This project will provide support for the 10th Annual Road Salt Symposium at the Minnesota Landscape Arboretum. The symposium brings together environmental organizations, companies that produce winter road de-icing salts and chemicals, scientists, policy-makers and transportation workers. They Symposium provides information on chlorides in our waters and provides innovative and new approaches to help repair our waters and sustain our resources for future generations.
The AgBMP Loan Program provides needed funding for local implementation of clean water practices at an extremely low cost, is unique in its structure, and is not duplicated by any other source of funding. The AgBMP loan program provides 3% loans through local lenders to farmers, rural landowners, and agriculture supply businesses. Funds are used for proven practices that prevent non-point source water pollution or solve existing water quality problems.
This project will be a complete TMDL report for the Biota and Bacteria (E. coli) impairments for the Ann River Watershed. The water bodies associated with these impairments will then be removed from the MPCA’s impaired waters list, and implementation activities to restore the water bodies will begin.
The DNR is working with local communities and an interagency team to define, prioritize, and establish groundwater management areas in Minnesota. Groundwater management areas will have increased data collection and monitoring that allow the state and local communities to understand water supplies, uses, limitations, and threats to natural resources that depend on groundwater. This information will support detailed aquifer protection plans that ensure equitable and sustainable groundwater and drinking water use for the future.
This project will promulgate a nitrate water quality standard to address aquatic life toxicity, and gather information needed to support the development of total nitrogen (N) loading reduction strategies for Minnesota’s waters and also address Minnesota’s contribution to marine water hypoxia. Project will also develop a framework for a watershed nitrogen planning aid that can be used to optimize selection of Best Management Practice (BMP) systems for reducing nitrogen.
The Chisago Lakes Chain of Lakes Stormwater Retrofit Assessment has assessed 54 small watersheds for the optimal locations for best management practices. A long list of Best Management Practices has been identified, the next step is to design and install the most cost effective projects.
This project will provide Soil and Water Conservation Districts the opportunity to nominate an individual, business, company, municipality or organization for their concern, cooperation and/or implementation of conservation practices in a community environment. This award recognizes nominees that have excelled in a variety of categories which include: storm water management; land use conservation planning and implementation, and leadership relating to community conservation practices.
The DNR works with the Minnesota Geological Survey (MGS) to convey valuable geologic and groundwater information and interpretations to government units at all levels, but particularly to local governments, private organizations and citizens. The MGS focuses on geology (Part A reports) and DNR focuses on groundwater (Part B reports). These provide useful information for projects completed by community planners, industry, agriculture, citizens and state agencies related to groundwater.
This project will inventory active gully erosion sites along the St. Croix River escarpment from the entrance to Wild River State Park near Almelund, MN, and south to the Chisago County line. The resulting inventory will be utilized to contact landowners with actively eroding gully sites on their property and will begin the process of developing a plan to implement Best Management Practices (BMPs) to correct the problems.
The Contractor will assist in planning and executing the regular meetings of the St. Croix River Basin Team, including providing minutes of the meetings. Assist in the functioning of the priority issue subcommittees. Respond to public notices for re-issuances of NPDES permits, EAWs and other pertinent public notices, and participate in prioritized public meetings with local governmental units and water planning organizations.
This project Phase will collect data, background information, and watershed characteristics within the Red Lake River watershed. This information will be documented within the framework of early draft TMDL Reports (with background information, but no load calculations) for impaired reaches within this watershed and early draft protection plans for the areas in the watershed that are not currently impaired.
The Drinking Water Contaminants of Emerging Concern (CEC) program identifies environmental contaminants for which current health-based standards currently do not exist or need to be updated, investigate the potential for human exposure to these chemicals, and develop guidance values for drinking water. Contaminants evaluated by CEC staff include contaminants that have been released or detected in Minnesota waters (surface water and groundwater) or that have the potential to migrate to or be detected in Minnesota waters.
US Geological Survey-MN Water Science Center will complete laboratory analysis of groundwater samples for endocrine disrupting compounds (EDCs) and other emerging contaminants of interest, including organic waste water compounds, pharmaceuticals, and endrocrine active compounds, and report results. MPCA staff will complete sample collection tasks. The USGS National Water Quality Laboratory and the Kansas Water Science Center Laboratory will perform the laboratory analyses.
