The purpose of this project is to complete a feasibility study to determine the best sites for projects in the Boot Creek headwaters, in the Le Sueur River watershed, to reduce erosion and pollutant loading. The study will identify critical source areas and provide additional watershed information to assist in prioritizing locations to address local resource management and water quality goals.
The Cannon River Watershed is a diverse watershed from the standpoint of topography, land use, and land cover, but a central issue of concern is increased sedimentation and turbidity within the river. One of the best ways to keep sediment from entering the Cannon River is to install vegetative buffers on the smaller tributaries in the upper reaches of the watershed. This project is important as it aims to help identify strategic locations where buffers are needed and to assist landowners to install buffers that will directly help reduce sedimentation within the watershed.
Funds are to be used to protect, enhance and restore water quality in lakes, rivers and streams and to protect groundwater and drinking water. Activities include structural and vegetative practices to reduce runoff and retain water on the land, feedlot water quality projects, SSTS abatement grants for low income individuals, and stream bank, stream channel and shoreline protection projects. For the fiscal year 2012, BWSR awarded 12 local governments with funds.
Funds are to be used to protect, enhance and restore water quality in lakes, rivers and streams and to protect groundwater and drinking water. Activities include structural and vegetative practices to reduce runoff and retain water on the land, feedlot water quality projects, SSTS abatement grants for low income individuals, and stream bank, stream channel and shoreline protection projects. For the fiscal year 2012, BWSR awarded 13 local governments with funds to complete 143 projects. More information is available in the detail reports below.
This project is to refresh the Cannon River Watershed Hydrologic Simulation Program FORTRAN (HSPF) model. The previous model was developed for the time period of 1995-2012. This phase will extend the model to include data through 2019. All time series data will be updated through 2019, land classification zones will be restructured, hydrology calibration will be updated as needed, and final reporting including technical memo and model package.
This project with the Cannon River Watershed Joint Powers Board will conduct lake and stream sampling for the watershed restoration and protection strategy (WRAPS) update in the Cannon River Watershed. This sampling will track changes from the 2011 results, along with fill in gaps, delist or keep an eye out for new impairments, and gather data for permitting. The sites of sampling were selected by the Minnesota Pollution Control Agency (MPCA) and will be looking at lake and stream chemistry and stream bacteria.
The goal of this project is to use a science-based and participatory approach to understanding and promoting conservation practices in the agricultural community.
The goal of this project is to apply the Hydrological Simulation Program FORTRAN (HSPF) model to evaluate scenarios to support potential management actions and implementation in the watershed, construct Total Maximum Daily Load (TMDL) studies, and to develop a conceptual site model of the lakes for understanding phosphorus release.
Complete section 3 of Watershed Restoration and Protection Strategy (WRAPS) document for the Cannon and Zumbro Watersheds and provide input to sections 1 and 2.
The goal of this project is to develop and complete the Watershed Restoration and Protection (WRAP) process and report, while also enlarging and sustaining a public participation process that encourages local ownership of water quality problems and solutions (civic engagement).
The data collected in this workplan is the foundation for an accurate TMDL allocation and accurate implementation strategy design. Current and historic phosphorus inputs will be calculated and evaluated as to source. Nutrient and algal history and trends in sedimentation will be reconstructed to identify ecological changes that have occurred in the lakes both recently and historically.
This project addresses the identified need for an Implementation Plan that provides an overall roadmap for the effort it will take to meet the Carnelian Marine St. Croix Multi-Lakes Total Maximum Daily Load (TMDL). An Implementation Plan will be developed, with involvement of the Project Partners and stakeholder groups, that sets forth prioritized strategies for attaining the TMDL and a method for tracking the progress of those efforts. The Implementation Plan will be restoration-focused, but will include protection-oriented information/actions as well.
Continued TMDL project to support next phases associated with completion of TMDL's for ten lakes in the Carnelian Marine Saint Croix Watershed District (CMSCWD). Ten lakes are; East Boot, Fish, Goose, Hay, Jellum’s, Long, Loon, Louise, Mud and South Twin.
Ramsey-Washington Metro Watershed District (RWMWD) will improve water quality in Casey Lake and ultimately Kohlman Lake through the installation of approximately 25 rain gardens on priority properties identified as part of the Casey Lake Urban Stormwater Retrofit Assessment completed by Ramsey Conservation District (RCD) in 2011.
This project will place the Cedar River watershed on a sustainable and clearly understood implementation process for comprehensive water management. All people living in the watershed and all groups operating and managing land in the watershed, are responsible stakeholders in the effort. Objectives for this phase of the project include:
1. Develop a comprehensive watershed restoration and protection strategy.
2. Continue development of a more coordinated and comprehensive citizen participation process.
The entities of the Cedar - Wapsipinicon watershed planning area hope to achieve the Cedar - Wapsipinicon Comprehensive Watershed Management Plan goals, including surface water quality, groundwater quality, excessive sedimentation and erosion, and flooding goals. Work includes cost-share incentives, project development, technical/engineering assistance, education/outreach, and administration/grant reporting.
