The Big Sandy Area Lakes Watershed Management Project has developed innovative projects to protect and improve water quality, wildlife, and the fishery resources in the Big Sandy Lake Watershed since 1991. Projects have focused on the main ecological problems and sources of nutrient loading to Big Sandy and other watershed lakes. A Clean Water Fund Grant provided funding for nine demonstration projects that continue this work. Projects planned for this area focus on controlling shoreline erosion and overland runoff that carries soil and nutrients to the lakes.
Funds used to address water infiltration of museum collections storage by improving exterior drainage.
Water from melting snow and rainfall has been leaking into the museum's agricultural wing artifact storage room and Main Street exhibit gallery due to inadequate drainage and insufficient landscaping on the building's north side.
This project will collect water samples at seventeen monitoring locations ranging in size from 23,173 acres (7 Mile Creek) to over 9 million acres (Minnesota River at St. Peter) as a part of the Watershed Pollutant Load Monitoring Network (WPLMN). The Minnesota State University - Water Resources Center (WRC) has been directly involved with the program and is familiar with the streams and hydrology of the region. In addition to monitoring, the WRC will review, manage and submit the data in formats provided by the Minnesota Pollution Control Agency (MPCA).
The goal of this project is to develop guidance for water quality parameter evaluation and calibration for Hydrological Simulation Program FORTRAN (HSPF) applications focused on dissolved oxygen (D.O.), nutrient, and algal simulation, along with a demonstration of the guidance by step-by-step application to D.O.-impaired Minnesota watersheds.
This is a joint project between the United States Geological Survey (USGS), Minnesota Pollution Control Agency (MPCA), North Dakota, and Manitoba. The project is a basin-wide, up-to-date water quality trend analysis using the "QWTrend" program for approximately 40 bi-national river sites to review nutrients, total suspended solids, total dissolved solids, sulfate and chloride from 1980 - 2015.
This project targets one of Chisago County's few remaining large dairy operations. It is situated on the top of the St. Croix River escarpment and drains over the bluff to the St. Croix River. This project includes installation of several practices in the feedlot area, including critical area planting to help stabilize a gully formed through the feedlot. There are also two other gullies located at the edge of fields or pasture areas that will be stabilized using water and sediment control structures, grade stabilization practices, or diversions.
This program supports communities as they plan and implement projects that address emerging drinking water supply threats. It supports the exploration cost-effective regional and sub-regional solutions, leverages inter-jurisdictional coordination, and prevents overuse and degradation of groundwater resources.
Activities in this program provide metro communities with:
This initiative is for the design and implementation of projects in Wildlife Management Areas (WMAs), or other state administered lands that increase water storage while also stabilizing streambanks in impaired watersheds where watershed restoration and protection strategies or comprehensive watershed management plans developed under the One Watershed, One Plan program have identified the need for water storage and water quality improvements.
To support Minnesota?s climate resiliency investments, we will generate critical water resources information and share it with impacted communities and individuals to guide adaptation planning and water resources management.
Tetra Tech will work to support the science needed when planning in Minnesota for water storage practice implementation. The goal is to provide practical water storage recommendations that can be incorporated into smaller scale planning within major watersheds (HUC 8), as well as larger scale planning for the Sediment Reduction Strategy for the Minnesota River and South Metro Mississippi River.
The Metropolitan Council was awarded $1,500,000 from Minnesota Clean Water, Land and Legacy Amendment funds for a Water Efficiency Grant Program during the Minnesota Legislature's 2023 Session. The Metropolitan Council (Council) implemented a water efficiency grant program effective July 1, 2024 to June 30, 2026. Grants were awarded on a competitive basis to municipalities that are served by a municipal water system. The Council provides 80% of the program cost; the municipality must provide the remaining 20%.
To hire a qualified consultant to develop architectural drawings for Bridge L3275 (Waterford Bridge), listed in the National Register of Historic Places.
Effective groundwater management requires accurate knowledge about the water budget, which is the amount of water stored within the system in aquifers and the amount of water flowing through the overall hydrologic system including water flowing at the surface, water flowing from above ground down into aquifers, and water flowing between aquifers below the surface.
Vermilion Community College will assist the Minnesota Pollution Control Agency (MPCA) with meeting the Watershed Restoration and Protection Strategies (WRAPS) development objectives of collecting data and completing watershed assessments for the Rainy River Headwaters, Vermilion River, and Little Fork River watersheds. Services will include providing support for field water monitoring, other field sampling and measurements and related field data management, analysis, and assessments in these watersheds.
There are several models and tools that State agencies, university staff, and local government staff utilize to measure outcomes for pollution reduction benefits in agricultural watersheds in Minnesota. The mechanisms and scales at which these tools are built on are slightly to drastically different.