Gullies are a fixture of the landscape. Except for avoiding them during field work they can be ignored for years and the benefits to the landowner of fixing them never seem to outweigh the costs for doing so. It is only when viewed over time that the true impact becomes apparent. Red Lake County SWCD identified these two project locations as high priority due to the large amount of sediment these projects have contributed to the Red Lake River. Those impacts will continue as the erosion accelerates and they become deeper and wider over time.
The DNR works with the Minnesota Pollution Control Agency and the Minnesota Department of Health to determine the level of contamination from mercury and other harmful chemicals in fish from Minnesota's lakes and rivers and to track the success of efforts to reduce mercury pollution. Clean Water Legacy funding is being used to significantly increase (more than double) the number of lakes and rivers that are assessed for mercury contamination on an annual basis. Fish are collected during DNR fishery surveys, processed for laboratory testing, and analyzed for contaminants.
The Thief River is the source of drinking water for the City of Thief River Falls. The river's other designated uses also include recreation and aquatic life. Water quality monitoring conducted by local agencies discovered that the Thief River is not meeting state water quality standards for both turbidity (muddiness) and dissolved oxygen. Each year, approximately 12,376 tons of sediment is deposited into the Thief River Falls reservoir by the Thief River. That is the equivalent of over 1,200 dump trucks full of dirt.
The Thief River is the source of drinking water for the City of Thief River Falls. The river's other designated uses also include recreation and aquatic life. Water quality monitoring conducted by local agencies discovered that the Thief River is not meeting state water quality standards for both turbidity (muddiness) and dissolved oxygen. Each year, approximately 12,376 tons of sediment is deposited into the Thief River Falls reservoir by the Thief River. That is the equivalent of over 1,200 dump trucks full of dirt.
In the early 1900s, a joint State and County drainage project constructed a 1 mile outlet channel to Grand Marais Creek to provide a shorter outlet to the Red River and effectively abandoned the lower 6 miles of the natural channel. In recent times, the ditch has eroded from its original shape to a channel of steep gradients and unstable banks. This has resulted in head cutting of the channel and nearly continuous channel erosion and bank sloughing with the effect of depositing up to an estimated annual average of 700 tons of sediment into the Red River.
This project will complete spatial and temporal revisions of 6 Hydrologic Simulation Program FORTRAN (HSPF) models, the recalibration and validation of 7 watershed HSPF models, and the revision of the drainage network and point source representation of the Pomme de Terre HSPF model.
This project will develop an Implementation Plan for restoring Lake St. Croix and impaired waters within the contributing watershed, and protect waters currently attaining water quality standards.
The biological communities present in a lake are the result of cumulative effects of natural and human-caused influences within the entire area of land and water that flows into the lake (i.e., the watershed). Biological assessments are used on lakes to identify water pollution and habitat concerns based on the type and abundance of selected animals and their habitats. Certain species cannot survive without clean water and healthy habitat while other species are tolerant of degraded conditions.
This project will establish a groundwater monitoring network in the 11 county metropolitan area. The network will provide information about aquifer characteristics and natural water trends by monitoring healthy aquifers (non-stressed systems). The project will also develop an automated system that captures groundwater level and water use data. This system will enhance evaluation of changes in aquifers that are stressed by pumping from existing wells.
This project will support the sampling of six stream sites: two reaches of the Little Rock River, two Locations on the Kanaranzi Creek, one location on the East Branch of the Kanaranzi Creek as well as one location on the Ocheyedan River.
This project will use the Spatially Referenced Regression On Watersheds (SPARROW) model as a means of assessing and characterizing the nitrogen loading situation in Minnesota. These results will be used along with other nitrogen loading characterization efforts conducted by others, so that a more complete characterization can be conducted. The results of this effort will be useful as Minnesota works to establish state-specific goals and strategies to address its contribution to Gulf of Mexico hypoxia.
