The Straight River runs through Owatonna and is considered a priority water resource for the city. Untreated stormwater from city roofs, streets and parking lots are jeopardizing the water quality of river. Through this project, the city will install four rain gardens in city parks that will capture and rapidly absorb stormwater runoff from streets and driveways. The implentation of these rain gardens throughout the city will reduce the volume of stormwater entering the Straight River.
The Partners for Clean Water program will enable community groups to take action to improve their water resources. Engaging citizens directly in project development and installation efforts provides immediate water quality benefits and develops a community of active stewardship. Installation of projects previously developed by Douglas County community groups will shift the currently dormant water quality protection efforts.
The Douglas County Partners for Clean Water program enables community groups to take action and improve their water resources. Engaging citizens directly in project development and installation efforts provides immediate water quality benefits and cultivates a community of active stewardship.
This project is a cooperative effort including Cass Soil and Water Conservation District, the Association of Cass County Lakes (ACCL), and registered Homeowner Associations throughout Cass County. All of Cass Counties 514 lakes and streams eventually drain into the Upper Mississippi Watershed. Sediment and nutrient pollution continue to be a primary concern when addressing water quality protection issues.
The South Washington Watershed District has identified a series of priority sites to install filtration systems on aging storm sewer networks in the cities of Newport and St. Paul Park aimed at reducing sediment loads to the Mississippi River. SWWD is working with the cities to add stormwater treatment where there has historically been none. Prioritization has come from two recently completed subwatershed retrofit assessments, targeting specific storm sewer networks in the cities.
Perro Creek drains directly into the nutrient impaired St. Croix River. This project focuses on landowner outreach, design and installation of up to 10 bioinfiltration best management practices to reduce pollution from 85 acres of urban land draining directly into Perro Creek, then into Lake St. Croix with no water quality treatment. The installation of these practices will not only reduce stormwater volumes, but also the nutrients that are the root cause of the nutrient impairment in Lake St. Croix as well as the stormwater bacteria contributions to Perro Creek.
This project will fund the stream restoration of a failed, 30-year old sediment control structure in the Deer Creek subwatershed using natural channel design methods to restore the stream to a stable state. Since the dam breached an estimated 78 tons of sediment is transported annually to the turbidity-impaired Deer Creek.
Increases in crop prices have reduced the acreage of land in conservation set-aside programs such as the Conservation Reserve Program and other marginal land use. Significant conversion of grasslands to cultivated agricultural crops has increased the levels of runoff and sedimentation. Phase III of this project addresses the need to protect vulnerable sites by installing water and sediment basins. These basins are earthen embankments built to temporarily detain sediment-laden runoff, allowing sediment to settle out before runoff is discharged.
This project is Phase IV of work to install water and sediment basins located within Sand Hill Watershed. A water and sediment basin is an earthen embankment built so that sediment-laden runoff is temporarily detained, allowing sediment to settle out before runoff is discharge. These are installed on agricultural cropland where erosion exceeds the allowable soil rate. Minimum detention time to store water is 36 hours for a 10 year, 24 hour runoff event. Starting in 2010, the District received dollars to assist landowners with flood-related projects.
In 2002, Farquar and Long Lakes were placed on the impaired waters list due to high phosphorus levels that caused algal blooms and reduced water clarity. The City of Apple Valley is proposing a combination of two enhancements to achieve a 61 pound reduction in phosphorus.
We will partner with the BWSR RIM Easement Program, Hubbard, Crow Wing, and Cass Counties and Soil and Water Conservation Districts (SWCD) to protect 610 acres of high-quality private forest, wetlands, and shoreline in the Northern Forest Ecological Section. This project will be successful because of the sophisticated RAQ scoring, integrative parcel selection, proven outreach tactics, SWCD landowner relationships, and BWSR and SWCD RIM partnership.
The City of Lindstrom has identified the subwatershed that includes Pleasant Hill Park as a high priority for a stormwater management project due to the high volume of untreated stormwater discharging directly into South Lindstrom Lake. This is a cooperative project between the City of Lindstrom and the Chisago Lakes Lake Improvement District.
Consistent with the implementation recommendation of the Total Maximum Daily Load Study , the goal of this project is to install 30 grade stabilization structures along Polk County Ditch 80 to reduce sediment loading by 270 tons per year. Polk County Ditch 80 contributes a large amount of sediment to the Sand Hill River which currently does not meet state water quality standards for sediment.
This pilot program will restore and enhance diverse native habitat over approximately 90 projects on conservation lands and natural areas strategically located across Minnesota to address declining pollinators and insects.
