The grant will use local data to develop stormwater planning options that prioritize, target, and measure the effectiveness of Best Management Practices and allow local city officials to make decisions on stormwater Best management Practices that reduce pollutants in the stormwatershed.
Ramsey County SWCD is applying to continue the implementation of its popular and successful well sealing cost-share program to help protect the groundwater, especially in highly vulnerable drinking water supply management areas, by permanently and professionally sealing between 115 and 140 abandoned wells in the county.
The Aitkin County Soil and Water Conservation District will partner with the Minnesota Pollution Control Agency and local volunteers to conduct water quality monitoring in high priority areas of the Upper Mississippi River Grand Rapids Watershed. Five lakes will be sampled, including Savanna, Shumway, Loon, Hay, and Washburn. Through this effort we will obtain information that will be useful in assessing the health of this watershed. This will be valuable in planning for future restoration and protection efforts that will ensure good water and environmental quality for Aitkin County.
The Rice Creek Watershed District (RCWD) is proposing to improve the water quality of stormwater runoff to Bald Eagle Lake through installation of a new wet pond and iron-enhanced sand filter (IESF) on Ramsey County Ditch #11. In partnership with White Bear Township, this project will remove approximately 43 pounds of phosphorus from runoff annually and builds upon the extensive work undertaken by the RCWD to improve water quality in Bald Eagle Lake.
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.
This project will conduct a 2017 revision of the South Fork Crow River, North Fork Crow River and Sauk River Watershed Hydrological Simulation Program FORTRAN (HSPF) models and review of the Pine River Watershed HSPF model.
The Fairview Avenue storm sewer system is under capacity and stormwater runoff reaches the pipe faster than the pipes can convey the water downstream. This causes the system to surcharge, causing arterial street flooding, local street flooding, inundation of open spaces, as well as private property damage. This storm sewer system is directly connected to several significant regional water bodies.
The State Fiscal Year 2014-2015 Clean Water Fund appropriation identified the northeast metro as an area where potential solutions are needed to address emerging water supply issues. Three projects are underway to identify the advantages and disadvantages of combining water supply systems, using new water supply sources such as treated water from Saint Paul Regional Water Services or raw water from the Mississippi or St. Croix rivers, and optimizing groundwater pumping to protect water levels in White Bear Lake and other lakes across the northeast metro.
Currently, there are approximately 5,050 feedlots with fewer than 300 animal units that need to come into compliance with State feedlot rules. Clean Water Feedlot Water Quality Management Grant funds are being used to provide financial assistance to landowners with feedlot operations less than 300 animal units in size and located in a riparian area or impaired watershed.
The Minnesota DNR and the Minnesota Forest Resources Council work with forest landowners, managers and loggers to implement a set of voluntary sustainable forest management guidelines that include water quality best management practices (BMPs) to ensure sustainable habitat, clean water, and productive forest soils, all contributing to healthy watersheds. This project will monitor the implementation of these forest management guidelines and BMPs on forested watersheds in MN.
This project will construct, calibrate, and validate three HSPF watershed models. The consultant will produce HSPF models that can readily be used to provide information to support conventional parameter TMDLs. The consultant will clearly demonstrate that these models generate predicted output time series for hydrology, sediment, nutrients, and dissolved oxygen which are consistent with available sets of observed data.
Demand for Engineering services in Northeast Minnesota's nine-county Area III Technical Service Area is exceeding the capacity to deliver the needed services. There are increased requests from Soil and Water Conservation Districts for engineering needed to design and install Best Management Practices in part due to requests related to Clean Water Fund projects. These funds will be used to hire an engineer, which will increase engineering capacity and result in the completion of at least five additional projects per year.
The Metropolitan Council, in conjunction with the University of Minnesota Technical Assistance Program (MnTAP), are exploring opportunities for water conservation by businesses in the eleven county metropolitan area. Opportunities for water conservation will be defined for three businesses through the dedicated resources of three MnTAP interns. The interns will analyze water conservation opportunities through full time work on site over the summers of 2014 and 2015.
This project encompasses surface water quality sampling within the Snake River Watershed over a period of two years (2017-18). This is the cycle II monitoring as follow-up to the original Snake River Watershed monitoring 10 years ago as part of the Watershed Restoration and Protection Strategy Report (WRAPS). This project shall provide follow-up data on the waters in the Snake River Watershed in regards to changes in water quality over this 10-year cycle. The current sampling project will entail sampling 5 lakes and 11 stream sites.
