"This project will meet the following goals: develop, implement, and evaluate the impacts civic engagement outcomes for the Big Fork River Watershed; create a citizen understanding of the Watershed Restoration & Protection Strategy (WRAPS) and Total Maximum Daily Load (TMDL) process and the role citizens and stakeholders can play in attaining water quality restoration and protection; provide opportunities for citizens and stakeholders to assist local partners and state agencies in developing priorities for restoration as well projects to accomplish protection of high quality waters; and
The goals of this project are to develop and implement a stakeholder and public engagement program, update the Hydrological Simulation Program FORTRAN (HSPF) models for the Big Fork and Little Fork River Watersheds, develop Total Maximum Daily Load (TMDL) studies for impaired waterbodies, remove naturally impaired streams from the impairment list, develop a Watershed Restoration and Protection Strategy (WRAPS) report, and to conduct civic engagement activates necessary to ensure project success.
The "Bigfork River Target Watershed Assessment – Lake of the Woods & Koochiching Soil and Water Conservation Districts" Project focuses on collecting water chemistry and field parameters at Bear River, Big Fork River (4 sites), Caldwell Brook and Sturgeon River. The project will support the biological assessments being completed by MPCA staff for this Target Watershed Assessment. This work will also train and develop Koochiching SWCD staff to enable them to continue water quality monitoring in the Rainy River Basin.
Ramsey-Washington Metro Watershed District (RWMWD) will improve water quality in Casey Lake and ultimately Kohlman Lake through the installation of approximately 25 rain gardens on priority properties identified as part of the Casey Lake Urban Stormwater Retrofit Assessment completed by Ramsey Conservation District (RCD) in 2011.
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 collect intermediate watershed load monitoring data on the Bigfork River which is critical to the identification of stressors and assist in defining areas of concern within the Bigfork Watershed and its greater Rainy River Watershed. Itasca County SWCD will closely collaborate with Koochiching SWCD and MPCA on this project.
This project involves the water quality monitoring of, and data analysis for four major watersheds (8-digit Hydrologic Unit Codes) in the Rainy River Basin. This monitoring will assist in providing the water chemistry data needed to calculate annual pollutant loads for the Major Watershed Pollutant Load Monitoring Network (MWPLMN) and provide short term data sets of select parameters to other Agency programs.
This project will construct, calibrate, and validate two Hydrologic Simulation Program FORTRAN (HSPF) watershed models. The consultant will produce HSPF models that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDLs) at the Big Fork River and Little Fork River watersheds.
The Koochiching County SWCD staff will collect water chemistry and field parameters at specific times to determine amount of contaminant load into each stream. These sites will coincide with locations where stream flow data is also being collected. This project will focus on watershed load monitoring in both the Big Fork and Little Fork River watersheds.
This project will provide monitoring of four of the major watersheds (8-digit Hydrologic Unit Codes) in the western part of the Rainy River Basin. Staff from the Lake of the Woods SWCD will conduct water quality sampling, review, manage and provide collected data to the Minnesota Pollution Control Agency (MPCA).
This project is a cooperative effort between Crow Wing and Itasca County to contract with RMB Laboratories to generate 65 lake assessment/trend analysis reports. The watershed protection model is an innovative and proactive approach to water resource management which is geared towards prioritizing areas of concern, targeting implementation strategies, and measuring their effectiveness. These assessments are also useful and understandable tools for lake associations and the public.
The Little Fork River and Big Fork River - USGS FLOWSED project was established to collect site specific data for streamflow, SSC, and bedload at the Littlefork and Big Fork Rivers in Northern Minnesota; use the data to evaluate the use of dimensionless sediment rating curves for the rivers; and document the results of the study in conjunction with the results from other rivers in the state for the application of regional sediment rating curves to rivers in Minnesota.