The Pomme de Terre River watershed is located in west central Minnesota and occupies a portion of six counties. For many years surface water quality within the watershed has been a concern to local government. In 1982 the Pomme de Terre River Association Joint Powers Board (JPB) was formed to begin addressing this issue. In 2002 the Pomme de Terre River was placed on the Impaired Waters list for turbidity. The goal of the JPB is to improve the local water resources within the watershed through voluntary efforts and building relationships with local landowners.
The Pomme de Terre River watershed is located in west central Minnesota and occupies a portion of six counties. For many years surface water quality within the watershed has been a concern to local government. In 1982 the Pomme de Terre River Association Joint Powers Board was formed to begin addressing this issue. In 2002 the Pomme de Terre River was placed on the Impaired Waters list for turbidity. This project is a continuation of a 2011 Clean Water Fund project.
PDTRA will use this funding to pursue goals stated in the CWMP. PDTRA has ID'd 5 priority areas to focus sediment & phosphorus reduction goals: Northern Lakes, Christina/Pelican Lakes, PDT River Lakes Chain, PDT River Corridor, & Drywood Creek. Plans include but aren't limited to: water & sediment control basins, alternative tile intakes, waste pit closures, grade stabilizations, livestock exclusions, shoreline restorations/stabilizations, cover crops.
The Pomme de Terre River watershed is located in west central Minnesota and occupies a portion of six counties. For many years surface water quality within the watershed has been a concern to local government, and in 1982 the Counties and SWCDs within the watershed area formed the Pomme de Terre River Association Joint Powers Board to begin addressing this issue. In 2002 the Pomme de Terre River was placed on the Impaired Waters list for turbidity.The project partners are collaborating to improve surface water quality within the watershed with a grant from the Clean Water Fund.
The goal of the Pomme de Terre River Association (JPB) is to improve local water resources within the watershed through targeted voluntary efforts and build strong relationships with local landowners, producers, and citizens. Utilizing the State's first Watershed Restoration and Protection Strategy, the JPB has targeted and identified specific areas and activities required for marked water quality improvement.
The goal of the Pomme de Terre River Association (PDTRA JPB) is to improve the local water resources within the watershed through targeted voluntary efforts and the building of strong relationships with local landowners, producers, and citizens. To further our efforts in strategically working to achieve our reduction goals, listed in our Major Watershed Restoration and Protection Strategies Report and Turbidity Total Maximum Daily Load report, we would like to further define our Priority Management Zones through the development of a hydrological conditioned Digital Elevation Model.
The Pomme de Terre River Association (PDTRA) will use this funding to pursue goals stated in the Comprehensive Watershed Management Plan. PDTRA has identified five priority areas to focus sediment & phosphorus reduction goals: Northern Lakes, Christina/Pelican Lakes, Pomme de Terre River Lakes Chain, Pomme de Terre River Corridor, and Drywood Creek. Plans include but aren't limited to: water & sediment control basins, alternative tile intakes, shoreline restorations/stabilizations, critical area plantings, grass waterways and SSTS upgrades.
This project will work to install 30 water and sediment control basins (WaSCOBs) in three subwatersheds adjacent to Lake Minnewaska to reduce the amount of total phosphorus (TP) entering Pelican Lake, Lake Minnewaska, and Lake Emily. Pelican Lake and Lake Emily have been identified in an 8 lake Total Maximum Daily Load (TMDL) study conducted in Pope County as being impaired for excess nutrients.
Pope County Ditch 6 (CD 6) is an 18 mile channelized watershed and a primary tributary to Ashley Creek. CD6 and Ashley Creek are impaired for bacteria, dissolved oxygen and aquatic organisms. This project will address the storm water runoff concerns identified within this public drainage system in conjunction with repairs scheduled for 2017-2018. Alternative intake structures to manage nutrients and other practices, such as water and sediment control basins, will be installed to retain water on the upland properties and minimize flow rate and velocity.
Water quality in Powers Lake is declining. Water monitoring professionals from the Washington Conservation District (WCD), funded by the South Washington Watershed District (SWWD), have determined that average annual phosphorus concentrations are increasing in the lake. Higher phosphorus concentrations lead to more frequent algae blooms and reduced water clarity.Powers Lake is at risk mainly due to increased urbanization within its watershed (the land area that drains to the lake).
Lake Okabena does not meet state water quality standards due to high phosphorus levels. The Total Daily Maximum Load Study identified a 70% reduction in phosphorus from the watershed is needed to meet water quality standards. The City of Worthington owns the recently closed Prairie View Golf Course. Okabena Creek flows through the golf course and some small ponds. This project will modify these three ponds to increase storage and removal efficiency, and add an iron-enhanced filter bench to enhance soluble phosphorus removal.
