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 Washington County Department of Public Health and Environment is seeking funds to conduct countywide records catalog and subsequent risk analysis of subsurface sewage treatment systems, or septic systems, in the county. The records catalog will involve the collection, digitization and review of historical permit records from 1972-2004. The risk analysis will utilize information from the historical review, in addition to other pertinent available data.
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 to be used by counties to augment available funding dedicated to SSTS ordinance
MPCA will administer funding to eligible Local Governmental Units to use MPCA-approved Advanced Inspectors to conduct work in accordance with Minn. Rules 7080, 7081, and 7083, which requires proper location, design, installation, use and maintenance of an individual subsurface sewage treatment system (SSTS) with a design flow of 2,500 gallons per day or more that protects the public health, safety, general welfare, and the environment by the discharge of adequately treated sewage to the groundwater. Multiple contracts will be awarded.
Eroding streambanks along Bassett Creek are reducing the water quality of the creek and the Mississippi River. This project consists of stabilizing a 3,100 foot reach of Bassett Creek mostly located within Theodore Wirth Regional Park. The proposed stabilization measures will result in an estimated reduction of 52 tons of sediment and 60 pounds phosphorus per year.
The Highland Ravine is a large bluff area in central St. Paul that has become highly eroded due to hydrologic changes associated with urban development. During rain and snow melt events, water and sediment moves down slope onto private residential properties causing significant flooding and sedimentation. In addition, sediment-laden water from the gullies goes into the St. Paul storm sewer system which discharges, untreated, directly to the Mississippi River.
This project contains several activities that will implement effective, shovel ready conservation practices on multiple water bodies. The goal is to reduce the erosion impacting stream bank stability. Three initiatives will be implemented, including the installation of four shoreland restoration/stabilization projects, completion of two stream bank stabilization projects on the Middle Fork Crow River and a rain barrel program. An education program will provide outreach to lake and city residents throughout the Middle Fork Crow River Watershed.
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
The City of Eden Prairie and the Riley Purgatory Bluff Creek Watershed District are jointly developing and implementing a restoration plan for Staring Lake that includes nutrient reductions and carp management. The City of Eden Prairie, through a comprehensive pond inspection program, identified high priority ponds and subwatersheds for nutrient reductions in the Staring Lake watershed. Several ponds were identified as excellent candidates for iron enhanced sand filtration.
This agreement is for Board of Water and Soil Resources (BWSR) to provide statewide conservation reporting system support services in order to support Minnesota Pollution Control Agency (MPCA) programs. Support services will be aimed at both MPCA staff and local government recipients of grants.
The goal of this project is to create a single statewide authoritative enterprise spatial data set of Hydrologic Simulation Program FORTRAN (HSPF) and Scenario Application Manager (SAM) catchment polygons which can be used and shared easily by the Minnesota Pollution Control Agency along with other state agencies and local partners.
The Statewide Sediment Network was established to measure the levels of suspended sediment concentrations and particle size distributions at eight sites across Minnesota to evaluate the amount of sediment carried by rivers. USGS sample collection and laboratory analysis techniques provide a more rigorous, robust, and technically accurate measure of sediment in water than the current use of total suspended solids as the measure of sediment in water.
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.
The goal of this project will be to research and develop statewide winter maintenance best management practices (BMPs) for inclusion in the Statewide Chloride Management Plan and Winter Maintenance Assessment tool (WMAt). The WMAt is a necessary technical resource and planning tool for stakeholders and permittees to implement the chloride reduction strategies described in the Statewide Chloride Management Plan. This project will enhance the WMAt so that it is an effective planning tool to assist local winter maintenance professionals to reduce salt use.
The goal of this project is to update and revise the Twin Cities Metro Area (TCMA) Chloride Management Plan to a Statewide Chloride Management Plan (CMP). The Statewide CMP will provide stakeholders the information and tools necessary to improve and/or maintain water quality with respect to chloride.
This project will use state-of-the-art microbial source tracking (MST) methods to determine the sources of fecal contamination in urban, agricultural, and natural watersheds in Minnesota. Water samples will be collected from multiple tributaries within each watershed over time and during both low and high flow conditions to analyze the temporal and spatial dynamics of fecal contamination sources. In addition to fecal contamination sources, basic water quality parameters and the occurrence of human pathogens will be also quantified. Results will provide region-specific Escherichia coli (E.
Nitrate-nitrogen (nitrate) is one of the contaminants of greatest concern for groundwater in Minnesota. This funding is being used for activities that help identify the severity and magnitude of nitrate contamination and implement practices at the local level to reduce nitrate in groundwater. The Minnesota Department of Agriculture (MDA) is working with many local partners and passing funding through to local government units (counties, cities, soil and water conservation districts) to address this concern.
