authorities in the ten member counties will install conservation drainage practices to improve water quality. 103E drainage systems with documented sediment or water quality issues are the focus with the goal of installing 52 practices such as improved side inlets (grade stabilization structures), alternative tile inlets, denitrifying bioreactors, saturated buffers, storage wetlands and others.
Within an 11-county area in southeastern Minnesota, two Nutrient Management Specialists will work directly with producers to reduce nitrogen, phosphorus, and fecal coliform runoff into surface and ground water in the region and the Mississippi River. The specialists will help producers create or revise nutrient management plans, implement Best Management Practices for manure and fertilizer use, and set up on-farm demonstration projects to support farmer-to-farmer learning.
This project will assist farmers across Southeast Minnesota by providing guidance on management of nutrient sources including livestock manure, commercial fertilizers, and legumes. This project is important because excess nutrients and bacteria are causing negative impacts to the quality of waters. Two Nutrient Management Specialists will work one-on-one with farmers to develop 70 plans each year. Over time, it is anticipated that the number of new nutrient management plans will decrease as acres with plans increase.
Residents of Oronoco historically depended on individual wells for all of their potable water needs. Most of these wells are shallow or sand point types and may have elevated levels of nitrates.The City of Oronoco recently completed the first phase of a municipal water system project that will lessen the citizen dependence on individual wells. As residents are connected to the municipal system their existing wells are no longer needed. The wells should be sealed to prevent possible contamination of the city wells.Grant funds will be used to assist with the cost of sealing these wells.
Del Clark Lake is a regionally unique resource in the Lac qui Parle Watershed. This grant contains both restoration and protection strategies aiming to maintain the quality of this rare and valuable resource in addition to restoring the recently impaired Canby Creek, which feeds into Del Clark Lake. Three grade control structures will be implemented just upstream of Del Clark to protect against sediment and aid in regulating flows. An estimate 240 pounds of phosphorous and 2,700 tons of sediment will be reduced annually.
This project will review highly erodible land plans for landowner/operator compliance and update plans with landowners that are not meeting plan requirements due to changes in their operations.
This project will, over a 27 month period, fund a 0.75 Full Time Equivalent Conservation Planning Specialist position to update approximately 400 United States Department of Agriculture Highly Erodable Lands conservation plans on 40,000 acres in high priority areas within the Root River watershed. Currently, only 5% of the USDA conservation plans -approximately 40 per year - are being checked for compliance, and this project will increase that number to 150 or more per year.
High sediment levels in streams are prevalent throughout South Eastern Minnesota. Installing proven and cost-effective conservation practices that collectively reverse these impairments while also meeting flood protection and ecosystem support goals are needed. The purpose of this project is to design, construct, and maintain two retention structures and restore approximately one mile of failed stream bank. This project integrates objectives of Olmsted County, the Department of Natural Resources and City of Rochester into a common project.
The Redwood and Cottonwood River Watersheds have been assessed and many reaches have been impaired for turbidity, bacteria, and low dissolved oxygen. This project will accelerate conservation efforts to reduce overland runoff sediment, bacteria, and nutrient loadings contributing to water quality impairments in targeted subwatersheds.
The Redwood River and Cottonwood River watersheds encompass approximately 2,020 square miles of southwestern Minnesota in the Minnesota River Basin. Land use in these watersheds is mostly agricultural and area geology makes them prone to erosion. Surface water issues within the two watersheds are a concern of local leaders. The counties and Soil and Water Conservation District leaders formed the Redwood Cottonwood Rivers Control Area (RCRCA) Joint Powers Board in 1983 to address sedimentation, water quality and quantity, and erosion issues.
The Hawk Creek Watershed Project (HCWP) is trying to achieve a reduction in total suspended solids (TSS) and phosphorus, improve the altered hydrology, and increase water storage capacity in the Fort Ridgely Creek subwatershed by implementing suites of projects that include two grade stabilizations with retention ponds, four water and sediment control structures (WASCOBs), and two grass waterways for an estimated pollutant reduction of 280 tons of sediment/yr and 380 pounds of phosphorus/yr.
This grant will fund about 80 project in six sub-watersheds (Headwaters of the Middle & South Branch, Money Creek, Headwaters of Upper Iowa River, Mill Creek, south Fork Root River, and Carey Creek). Projects to include grassed waterways, water and sediment control basins, grade stabilization structures, livestock waste projects, streambank projects and cover crops. Funding will also support staff time for project development and technical assistance for the cost-share projects.
This grant will fund an expected 44 projects in 4 subwatersheds (South Fork Root River, Crooked Creek, Rush-Pine and portions of the headwaters of the Middle and South Branch Root) and 2 DWSMAS (Chatfield and Utica). Projects include grassed waterways, WASCOBs, grade stabilization structures and cover crops, plus field walkovers, project development, and technical assistance. The anticipated sediment reduction from this work will be 2,285.5 tons, or 2.2% of the 10-year goal for the entire planning area.
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.
The purpose of this project is to provide a new shared position in southeast Minnesota which will accelerate the adoption of soil health practices by leveraging the existing efforts of the National Resources Conservation Service and other organizations.
The lack of sewage treatment in many small communities in Southeast Minnesota is causing surface water and groundwater pollution. Ten of these small communities will be the target of the technical assistance provided by this project. These communities have community or individual straight pipes which are discharging raw sewage directly into the environment, surfacing sewage, or have sewage contaminating groundwater.
The lack of sewage treatment in many small communities in Southeast Minnesota is causing surface water and groundwater pollution. Fourteen of these small communities will receive technical assistance provided by this project. These communities have community or individual straight pipes which are discharging raw sewage directly to the environment, surfacing sewage, or have sewage contaminating groundwater.
Successful long-term treatment of sewage depends on a system capable of providing adequate treatment and effective on-going operation and maintenance. Clean Water Fund Subsurface Sewage Treatment System (SSTS) Program Enhancement funds are used by counties to strengthen programs dedicated to SSTS ordinance management and enforcement. These funds are used for a variety of tasks required to successfully implement a local SSTS program including inventories, enforcement, and databases to insure SSTS maintenance reporting programs.
Successful long-term treatment of sewage depends on a system capable of providing adequate treatment and effective on-going operation and maintenance. Clean Water Fund Subsurface Sewage Treatment System (SSTS) Program Enhancement and Inventory funds are used by counties to strengthen programs dedicated to SSTS ordinance management and enforcement. These funds are used for a variety of tasks required to successfully implement a local SSTS program including inventories, enforcement, and databases to insure SSTS maintenance reporting programs.
The Le Sueur Watershed Technician will provide highly focused targeting of conservation programs and practices in this key watershed. The technician will enhance current staff capabilities in the Le Sueur watershed by collecting landowner contact information, producing landowner mailings about funding opportunities, and meeting one-on-one with landowners to discuss conservation concerns they may have. This has been a highly successful method for targeting projects, project identification, landowner contact, and project follow through.