The goals of Phase I of the Marsh River Watershed (WRW) Watershed Restoration and Protection Strategy (WRAPS) project are to: 1) gather or develop watershed data needed for the development of the WRAPS project; 2) establish project and sub-basin work groups, develop a social outcomes strategy, and develop a civic engagement evaluation strategy to guide the WRAPS project; and 3) begin to identify, create, and organize tools that can be used to determine potential stressors and priority management areas.
Phase 2 of the Marsh River Watershed Restoration and Protection Strategy (WRAPS) project includes: continued civic engagement; production of the Total Maximum Daily Load (TMDL) study, which allocates pollutant load reductions for impaired waters; and production of the WRAPS report, which identifies implementation strategies that will maintain or improve water quality in many lakes and streams throughout the watershed.
The Prioritization, Targeting, and Measuring Water Quality Improvement Application (PTMA) connects the general qualitative strategies in a Total Maximum Daily Load (TMDL) and Watershed Restoration and Protection (WRAP) and the identification of implementable on-the-ground Best Management Practices (BMPs). Leveraging geospatial data from the International Water Institute this application will be developed for two pilot areas within the Red River Basin.
This project will provide an important framework for civic and citizen engagement and communication in the International Rainy River-Lake of the Woods Watershed, which will contribute to long-term public participation in surface water protection and restoration activities.
As part of the FY 2012 funding cycle, the Board of Water and Soil Resources granted funds for development of the Water Quality Decision Support Application (WQDSA). The WQDSA will provide land and water managers with geospatial data and online tools to prioritize, market, and implement actions on the landscape to achieve water quality objectives identified in local and state water plans and to ensure that public funding decisions are strategic and defensible.
This project will develop an effective transferable model to engage and educate watershed residents, stakeholders and others to better understand and protect watershed ecostystems through environmental monitoring, training, and formal and informal education programs in their local watershed. The project will build on the foundation of the existing Red River Basin River Watch program by strengthening three main activity areas: 1) curriculum integration and teacher training, 2) youth leadership and civic engagement, and 3) applied research collaboration and watershed science skills building.
MN Legislative Clean Water Fund funding to engage citizens in local watershed monitoring, work with regional partners to promote understanding and protection of watersheds, and organize and facilitate gathering of scientific data all for the benefit of water quality in the Red River Basin.
The purpose of this project is to improve understanding of primary productivity in the Red River and the diversity and population structure of the algal communities occurring along the river system. This will be accomplished through taxonomic identification of periphyton and phytoplankton assemblages necessary for characterizing responses to nutrient gradients along the Red River of the North.
The objective of the project is to demonstrate controlled drainage and saturated buffers as flood mitigation practices as well as their water quality and quantity benefits. The project is intended to set a compelling example to increase the acceptance and adoption of drainage water management practices in the Red River Valley.Surface and subsurface runoff will be monitored, and water samples will be collected and analyzed for nitrate-nitrogen. Installations were completed in 2015-2016.
This assessment will be performed using scientific volunteers, will build capacity at a technical training program at Itasca Community College (ICC), and will provide MPCA with answers providing a reasonable expectation for water quality in this under-studied region of Minnesota.
This project will collect water chemistry and field parameters at the Popple River, Bowstring River, Big Fork River, Rice River, Caribou Lake and Eagle lake. It will also support the biological assessments being completed by MPCA staff for this Target Watershed Assessment. This project is a collaborative effort with MPCA, 3 SWCDs, and the well established Bigfork River Watch Program. This project is a collaborative effort with Lake of the Woods and Koochiching County SWCDs because the Big Fork Watershed encompasses both Itasca and Koochiching Counties.
This is a joint project between the United States Geological Survey (USGS), Minnesota Pollution Control Agency (MPCA), North Dakota, and Manitoba. The project is a basin-wide, up-to-date water quality trend analysis using the "QWTrend" program for approximately 40 bi-national river sites to review nutrients, total suspended solids, total dissolved solids, sulfate and chloride from 1980 - 2015.