This project is for Minnesota Legislative Clean Water Fund funding to engage citizens in local watershed monitoring, to work with regional partners to promote understanding and protection of watersheds, and to organize and facilitate gathering of scientific data all for the benefit of water quality in the Red River Basin.
The International Water Institute (IWI) will monitor 42 sites (3 basin, 12 major watershed, and 27 subwatershed) in the Red River and Upper Mississippi River Basins intensively during the contract period. There will also be 5 sites in the Red River Basin where mercury samples will be collected and sent to Minnesota Department of Health for analysis. The IWI will collect water samples across the range of flow conditions targeting sample collection at times of moderate to high flow.
The purpose of this project is to assess the amount of land in the Root River watershed that is treated by structural best management practices (BMPs); more specifically, Water and Sediment Control Basins. The 2016 Root River Watershed Restoration and Protection Strategy (WRAPS) report recommended reducing sediment loss from upland areas and reducing nitrate loading to streams from runoff. Understanding the location and density of these BMPs will is important for targeting future watershed protection and restoration efforts.
The Mille Lacs Soil and Water Conservation District (SWCD) will assist the Minnesota Pollution Control Agency (MPCA) with water quality monitoring and pollutant load calculations at two sites in the Rum River Watershed. Approximately 20-25 grab samples per site between ice-out and October 31, 2019 will be collected along with field measurements and observations. Samples will be collected using procedures described in the Watershed Pollutant Load Monitoring Network (WPLMN) Standard Operating Procedures and Guidance (SOPG).
The activity is for sediment sample preparation for cores collected at AGP/Northland Slip (AGP) and Azcon/DSPA Slip (Azcon) located in the St. Louis River (SLR) Area of Concern (AOC) in Duluth, Minnesota.
In accordance with a request from the Minnesota Pollution Control Agency (MPCA), Bay West, LLC (Bay West) will perform remedial investigation activities for Munger Landing, a sediment contamination site, located in the St. Louis River (SLR) Area of Concern (AOC) in Duluth.This activity will compile new 2018 data with existing data and generate updated figures and tables to support the remedy decision for the site.
This activity is for benthic bioaccumulation testing, benthic tissue analysis, and physical/chemical sediment analysis as part of the bioaccumulation study at the Mud Lake West site located in the St. Louis River (SLR) Area of Concern (AOC) near the Duluth area and one reference site at the request of the Minnesota Pollution Control Agency (MPCA).
The purpose of this work order is to collect sediment samples which will then be analyzed for contaminants of concern, and the sediments will also be used as part of a bioaccumulation study.
Bay West will complete a supplemental sediment loading study for the Ponds Behind Erie Pier located in the St. Louis River (SLR) Area of Concern (AOC) in Duluth, Minnesota.
The activity is for bench scale sediment sampling to be collected at the AGP/Northland Slip (AGP) and Azcon/DSPA Slip (Azcon) located in the St. Louis River (SLR) Area of Concern (AOC) in Duluth, Minnesota.
This project will focus on monitoring & assessment, stressor ID assistance, problem investigation, watershed prioritization and targeting, Total Maximum Daily Load (TMDL) report development, Watershed Restoration and Protection Strategy (WRAPS) report updates and continuing civic engagement for the Sauk River Watershed.
This work will involve enhancing the capability of the Scenario Analysis Manager (SAM) tool to run more complex point source alternative scenarios, produce results and output in line with the recently developed Watershed Restoration and Protection Strategies (WRAPS) report standards, and general enhancements requested by users.
This work order will address the need for technical support and updates to the Scenario Analysis Manager (SAM) tool and PATH software based on training feedback. The trainings will include exercises focusing on improved and added functionality as well as the enhanced best management practice (BMP) database.
This project will complete an extension of the Shell Rock River Hydrologic Simulation Program FORTRAN (HSPF) watershed model application through the year 2018. Compliance scenarios will be executed to address potential expansion of discharges from the Albert Lea Wastewater Treatment Plant (WWTP).
This project is for surface water assessment in the Shell Rock and Winnebago River Watershed including four stream sites and two lake sites. Waters of concern include Lime creek, Bancroft creek, Goose creek, a tributary to Fountain Lake, Albert Lea Lake and State Line Lake. The outcomes includes establishing baseline data for the associated sample site.
This project will collect water quality data in the St. Louis River watershed as part of the 10-year Watershed Restoration and Protection Strategy (WRAPS) cycle for Minnesota waters. South St. Louis Soil and Water Conservation District (SSLSWCD) staff will conduct all monitoring in accordance with Minnesota Pollution Control Agency (MPCA) Intensive Watershed Monitoring (IWM) standard operating procedures. The SSLSSWCD has extensive experience in stream sampling techniques, including dissolved oxygen, pH, specific conductance, temperature, total suspended solids, nutrients, E.