The consultant LimnoTech will support response to Total Maximum Daily Load (TMDL) comments the peer review process, United States Environmental Protection Agency and public notice. They will then revise the TMDL document as needed and attend internal and external project meetings.
The goal of this project is to finalize the Lake Pepin Watershed phosphorus total maximum daily load (TMDL) report by using the existing information and documentation prepared under previous contracts to prepare one TMDL report that addresses the impairments on the mainstem of the Mississippi River. Information developed to date for draft TMDLs on the Minnesota River mainstem will be documented for later use by the Minnesota Pollution Control Agency.
The purpose of this project is to gain additional information about the amount of phosphorous flowing into Lake St Croix by implementing additional water quality monitoring and/or to reduce the amount of phosphorous entering Lake St Croix by the implementation of projects that will reduce phosphorus loadings. The St. Croix River Association (SCRA) will coordinate with a subgroup of the St. Croix Basin Water Resources Planning Team and other local resource experts on the identification and funding of comprehensive water monitoring and phosphorus reduction activities in the Lake St.
Capitol Region Watershed District and the City of Lauderdale seek to improve water quality and flood control functions of Seminary Pond in Lauderdale. The project partners propose improvements to the pond including: 1) expansion of the pond?s storage area and 2) construction of an iron-enhanced sand filter. These improvements were identified as being the most cost-effective and will remove an estimated additional 2 tons of sediment and 9 pounds of phosphorus annually.
The St. Louis River watershed is one of the largest watersheds in northern Minnesota and the largest single contributing watershed to Lake Superior. Surface waters are abundant with 353 lakes and 97 streams segments. Large areas of forest and wetlands help to sustain areas of exceptional water quality. However, land use changes have degraded many lakes, rivers, and streams. 21 stream reaches have aquatic life impairments, as identified by high turbidity (1 reach), poor quality aquatic macro-invertebrate community (16 reaches), and/or poor quality fish community (12 reaches).
The Rice Creek Watershed District is proposing to improve water quality and habitat in Locke Lake and Lower Rice Creek by stabilizing stream banks and bluffs on Lower Rice Creek, reducing in-stream erosion and sediment delivery to Locke Lake, and improving in-stream habitat complexity for fish and invertebrates. Eleven bank stabilization practices would be installed over a continuous 5,400-foot reach in Lower Rice Creek. The anticipated outcome of this project is the prevention of 2,874 tons per year of sediment, which is 58% of the sediment reduction goals for Lower Rice Creek.
It is critical to train new staff, create modeling protocols for new BMPs, refine and calibrate models, and test ever-advancing modeling applications. The Metro Conservation District?s (MCD) Sub-Watershed Analysis (SWA) program provides these capacity-building services and unites efforts across 11 SWCDs. MCD proposes to analyze an additional 15 subwatersheds. The analyses will identify the location and estimated cost/benefit relationship for BMPs, evolve with new technology, and share discoveries metro-wide.
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 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 project will focus on creating a watershed identity, monitoring & assessment, stressor ID assistance, Total Maximum Daily Load (TMDL) report development, Watershed Restoration & Protection Strategy (WRAPS) report development, watershed prioritization and targeting, and the continuation of the Civic Engagement components of the project. Currently, this watershed has seven listed conventional impairments (Lake Eutrophication); however, it is possible that additional stream impairments (up to four) may be identified during the IWM process.
Phase 2 of the Mississippi River - Brainerd Watershed Restoration and Protection Strategy (WRAPS) project will: develop the WRAPS report and the Total Maximum Daily Load (TMDL) study, which allocates pollutant load reductions for impaired waters; implement a civic engagement plan; and develop watershed modeling scenarios to help understand implementation needs in the watershed.
Phase II of this project will focus on source assessment, running watershed scenarios, Kego Lake TMDL, lake protection planning, Stressor identification and the continuation of the Civic Engagement components of the project. Information gathered in Phase II will be utilized in developing the WRAP report which will be developed in the future Phase III of the project.