This project will guide local implementation planning efforts by identifying water quality goals, strategies, and implementation milestones in the Cedar River Watershed. This watershed includes 435 square miles in major portions of Mower, Freeborn and Dodge Counties, and incudes the regional center of Austin. A Watershed Restoration and Protection Strategy (WRAPS) report will be completed by this effort.
This project is for the Cedar River Watershed, which includes major portions of Mower, Freeborn and Dodge Counties in southern Minnesota. The scope of this project is to complete the Total Maximum Daily Load (TMDL) studies for 11 stream reaches with sediment impairments, and 14 stream reaches for bacteria impairments. The major product of this effort will be the final Cedar River TMDL report, which will be submitted to the United States Environmental Protection Agency, and public-noticed by the Minnesota Pollution Control Agency.
There are two main goals of this Cedar Basin HSPF project,
A. Overall development of the HSPF model in the Cedar Basin of Minnesota; and
B. Shell Rock River nutrient, DO , impairment modeling and TMDL completion.
The United States Environmental Protection Agency requires the Minnesota Pollution Control Agency (MPCA) to carry out the Total Maximum Daily Load (TMDL) program in the state of Minnesota. Minnesota has an abundance of lakes and river reaches, many of which will require a TMDL study. In an effort to expedite the completion of TMDL projects, the MPCA has decided to construct watershed models. These models have the potential to support the simultaneous development of TMDL studies for multiple listings within a watershed.
Lambert Creek discharges into Vadnais Lake, the final impoundment reservoir containing the potable water supply for the city of St. Paul and eight nearby suburbs. Monitoring data indicates high nutrient levels and the creek is listed by the State as having high bacterial levels. In-stream work along Lambert Creek has been maximized with restoration improvements achieving nutrient load reduction. The next step to further improve water quality is to concentrate on restoration efforts on a subwatershed level.
The LeSueur River has been identified as one of the leading contributors of sediment to the Minnesota River. A majority of this sediment has been determined to come from the banks, bluffs and ravines located along the river. This project focuses on a one mile reach of the LeSueur River where stream channel migration and mass wasting are significantly eroding four bluffs. Two township roads and many houses are in danger of falling into the river.
The City of Inver Grove Heights will remove PAH contaminated sediment from the 79th Street Pond. Approximately 2,300 cubic yards of sediment will be dredged and disposed of at the Pine Bend Landfill located in the City of Inver Grove Heights.
The Villa Park Wetland Restoration Project proposes sediment removal from 6 contiguous stormwater wetland treatment cells within the Villa Park Wetland system resulting in an additional 118lbs/yr of total phosphorus(TP) removal from water entering Lake McCarrons.
Pine Soil and Water Conservation District is partnering with the City of Sturgeon Lake to seal over 50% of the unused wells in the city limits. The City of Sturgeon Lake recently installed a municipal water supply system, and completed a Minnesota Department of Health approved Wellhead Protection Plan. Residents have connected to the new public water supply system and need to seal their unused wells.
This project would educate residents and provide assistance to the City of Le Center in sealing an unused/abandoned municipal well. One municipal well has been identified as a high risk due to impacting the groundwater and drinking water supply to the City of Le Center.
The City of Minnetonka and its residents highly value the water resources within the community, which include approximately ten lakes, four streams, and hundreds of wetlands. The City has been progressive in protecting these resources through policies and management strategies, and now wants to increase their on-the-ground efforts in protecting and improving water quality. The City hopes to conduct targeted watershed assessments for fourteen selected priority water bodies to identify and optimize the type and locations of Best Management Practices (BMPs) to be installed.
The nine member Counties and Soil and Water Conservation Districts of the Greater Blue Earth River Basin Alliance (GBERBA) will be able to enhance our effectiveness to provide elevated levels of technical assistance, education and outreach in the areas of urban stormwater, wellhead protection, nutrient management, conservation agronomy, drainage and agricultural best management practices to reduce nonpoint source pollution in the Blue Earth, Le Sueur and Watonwan River Watersheds.
The Ramsey-Washington Metro Watershed District (District) has determined that large impervious sites (like churches, commercial sites, and schools) are more economical for stormwater management retrofit projects than distributed small projects along roadways. The District began assessing church sites for retrofit opportunities in 2013 and will continue this effort in 2014. Church congregations have been receptive to partnering with the watershed district.
Lambert Creek is wholly within the Vadnais Lake Area Water Management Area. Vadnais Lake is the drinking water reservoir for the City of St. Paul and surrounding communities. Lambert Creek has elevated bacteria and nutrient levels and water quality in Vadnais Lake will not improve unless there is a reduction in the phosphorus loading from Lambert Creek.
This project is the ecological restoration of 1,400 feet of Shingle Creek, an Impaired Water for low dissolved oxygen and impaired biota, in Brooklyn Center and Brooklyn Park. The Shingle Creek Impaired Biota and Dissolved Oxygen Total Maximum Daily Load requires sediment oxygen demand load reductions and establishes restoration design standards to enhance habitat that will be incorporated into this project.
Significant interest exists across Hennepin County for providing additional water and natural resources education, engagement, and technical assistance to residents that leads to implementation of conservation practices on more residential properties and across more communities. WMWA, Hennepin County, and 5 metro Watershed-Based Implementation Funding (WBIF) convening groups propose a pilot program funded in part by metro WBIF allocations.