The purpose of this effort is to create an educational video that will “bring to life” geo-scientific information related to groundwater movement in southeast Minnesota. This video will be used by the Minnesota Pollution Control Agency (MPCA), Minnesota Department of Agriculture (MDA) and other regional partners to help explain the local geology and related groundwater movement. It is anticipated that the video will be used at meetings and other events related to water resource management and natural resource issues. In addition, three stand alone high resolution graphics will be created.
This agreement is for Board of Water and Soil Resources (BWSR) to provide statewide conservation reporting system support services in order to support Minnesota Pollution Control Agency (MPCA) programs. Support services will be aimed at both MPCA staff and local government recipients of grants.
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 project will provide information and tools for a method to credit street sweeping that can be implemented by Municipal Separate Storm Sewer (MS4) permittees to help meet permit requirements for phosphorus and total suspended solids (TSS). The contractor will develop and submit a communication-outreach plan for the credit method.
The project will work with county and Waseca Soil and Water Conservation District staff to increase knowledge and participation in the Watershed Approach efforts and provide input to the Watershed Restoration and Protection Strategies (WRAPS) document.
Swift Soil and Water Conservation District plans on monitoring seven stream sites of the Chippewa River Watershed within Swift county. Through this process we hope to assist the Minnesota Pollution Control Agency (MPCA) in identifying sites in this study area that are either improving or degrading in water quality.
This project will make updates to existing information and incorporate new information into the Minnesota Stormwater Manual including monitoring, modeling, and pond assessment guidance to assist permittees in satisfying the municipal stormwater (MS4) permit requirements and water quality case studies for MS4 permittees.
This project is the second phase of updating the Two Rivers watershed Hydrologic Simulation Program FORTRAN (HSPF) model. This project includes calibration of the model and including a proposed impoundment in the model. An analysis of possible downstream water quality impacts will also be done.
The primary objective of this project is to extend the simulation period of the Two Rivers Watershed Hydrological Simulation Program FORTRAN (HSPF) model through 2017 to support future simulation and assessment of the planned Klondike impoundment.
This work order will provide the Minnesota Pollution Control Agency (MPCA) with assistance in assembling, graphics, geographic information system (GIS) maps, data synthesis, writing, formatting and editing the 5-year nutrient reduction strategy progress report and update and similar updates for the Sediment Reduction Strategy. The Sediment Strategy update also involves incorporation of modeling results and other technical information into the 2015 strategy document.
The goal of this project is to obtain key information needed to update the Nutrient Reduction Strategy based on watershed approach experiences over the past five years.
Project goal is to develop Total Maximum Daily Loads (TMDLs) and Watershed Restoration and Protection Strategies (WRAPS) that will protect and improve water quality for the Minnesota portion of the Mississippi River–Reno and Upper Iowa River watersheds. This information paired with other tools (e.g. Hydrologic Simulation Program FORTRAN (HSPF) models and best management practice spreadsheets) and will support restoration and protection strategy development and prioritization efforts in the 1W1P area.
The main outcome of the project will be the development of a Total Maximum Daily Load (TMDL) study that address total suspended solids/turbidity impairments of the Mississippi River (Swan River to Crow Wing River). Community outreach to communicate the results and strategies for restoration will also take place during this project.
The main outcome of the project will be development of a Total Maximum Daily Load (TMDL) study that address total suspended solids/turbidity impairments of the Mississippi River (Swan River to Crow Wing River). Community outreach to communicate the results and strategies for restoration will also take place during this project.
As part of the Minnesota Pollution Control Agency's (MPCA's) watershed monitoring Approach, the Washington Conservation District will collect water quality samples on three lakes in the Lower St. Croix River Watershed in 2019-20; Comfort Lake, Square Lake, and Big Marine Lake. Rural and agricultural land uses are major components of all three lakes' subwatersheds and semi-urban land use is present in the Comfort lake subwatershed.
This project will collect water samples at seventeen monitoring locations ranging in size from 23,173 acres (7 Mile Creek) to over 9 million acres (Minnesota River at St. Peter) as a part of the Watershed Pollutant Load Monitoring Network (WPLMN). The Minnesota State University - Water Resources Center (WRC) has been directly involved with the program and is familiar with the streams and hydrology of the region. In addition to monitoring, the WRC will review, manage and submit the data in formats provided by the Minnesota Pollution Control Agency (MPCA).
In previous phases of work, a Hydrologic Simulation Program FORTRAN (HSPF) model of the Zumbro River Watershed was developed to simulate hydrology and water quality for the 1995-2009 simulation period (Phase I), applied to evaluate various management scenarios for reducing sediment and nutrient loading (Phase II), and used to develop Total Maximum Daily Loads (TMDLs) for impaired stream segments and inform development of a nutrient TMDL for Rice Lake (Phase III).
2019: The Olmsted County Soil and Water Conservation District will assist the Minnesota Pollution Control Agency (MPCA) with water quality monitoring and pollutant load calculations at four sub-watershed sites in the Zumbro River Watershed. Approximately 25 grab samples per site between ice-out and October 31 of 2019 will be collected along with field measurements and observations.
