This project will work with the MPCA to conduct watershed pollutant load monitoring at four sites in the Chippewa River watershed and one site in the neighboring Pomme de Terre River watershed . The Chippewa River Watershed Project (CRWP) team will also aid the MPCA in measuring and comparing regional differences and long-term trends in water quality. The goal is to collect quality data and complete load calculations for the five sites using the MPCA's established protocols.
The purpose of this project is to conduct an inventory of the 103E drainage ditches where erosion, sediment, and/or nutrients are contributing substantially to water quality degradation, and prioritize sites for side water inlet control and/or buffer strip implementation.
The Pope County Water Plan has identified surface water quality and erosion control as top priority resource concerns. These two priorities account for 33% of the phosphorus loading to Lake Emily. The Lake Emily Watershed Best Management Practices (BMP) Prioritization Project will provide GIS-based water quality analysis to assist the Pope Soil and Water Conservation District in determining effective locations for BMP implementation and will prioritize the areas from high to low for phosphorus, nitrogen, and sediment delivery from contributing runoff during rainfall events.
Pope Soil and Water Conservation District, partnered with Natural Resources Conservation Service staff and landowners, will install 22 targeted water and sediment control structures in two priority subwatersheds (Trappers Run and Minnewaska). These structures have the potential to reduce sediment load by 514 tons per year, and phosphorus by 440 pounds per year.
The purpose of this Phase II Project is to advance the inventory process of the 103E drainage ditches where erosion, sediment, and/or nutrients are contributing substantially to water quality degradation, and prioritize sites for side water inlet control and/or buffer strip implementation.Through this project, Red Lake Watershed District, Red Lake County Ditch Authority, along with the Red Lake County SWCD, will be working together prioritizing county ditch systems (based upon water quality degradation and the amount of sediment loading that is occurring in the ditch systems), targeting whe
The Clearwater River from the Lost River to Beau Gerlot Creek and from the Lower Badger Creek to the Red Lake River is on the Total Maximum Daily Load Impaired Waters List for Turbidity. Red Lake County Soil and Water Conservation District (SWCD) has targeted five sites in the Terrebonne Creek, Beau Gerlot Creek, and Lower Badger Creek subwatersheds of the Clearwater River Watershed; with the potential of an additional five to ten more projects, based on data analysis obtained from a number of models.
The City of Glenwood Water Quality Assessment & Best Management Practice Prioritization Project will include an assessment and analysis of approximately 1,796 acres affecting water quality and contributing runoff to Lake Minnewaska. By implementing this water quality analysis and assessment of the City of Glenwood and sub watersheds, a reducing pollutants by 1,287 pounds per year of phosphorus and 203 tons per year of sediment.
The Lake Emily Watershed BMP Targeted Implementation Project will provide funding for 48 water and sediment control projects and potential shoreline and riparian restoration. This work would address surface water quality sources identified in the water plan (Section 2-pg 11) including direct drainage from the Lake Emily sub-watersheds (070200050304, 070200050303, 070200050203, 070200050201, 070200050202) the Little Chippewa, and from upstream discharge between Lake Emily and Lake Minnewaska.
Pope SWCD has 9 motivated landowners with 21 WASCOBs, 1 lined waterway, and 1 shoreline restoration in two priority sub watersheds (Trappers Run and Minnewaska). Based on averages calculated from recently constructed WASCOBs in the West Central Area II these projects have the potential to reduce TSS by 518 T/year, and 446 lbs./year of TP. This project will provide a secondary benefit to improve downstream water quality to Lake Emily. The project will result in meeting 99% of the Lake Emily TP lbs/yr.
Lake Emily is a high priority recreational lake in Pope County and is currently not meeting state water quality standards due to high phosphorus levels. This project will provide funding for 26 water and sediment control projects with potential shoreline and riparian restoration projects. This work will address surface water quality sources including both direct drainage and upstream discharge. Collectively, these projects have the potential to annually reduce sediment and phosphorus leaving the field which will directly address 15% of Lake Emily's phosphorus reduction goal.