The MDA's technical assistance helps ensure that current and accurate scientific information is made available and used to address water quality concerns in agricultural areas of Minnesota. This funding has been used to evaluate the effectiveness of conservation practices, share information from research and demonstration sites and enhance outreach and education to the agricultural community and local government partners.
Source Water Protection is one of the three priority concerns identified in the Stearns Comprehensive Local Water Managment Plan. Currently, Stearns County has 23 public water supplies with approved Wellhead Protection Plans. This encompasses approximately 65,000 acres of land in Drinking Water Supply Management Areas (DWSMA). This proposal will fund at least 10 unused well sealing projects within these sensitive areas.
The Stearns County Soil and Water Conservation District's (SWCD) Stump and Sagatagan Lakes Subwatershed Stormwater Treatment Projects will retrofit sub-catchment drainage areas on St. John's University (SJU) campus that drain untreated stormwater runoff directly into Stump and Sagatagan Lakes. This area of the region has been identified as ecologically significant by the Nature Conservancy's Eco-Regional Plan and the MN DNR's County Biological Survey.
Stearns County Ditch 26 (CD 26) is a 20 mile channelized section of Getchell Creek, a primary tributary to the Sauk River that is impaired for turbidity, E.coli and aquatic macroinvertebrate bio-assessment. The Stearns County Ditch 26 Drainage Management Project will address the stormwater runoff concerns identified within this public drainage system. Alternative intake structures to manage nutrients and mitigative measures will be taken to retain water on the upland properties and minimize flow rate and velocity.
The project will develop, adopt, and implement an agricultural erosion control ordinance for Steele County. Project funds will be used to hire a consultant to assist in this endeavor to gather input from citizens, organize meetings and develop a draft ordinance. County staff will assist with organizing meetings, holding hearings, and the formal process of adopting the developed ordinance.
This project will establish up to 12 miles of riparian buffers along the Pomme de Terre River and its tributaries and install up to 5 raingarden within the cities of Morris and Chokio as identified in the Pomme de Terre TMDL Implementation Plan.
The Stewart River is a state protected water and a Designated Trout Stream. In 2010, it was identified as a high priority watershed during the update of the Lake County Water Management Plan. The river empties into Lake Superior near the drinking water intake for the City of Two Harbors.
This project will restore five severely eroding streambank sites along a 1.5 mile reach of the Stewart River. Commitments have been secured from the five property owners, including the Lake County Highway Department, to complete the project.
In recent times, the owners of Wolf Marine on the St. Croix River have to excavate sediment that has built up at the outlet of Brown's Creek every year just to keep their marina navigable. Their business is directly affected by how much soil gets into the creek. Reducing dirt and sand entering Brown's Creek is also important to others. The creek is one of the few designated trout streams in the Twin Cities area that supports a fishable brown trout population.
This grant seeks to build the top 5 prioritized projects (2 iron-enhanced sand filters, 1 rain garden, 1 infiltration trench, and 1 tree trench) within the City of New London. Installation of these project will result in a cost-effective pollutant reduction from city runoff to various nearby water resources. The project is estimated to reduce sediment by 2 tons and phosphorus by 8 pounds annually.
Through the Stormwater Retrofit Partnership, the Dakota Soil and Water Conservation District (DSWCD) provides the funding and technical assistance to prioritize and install Best Management Practices (BMPs) at existing public facilities. This project is needed because, like other urban properties that developed before stormwater regulations, most government owned facilities were designed and constructed without optimal water quality features.
The overall goal of this process is to compile the information developed by the MPCA into summaries, tables, graphics and tools that the MPCA can use to replace sections of the Stormwater Manual. CDM Smith has developed an approach and workplan that is aimed at complimenting the knowledge of the MPCA and assisting the MPCA through supplemental literature searches, compilation of materials into usable formats, and facilitation of discussions when needed.
Stormwater 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.
This project will continues the successful 2010 Stormwater Retrofit Partnership. This resulted in the retrofit of 18 sites including eleven bioretention cells and seven snowmelt management areas. These retrofits provided treatment for 28 acres of urban drainage area - reducing total suspended solids, total phosphorus and stormwater volumes.
Bald Eagle Lake is a popular recreational lake known for its fishery on the Metropolitan Council's Priority Lakes List. The lake is negatively impacted by excess nutrients and restoring its water quality is a local priority.
This project will collect stormwater runoff from an approximately 900 acre area and re-use it to irrigate an existing golf course. This innovative project will provide a multitude of environmental benefits for Bald Eagle Lake including significant runoff volume reduction, groundwater recharge and phosphorus load reduction.
The Municipal Separate Storm Sewer Systems (MS4) program is in the process of issuing the small MS4 general permit to new permittees who have been designated based on the results of the 2010 Census. These permittees were notified on February 25, 2015 that they will need to apply for the Permit within 18 months. We need to provide outreach on stormwater management and environmental impacts to ensure that they achieve a basic understanding of why the MS4 Permit exists, and why their municipality is in the program.