This project supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
This project supports monitoring and assessment activities by MPCA Environmental Assistance and Outcomes staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities.The ambient groundwater monitoring network describes the current condition and trends in Minnesota's groundwater quality.
This project supports activities by MPCA technical staff that provide technical assistance , project oversight, coordination and other agency activities associated with assessing, listing and cunducting TMDL studies throughout the State of Minnesota. Project funding also includes lab analysis, equipment, and fieldwork expenses.
DNR regional clean water specialists and area hydrologists work with local partners to provide technical assistance on implementation projects and related outreach, resulting in cleaner water through healthier watersheds, shorelands and floodplains. We help partners identify, develop, target, design and/or implement on-the-ground projects that improve water quality, enhance habitat and protect infrastructure. We help design restorations that provide lasting benefits by mimicking features of healthy ecosystems.
The purpose of the Minnesota Department of Agriculture's monitoring activities is to determine the presence and concentration of pesticides in Minnesota's groundwater and surface water. Monitoring information is used to characterize and assess the extent of pesticide impacts to Minnesota's water resources.
This project will support water quality monitoring and data analysis in nine major watersheds (8-digit Hydrologic Unit Codes) of the Lower Red River Basin. The monitoring will assist in providing water chemistry data needed to calculate annual pollutant loads for the Major Watershed Load Monitoring Program (MWLMP) and provide short term data sets of select parameters to other MPCA programs.
The Clean Water Fund Project's primary purpose is to reduce soil loss, eliminate sediment deposition in the two Red Lake Watershed District(RLWD) ditch systems, improve water quality, and reduce maintenance costs along these ditch systems. The project will be a team effort between the Red Lake County SWCD, the Red Lake Watershed District, and the landowners located along the ditch systems.
This program is a part of a comprehensive clean water strategy to prevent sediment and nutrients from entering our lakes, rivers, and streams; enhance fish and wildlife habitat; protect groundwater and wetlands. Specifically the Riparian Buffer Easement Program targets creating buffers on riparian lands adjacent to public waters, except wetlands. Through the Reinvest in Minnesota Program (RIM) and in partnership with Soil and Water Conservation Districts and private landowners, permanent conservation easements are purchased and buffers established.
Minnesota Department of Health has been collaborating with cities and other community water suppliers since 1993 to develop and implement source water protection plans. Support from the Clean Water Legacy expands and accelerates the number of water suppliers that can be assisted each year in undertaking protection planning and implementation activities.
Imminent Health Threat (IHT) systems are those that are discharging improperly treated human waste onto the ground surface or into surface waters. In addition to the potential water quality impacts, untreated sewage has the potential to introduce bacteria and viruses into the environment. When IHT systems are identified, county or city staff assist the homeowners through the process required to bring their systems into compliance with the septic ordinance.
This project will implement numerous Best Management Practices (BMPs) to correct erosion concerns occurring adjacent to Kost Dam Trail and County Road 81, two public roads in Chisago County. Both of the sites have been of concern to Chisago County, the Chisago Soil and Water Conservation District (SWCD), Sunrise Township, and private landowners for many years. Because of
This project will support the MPCA’s water quality monitoring and assessment program. Specifically, the MPCA is developing a refined use designation process known as tiered aquatic life uses (TALU) to account for situations in which stream habitat has been compromised through hydrological alteration (e.g. channelization and ditching). An accurate state-wide determination of altered stream segments based upon the current National Hydrography Dataset (NHD) linework will assist in the assignment of the correct beneficial use within this new TALU framework.
Stream flow information is essential for understanding the state of Minnesota's waters. Clean water funding has allowed the DNR to expand a network of stream gages that support planning and implementation for clean water protection and restoration. These gages are also used as part of the interagency Flood Forecasting/Warning System. This expanded stream gaging network has also significantly increased the real time data available to recreational water enthusiasts via the internet.
Erosion from streambanks and fields along the Clearwater River add sediment, nutrients and organic material to this important tributary of the Red River of the North. Turbidity impairments caused by those sediments contribute to several environmental and economic problems including interfering with spawning habitat critical to Lake Sturgeon recovery in the Red River Watershed and increasing drinking water treatment costs for the city of East Grand Forks.