The Lower Shakopee Creek has proportionally higher pollutant contributions than any other tributary in the Chippewa River Watershed, and lower than average implementation of conservation practices. Establishing relationships with agricultural landowners is critical for overcoming barriers to participation. In order to make measurable pollutant reductions, Chippewa River Watershed Project staff will increase one-to-one landowner contacts, program promotion, and Best Management Practice site identification.
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.
The Beltrami SWCD proposes to partner with citizen and non-profit groups to complete projects that will reduce stormwater runoff and retain water on the land. The majority of the projects will be in the Lake Bemidji lakeshed which has recently been identified in the WRAPs project as being on the verge of impaired for nutrients. With the City of Bemidji being a regional hub for Northwestern Minnesota and the First City on the Mississippi, there are ample opportunities for citizen involvement and ample opportunities for stormwater improvements.
Beltrami County will be updating their water plan in 2017. This plan will be watershed protection oriented and will utilize all available data and maps in order to best protect our water resources. In 2012, Beltrami County completed screening on 19 of our large lakes with heavy land use development. What we found was that none of the lakes had enough chemical data for a trend analysis.
The purpose of this project is to create a shared plan for the Watershed Restoration and Protection Strategy (WRAPS) process with roles, responsibilities, commitments and deliverables clearly understood by all (MPCA, CRWP and local partners). The Minnesota Pollution Control Agency (MPCA) and the Chippewa River Watershed Project (CRWP) will be working together to ascertain the level of involvement that local units of government and other partners (local partners) want to engage in for the second round of the WRAPS process.
The purpose of this project is to create a shared plan for the Watershed Restoration and Protection Strategy (WRAPS) process with roles, responsibilities, commitments and deliverables clearly understood by all (Minnesota Pollution Control Agency (MPCA), Chippewa River Watershed, and local partners). The MPCA and the Chippewa River Watershed Project (CRWP) will be working together to ascertain the level of involvement that local units of government and other partners want to engage in for the second round of the WRAPS process.
The goal of the Chippewa River Watershed Protection project is to protect unimpaired areas of the watershed. This will be accomplished through education and outreach with landowners and through implementation of best management practices.
This project will complete a comprehensive and sustainable Major Watershed Restoration and Protection Strategies report for the Chippewa River, its tributary streams, and the many lakes in the Chippewa River watershed that is understandable and adoptable by local units of government and residents.
The Chippewa River Watershed Project (CRWP) will work with the Minnesot Pollution Control Agency (MPCA) to conduct watershed pollutant load monitoring at four sites in the Chippewa River watershed and one site in the neighboring Pomme de Terre River watershed to aid the MPCA in measuring and comparing regional differences and long-term trends in water quality. Our goal is to collect quality data and complete load calculations for five sites using the MPCA's Watershed Pollutant Load Monitoring Network (WPLMN) established protocols.
This project will produce a final Total Maximum Daily Load (TMDL) study and Watershed Restoration and Protection Strategy (WRAPS) report that will be utilized by local government units for water planning purposes during the Board of Water and Soil Resources One Water One Plan process for the Clearwater River Watershed.
The overall goal is to develop a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study that will address water quality impairments and maintain or improve water quality throughout the Clearwater River watershed. The study will identify sources of pollutants to the streams and lakes, allocate pollution reduction goals, and prioritize and identify implementation strategies to maintain or improve water quality in key lakes and streams in the watershed.
This project will complete a lake data set for 303(d) and Aquatic Recreation use assessments in Clearwater County by monitoring total phosphorus, chlorophyll-a and Secchi depth; by utilizing lakeshore owners.
The Minnesota County Geologic Atlas program is an ongoing effort begun in 1982 that is being conducted jointly by the University of Minnesota's Minnesota Geological Survey and the Minnesota Department of Natural Resources (DNR). The program collects information on the geology of Minnesota to create maps and reports depicting the characteristics and pollution sensitivity of Minnesota's ground-water resources.
