The goal of this project is to design and install two watershed interpretive signs: one to be placed at Minneopa State Park and one at Fort Ridgely State Park to inform the public about watershed, water quality issues, and how someone can improve water quality.
The Middle Fork Zumbro River Critical Source Area Restoration Clean Water Fund grant will focus on the implementation of six to eight of the 23 identified and ranked sediment reducing conservation practices identified in two targeted sub-watersheds of the Middle Fork Zumbro River. These six to eight projects will work towards achieving an estimated 49-96 tons of TSS to the impaired Middle Fork Zumbro River and are imperative to the health of the Middle Fork Zumbro River and Lake Zumbro.
This grant will fund the creation of a new Coordinator position with a primary focus on the Mille Lacs Lake subwatershed. Although not currently impaired, the Lake faces increasing development and land use pressure. Implementation of protection strategies is essential to the Lake's long-term health but current staffing does not allow sufficient time to be spent on project development and outreach to identify interested landowners.
This project will implement five stormwater control BMPs and educate watershed landowners regarding proper management of stormwater control. These projects will serve to change behavior and perceptions of how stormwater may be managed, and demonstrate how easy changes may have a positive impact on land stewardship and water quality protection. 100 rain barrels will be distributed at a reduced cost to critical landowners.
This is phase one of a three phase project to remove litter from every mile of the sub-surface 82-mile shoreline of Mille Lacs Lake by use of scuba divers. This first phase is considered the pilot research phase. It’s important for the project success to get under the surface of both the lake, and the issue. The goal is to understand what the submerged litter issues look like in the lake, are there excessive tire dumps going on, invasive species problems, and/or clarity issues.
Two years of condition monitoring, data management, and project oversight for designated lakes and or stream locations within the Rum river major watershed. This project will assess and monitor 11 sites; ten stream sites, and one lake site. Of the stream sites, 4 would be on the main stem of the Rum itself, one would be established at a county ditch, and the other five would be tributary waterbodies. The lake site would be at Lake Shakopee and sampled in partnership with the Mille Lacs Band of Ojibwe.
The Miller Hill Mall, a regional shopping destination located in the City of Duluth, is the largest contiguous impervious site in the Miller Creek Watershed. The draft Total Maximum Daily Load Study identified heated stormwater runoff as a major contributor to the creek's excessive heat loading problem, which negatively impacts the creek's native brook trout population. The Mall, along with eight other entities in the watershed, was assigned a reduction goal as part of the effort to address the temperature problem in this creek.
This grant will restore a section of Miller Creek, an urban trout stream located in Duluth, that was straightened many years ago back to its natural channel. The original channel had a lot more sinuosity, or, curviness, than it does now and the straightened creek suffers from erosion and warm temperatures illsuited for trout.
The Minimal Impact Design Standards (MIDS) project represents the next generation of stormwater management in Minnesota. MIDS offers guidelines, recommendations and tools that help low impact development practices be implemented more uniformly across Minnesota's landscape and provides guidance to effectively implement the concepts and practices of low impact development. Products include performance goals for new development, redevelopment and linear projects, a graphic user interface calculator and flexible treatment options for sites design.
The Minimal Impact Design Standards (MIDS) project represents the next generation of stormwater management in Minnesota. The consultant was hired to conduct research and design specifications for permeable pavement and turf.
The overall goal of this project is to further develop performance standards, design standards, or other tools to enable the implementation of low-impact development and other stormwater management techniques.
This project is to update stormwater harvest/reuse best management practices (BMPs) in the Minimal Impact Design Standards (MIDS) calculator. The update will also allow the calculator to utilize Excel files from previous of the tool.
The purpose of this project is to conduct a subwatershed assessment of that part of the City of Minneapolis that is within the Shingle Creek watershed. This subwatershed drains to three Impaired Waters: Crystal Lake, Ryan Lake, and Shingle Creek. The assessment will identify the most feasible and cost-effective best management practices for retrofit in this densely urban, fully developed subwatershed. The project includes workshops with neighborhood organizations to help them educate residents and organize implementation projects.
This project will complete an EPA- and MPCA-approved TMDL Study and an MPCA-approved TMDL Implementation Plan that provide quantitative pollutant load reduction estimates and a set of pollutant reduction and watershed management strategies to achieve water quality standards for all impairments within the watershed, that are understood and adoptable by local units of government and other stakeholders.
The City of St. Louis Park, in partnership with the Minnehaha Creek Watershed District, is proposing to re-meander a portion of the creek using funding provided through the Clean Water Fund. The affected section of Minnehaha Creek was straightened when development first came to St. Louis Park in the early 1900s. At that time, wetlands were filled and the stream channel was
altered to allow for industrial development around the creek.
Both Minnehaha Creek and Lake Hiawatha are on the State Impaired Waters List and have had Total Maximum Daily Load Studies completed. The proposed work would focus on park land along Minnehaha Creek which is a highly-recreated corridor with public trail systems throughout. In 2014, the District experienced record flooding resulting in substantial erosion and tree loss along Minnehaha Creek. In 2015, the District completed an assessment of flood damage and received FEMA funding for bank repair at 31 sites along the Creek within Minneapolis Park and Recreation Board property.
