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.
Four stream segments, totaling over 100 miles, are impaired in the Little Fork River for Total Suspended Solids (TSS). This study will provide local partners with project options for reducing sediment in the Little Fork Watershed. Through the use of sediment fingerprinting determinations can be made if the sediment is from in (or near) channel, or the watershed and identify what sub-watershed the sediment is coming originating.
The Little Fork River Watershed Assessment will include the waters of the Rice River, Little Fork River, Flint Creek, Nett Lake River, Beaver Brook, Valley River, Willow River, Sturgeon River, Bear River, Dark River, and the Lost River. This Assessment will also include Little Bear Lake, Bear Lake, Thistledew Lake, Little Moose Lake, Raddison Lake, Napoleon Lake, Owen Lake, Dark Lake, Clear Lake, Long (Main) Lake, Dewey Lake, and Long (North) Lake. These lakes and streams are found throughout the Little Fork River Watershed, which spans parts of Koochiching, St. Louis and Itasca Counties.
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 purpose of this project is to re-calculate the Littlefork river sediment Total Maximum Daily Load (TMDL) utilizing the 15 mg/L Total Suspended Solids (TSS) standard and update the associated Littlefork Watershed Restoration and Protection Strategies (WRAPS) document.
The Minnesota Department of Natural Resources will coordinate the collection of high-resolution elevation data for northeastern portion of Minnesota using Light Detection and Ranging (LIDAR) systems. The geographic area of the work includes Minnesota counties of Carlton, Cook, Lake, and St. Louis Counties and that portion of Koochiching County that comprises Voyageurs National Park.
This project seeks assistance from University of Minnesota in developing effective interview questions for community watershed assessments and will assist in understanding the data collected through community interviews.
Koochiching County has seven major watersheds in the county, this contract is for work in five of them: Big Fork, Little Fork, Rapid River, Lower Rainy River, and Rainy River Headwaters. The local Koochiching County Soil and Water Conservation District (SWCD) is positioned to assist in several elements of the Watershed Restoration and Protection Strategies (WRAPS) process. This includes gap monitoring for water chemistry, sediment work, Total Maximum Daily Load (TMDL) development, modeling scenarios, and WRAPS development.
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.
The purpose of this contract is to establish an international watershed coordinator for the Rainy River- Lake of the Woods (RR-LOW) watershed. The coordinator will assist the Minnesota Pollution Control Agency (MPCA) in facilitating and enhancing civic engagement and public participation activities through collaboration and integration of the efforts of groups working on watershed activities at local, state/provincial, tribal, and bi-national levels.
The University of Minnesota will develop effective interview questions for community watershed assessments in the Rainy River basin and provide assistance in understanding the data collected through community interviews.
The goal of this project is to conduct water chemistry monitoring at four subwatershed sites and two basin sites in 2016 and 2017; and six subwatershed sites and three basin sites in 2018-2019 based on flow conditions, targeting runoff events using protocols defined in the Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedures and Guidance. The data collected will be submitted to the Minnesota Pollution Control Agency (MPCA) and used in the FLUX32 model for calculating pollutant loads.
There are seven major watersheds Koochiching County, this project will work in five of them: Big Fork, Little Fork, Rapid River, Lower Rainy River, and Rainy River Headwaters watersheds. The local Koochiching County Soil and Water Conservation District (SWCD) is positioned to assist in several elements of the Watershed Restoration and Protection Strategy (WRAPS) process. This includes gap monitoring for water chemistry, sediment work, TMDL (Total Maximum Daily Load) development, modeling scenarios, and WRAPS development.
The purpose of this project is to establish an International Watershed Coordinator for the Lake of the Woods and Rainy River (LOW/RR) watershed, to assist the MPCA in facilitating and enhancing civic engagement through collaboration and integration of the efforts of groups working on watershed activities at local, state/provincial and bi-national levels of organization.
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.
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 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.
Vermilion Community College will assist the Minnesota Pollution Control Agency (MPCA) with meeting the Watershed Restoration and Protection Strategies (WRAPS) development objectives of collecting data and completing watershed assessments for the Rainy River Headwaters, Vermilion River, and Little Fork River watersheds. Services will include providing support for field water monitoring, other field sampling and measurements and related field data management, analysis, and assessments in these watersheds.