This project will construct three watershed framework models built using the Hydrologic Simulation Program FORTRAN. These executable models will simulate hydrology at the 12-digit HUC subbasin scale. An HSPF model will be built for each of the following 8-HUC watersheds: Red Lake River (09020303) and the Clearwater River (09020305).
This project will support a civic engagement cohort that will be offered in southwest Minnesota to foster partnering and build capacity of local government, organizations, and residents for effective civic engagement in water protection and restoration. This project will also build networks and the skill set of local resource professionals to do effective civic engagement work for water restoration and protection. The cohort will be administered through the Minnesota River Board (MRB), established in 1995 with a goal of focusing water management efforts on the local level.
This project will develop and execute three point source related scenarios for the Chippewa River watershed using an existing HSPF watershed model. This project will also support the review of the HSPF Modeling Guidance Document.
This project will provide timely surface water quality data from waters of concern to Minnesota Pollution Control Agency (MPCA). This data will be analyzed and compared to historic data from the same sampling locations. All locations are in the Douglas County portion of the Chippewa River Watershed. Sampling locations include six lakes: Little Chippewa, Devils, Moon, Moses, South Oscar, and Stowe; and one stream site: County Ditch 60.
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.
This project will finalize HSPF watershed model construction and complete the calibration/validation process. The consultant will add representation of point source discharges to the model. The consultant will compile flow data for the purposes of calibration and validation. An initial hydrologic calibration will be performed and submitted for approval.
The goal of this project is to extend the existing HSPF models through 2012 in the Chippewa Watershed (07020005) and Hawk-Yellow Medicine Watershed (07020004) to incorporate recent monitoring data to support current MPCA business needs and sediment source investigations.
The purpose of this project is to identify effective irrigation and nutrient management best management practices and technologies and the barriers that prevent irrigators, producers, and other agricultural partners from adopting them in Otter Tail County. The primary goal is to reduce nitrate in areas where groundwater is susceptible to contamination as mapped by The Minnesota Department of Health by identifying effective BMPs and addressing the barriers to their adoption.
Pasture and hayland account for 62% of the agricultural land use in Clearwater County. In 2012, it was the 12th largest producer of beef cattle in Minnesota. In a county where 22% of pasture/hayland acres are within 300 feet of riparian areas, management practices need to be introduced that enhance rather than restrict the farm operations that use these zones for their livelihood. Clearwater County's Silver Creek and Ruffy Brook are currently listed as impaired by fecal coliform.
The Minnesota River Basin Hydrological Simulation Program FORTRAN (HSPF) models simulate sediment erosion and transport, however these models periodically need to be adjusted to be consistent with the most recent sources of information regarding sediment distribution and loading rates. The goal of this project is to refine the sediment source partitioning and simulation in the Minnesota River basin using all relevant available sources of information.
The Minnesota River Basin Hydrological Simulation Program FORTRAN (HSPF) models, which simulate flow and pollutant transport, need to be refined to be consistent with the most recent external sources of land use, hydrologic response, and surface flow attributions. The primary goal of this work is to refine the hydrologic calibration in the Minnesota River basin.
LEQA is a Minnesota Department of Agriculture (MDA) program to help livestock producers address, using a non-regulatory approach, the unique water quality issues on their farms. The MDA has contracted with Ag Resource Strategies, LLC, to recruit farmers to enroll in the LEQA program. The company trains technicians to assess different areas of each farms, such as the farmstead, livestock facilities, fields and wooded areas. The technicians then develop an environmental assessment and identify financial assistance for these projects.
This project will support water quality monitoring and data analysis in the 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 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 update sediment Total Maximum Daily Loads (TMDLs) for 60-64 impaired stream reaches and provide a final TMDL report. The report will address sediment and turbidity impaired streams in the Minnesota River Watershed. TMDLs will describe the impairment in each water body and water quality targets, and will include a discussion of pollutant sources, supporting report components that document assumptions and methodologies, and TMDL equations with completed load allocations, wasteload allocations, and margin of safety for each impairment.