Minnesota's Legacy Website is a site that follows the progress of all projects and programs receiving constitutionally dedicated funding from the Clean Water, Land and Legacy Amendment as well as the Environment and Natural Resources Trust Fund. This website enables citizens to view how Legacy and Trust Fund dollars are being utilized in their community.
This project addresses twelve lakes that have aquatic recreation impairments as identified by eutrophication indicators and 53 impairments on 45 stream reaches in the Minnesota River Mankato and Watonwan River watersheds. The project will develop Total Maximum Daily Loads (TMDLs) addressing impaired lakes and streams in the Minnesota River–Mankato and Watonwan River watersheds. A TMDL establishes the maximum amount of a pollutant allowed in a waterbody and serves as the starting point or planning tool for restoring water quality.
This project will result in updates to existing information and incorporation of new information into the Minnesota Stormwater Manual. The information is used by stormwater practitioners to implement the most effective and cost-efficient practices for managing stormwater runoff volume and pollutants, and to meet regulatory requirements associated with stormwater permits.
The Minnesota Pollution Control Agency (MPCA) is partnering with the Minnesota Department of Natural Resources (DNR) to store the karst features database in a secure, online location.
This project will provide data and information that can readily be incorporated into an updated version of the Minnesota Stormwater Manual (“Manual”). The consultant will develop and submit state-of-the-art engineering and science information in a condensed summary, including color graphics and color photos suitable for a diverse audience. The Manual and associated materials, such as CAD drawings, case studies, color photos, and spreadsheets will: (a) comply with the State Accessibility Standard ; (b) provide clear and simple navigation, and (c) enable easy data downloads.
The goal of this project is to incorporate information on sand filters into the Minnesota Stormwater Manual and work with the Minnesota Pollution Control Agency (MPCA) Project Manager(PM) to develop a simple Excel spreadsheet to calculate annual volume treated by manufactured treatment devices (mtds). This first goal will be achieved by developing information and guidance on operation and maintenance of sand filters. This includes links to case studies and other resources.
Minnesota's Legacy Website is a site that follows the progress of all projects and programs receiving constitutionally dedicated funding from the Clean Water, Land and Legacy Amendment as well as the Environment and Natural Resources Trust Fund. This website enables citizens to view how Legacy and Trust Fund dollars are being utilized in their community.
Minnesota's Legacy Website is a site that follows the progress of all projects and programs receiving constitutionally dedicated funding from the Clean Water, Land and Legacy Amendment as well as the Environment and Natural Resources Trust Fund. This website enables citizens to view how Legacy and Trust Fund dollars are being utilized in their community.
The goal of this project is to extend existing Hydrologic Simulation Program FORTRAN (HSPF) models through 2017 for the following major watersheds: Redwood, Cottonwood, Watonwan, Blue Earth, Le Sueur, Pomme de Terre, Minnesota River-Headwaters, and Lac Qui Parle watersheds.
This project will result in the addition of planning information to the green infrastructure (GI) practices included in the Minnesota Stormwater Manual. The planning information is used by stormwater practitioners to implement the most effective and cost-efficient practices for managing stormwater runoff volume and pollutants, and to meet regulatory requirements associated with stormwater permits.
Iron enhanced sand filters (IESF) can be effective stormwater management practices. The Minnesota Stormwater Manual currently has limited information on this topic to guide stormwater practitioners and managers. Material, information, and data collected through this project will be used by MPCA staff, working with a technical work group, to update guidance on IESFs for the Minnesota Stormwater Manual.
Vegetation site planning and design is a critical component of stormwater management. Vegetation impacts the performance of stormwater treatment practices and provides other benefits, such as carbon sequestration, habitat, and aesthetic value. The Minnesota Stormwater Manual is the most widely used stormwater resource in Minnesota, but it currently has limited information on vegetation. Additionally, the information on vegetation that does exist in the manual is poorly organized.
Minnesota's Legacy Website is a site that follows the progress of all projects and programs receiving constitutionally dedicated funding from the Clean Water, Land and Legacy Amendment as well as the Environment and Natural Resources Trust Fund. This website enables citizens to view how Legacy and Trust Fund dollars are being utilized in their community.
Minnesota's Legacy Website is a site that follows the progress of all projects and programs receiving constitutionally dedicated funding from the Clean Water, Land and Legacy Amendment as well as the Environment and Natural Resources Trust Fund.
The objective of this project is to build on previous efforts aimed at determining the public health risk due to virus contamination in Minnesota groundwater. The Minnesota Department of Health will examine the occurrence of viruses in non-disinfecting groundwater sources in Minnesota as well as evaluate the association between source water virus occurrence and community acute gastrointestinal illness.
The goal of this project is to design and implement a spatial framework for agricultural nutrient budget assessment and tracking in the state of Minnesota. This analysis can be repeated on a defined frequency to assess progress toward narrowing the difference between applied nutrients and crop nutrient needs across the State. The work conducted will provide an improved nutrient budget assessment, maps to use when looking at nutrient balance results in watersheds around the state, and a framework from which future nutrient budget assessments can become more accurate.