In 2009, residents from the Stradford Addition and the Avon Area Lakes Association (AALA) contacted the Stearns County SWCD with concerns of direct stormwater entering Middle Spunk Lake. The Stearns County SWCD met with representatives on site to assess the stormwater problems. Many areas of untreated stormwater that directly discharged into Middle Spunk Lake were identified. It was determined that the watershed areas within the Stradford addition should be retrofitted with best management practices capable of conveying and treating stormwater.
The DNR provides technical support related to the causes of altered hydrology and watershed management solutions. We use state-of-the-art models and statistical methods to look at cumulative impacts of drainage and land-use practices and determine the benefits of best management practices. This involves collaboration with multiple partners at multiple scales.
DNR regional clean water specialists and area hydrologists work with regional staff from other state agencies and with local partners to help identify the causes of pollution problems and determine the best strategies for fixing them. We collect and analyze stream channel stability and streambank erosion data to help identify root causes of certain water quality impairments in streams.
This project builds capacity in soil water conservation districts and Mille Lacs Band with BWSR and DNR to accelerate tree planting for water quality and carbon sequestration by private landowners.
The Watershed Health Assessment Framework (WHAF) is a web-based tool for resource managers and others interested in the ecological health of Minnesota's watersheds. The framework uses five ecological components to organize and deliver information about watershed health conditions in Minnesota. The five components are hydrology, connectivity, biology, geomorphology, and water quality. Statewide GIS data from DNR and partner agencies are used to calculate health scores that reveal similarities and differences between watersheds.
This project delineates and maps watersheds (drainage areas) of lakes, rivers, streams, and wetlands for the state of Minnesota and provides watershed maps in digital form for use in geographic information systems. These maps become the basis for clean water planning and implementation efforts.
Minnesota has widespread water quality impairments due to nonpoint-source pollution generated by agricultural, urban, and other human-altered lands. Mitigation of these impairments requires implementing best management practices (BMPs) that are designed to limit soil erosion and nutrient transport from lands to receiving waters. Long-term data sets of water quality and land-use history are needed to tease apart the many factors that affect water quality. In particular, data sets that span periods before and after BMP implementation are needed to determine BMP effectiveness.
As Best Management Practices (BMPs) such as rain gardens and infiltration swales begin to be implemented in Chisago County, most people don't understand what they are and what their purpose is. With the dual goals of treating stormwater runoff and educating the public, the SWCD applied for and received a Clean Water Fund grant to implement several pre-designed BMPs at
This project will construct a stormwater treatment facility to treat runoff from 6,500 acre urban and agricultural drainage area in and around the City of Watkins, MN. The result is an annual phosphorus reduction of 796 pounds to Lake Betsy, the Clearwater River, and the Clearwater River Chain of Lakes.
To expand children's arts programming at the Watonwan Count Fair by providing hands-on learning opportunities and demonstrations. The fair will also welcome Latin, Norwegian, Swedish, and German Dancers to the stage, enhance the fair’s creative arts exhibits, host a historic horse pull, and purchase a portable PA system to ensure that all cultural activities can be heard by fairgoers.
The Watonwan Watershed Technician will provide highly focused targeting of conservation programs and practices. The technician will enhance current staff capabilities in the Watonwan watershed by collecting landowner contact information from previous studies and GIS methods, produce mass mailings about funding opportunities, and meet one-on-one with landowners to discuss their conservation concerns. The technician will implement 45 projects/practices over a three year period.
In conjunction with the Watonwan Major Watershed Project engagement process, create a contact strategy for community/landowner opportunities, obstacles, and opinions on land management and water quality that will result in the identification of restoration and protection strategies for the Watonwan River watershed.
Develop a network of informed citizens, business people, community leaders and others capable of acting collectively to get work done in a sustained, strategic and meaningful way through a sense of shared ownership in the water resource management process.
The Watonwan Watershed Resource Specialist has been funding with Clean Water funds since 2012. Since that time, the Watonwan Watershed Resource Specialist has been a crucial connector between landowners and natural resource professionals in the Watonwan Watershed. As the technical ability and responsibilities of the WWRS expands, the need and urgency to secure extended funding becomes a priority. This project will fund half of the Watonwan Watershed Research Specialist position through year 2020.
With the completion of LiDAR data in southern Minnesota, it is imperative to use this data as effectively as possible. In order to do so, the Greater Blue Earth River Basin Alliance (GBERBA) will contract with a vendor to complete a Geographic Information System (GIS) terrain analysis in subsheds of the Watonwan River watershed. This inventory will utilize the State of Minnesota LiDAR elevation datasets to create many GIS datasets by spatially analyzing the elevation data.