This project is a continuation of a Total Maximum Daily Load (TMDL) study that addresses lake eutrophication (phosphorus) in two lakes that are on the 2014 United States Environmental Protection Agency 303(d) list of impaired waters, located in the Pine River Watershed. The contractor will be responding to public comment on the Pine River TMDL.
Mille Lacs Lake is recognized as one of the premier walleye producing lakes in the world. The current water quality of the lake is good, however recent monitoring of the lake and its watershed indicates the potential to develop problems. Since 1997, the Mille Lacs Lake Watershed Management Group has worked to preserve the water quality of Mille Lacs Lake. Five priority projects were identified by the Group partners in an effort to preserve water quality. Support for these projects was provided by a grant from the Clean Water Fund.
The purpose of this program is to provide cost share funding to community groups for the installation of community accessible rain gardens and other water quality projects in Ramsey County. The Ramsey Conservation District (RCD) in partnership with local property owners and Watershed Districts/Water Management Organizations will install 6-12 stormwater best management projects that will help protect and improve water quality of surrounding lakes, streams, rivers, and wetlands.
The Aitkin County Soil and Water Conservation District will partner with local lake associations and other eligible community partners to reduce the impacts of storm water runoff and retain water on the land. We will implement a mini-grant program that will install rain gardens and native vegetation buffers along shorelines using deep-rooted native vegetation that will filter runoff, promote infiltration, and control stormwater runoff and soil erosion.
The Metropolitan Council, in conjunction with the University of Minnesota, is evaluating outdoor water use in the Twin Cities metro region - a subject which has come under the spotlight recently due to concerns related to water quality and quantity issues. In the Twin Cities, 20% of all treated drinking water is used outdoors, with a majority of this being used on lawns and landscapes. The goal of this proposal is to reduce water use in the home landscape by conducting assessments, research, and demonstration around the smart use of irrigation.
The Metropolitan Council, in conjunction with HDR Engineering, Inc. consultants, will evaluate a variety of approaches to develop sustainable water supplies across the metro area. Subregional study areas are being selected where multiple communities face potential problems with the long-term sustainability of current water supplies, and where community stakeholders have expressed interest in learning more about sustainable water supply options.
The Rice Creek Watershed District (RCWD) will create a web-based, mobile-compatible public drainage system inspection and maintenance database. This database system will enable District staff to create and track maintenance requests and inspections from the field, including Geo-referencing locations requiring repair via a mobile device. The system will greatly reduce the time required to identify and log each maintenance request, enabling staff to inventory more miles of public drainage system yearly thereby identifying erosion problems more efficiently and thoroughly.
The purpose of the project is to collect data to represent the ambient condition of the lakes and streams of the Rum River Watershed within Mille Lacs, Isanti and Sherburne Counties that is needed to determine if thresholds set to protect designeated uses, such as aquatic recreation and aquatic life, are being met .
This project will focus on Watershed Restoration and Protetion Strategy (WRAPS) and Total Maximum Daily Load (TMDL) report development for the Rum River Watershed, which includes Mille Lacs Lake (the second largest lake in Minnesota) and the Rum River of which Mille Lacs Lake is the headwaters. The project will produce a plan that partners and citizens will be able to implement, a framework for citizen engagement, and a set of watershed management activities that will achieve water quality standards for all impairments within the watershed.
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. Analysis of the watershed land use indicates that large impervious sites are typically commercial properties (primarily retail), churches, and schools. The District began assessing church sites for retrofit opportunities in 2013 and will continue this effort in 2014.
Approximately 70 percent of all Minnesotans rely on groundwater as their primary source of drinking water. Wells used for drinking water must be properly sealed when removed from service to protect both public health and Minnesota’s invaluable groundwater resources. The Minnesota Department of Health with the assistance of the Board of Water and Soil Resources protects both public health and groundwater by assuring the proper sealing of unused wells.”
This project will reduce phosphorus loading from the watershed tributary to Silver Lake. The project includes a combination of structural water quality improvements in the SLV-10 subwatershed north of the lake, retrofits (including iron enhanced sand filtration) to the Silver Lake bioretention basin, small scale best management practices (BMPs) throughout the watershed, and educational signage in Joy Park. The elements of this project will reduce phosphorus loading to Silver Lake by a combined 15 pounds per year or 40% of the current watershed load.