The goal of this project is to perform water quality monitoring and load calculation duties to accomplish MPCA's Watershed Pollutant Load Monitoring Network monitoring efforts at seven sites for the Redwood and Cottonwood River watersheds as well as the Minnesota River site near Morton.
The City of Thief River Falls drinking water is taken from a 135 acre reservoir that is supplied by the Thief River and Red Lake River. Sedimentation and erosion have significant impacts to the waters in Pennington County. The reservoir is filling with sediment faster than expected. Buffers and side water inlets will help reduce sediment and improve water quality for these types of erosion. Buffers would also reduce nutrients polluting the waters in Pennington County and have a beneficial impact to the dissolved oxygen impairment on both the Red Lake and Thief River.
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
Red Lake County Soil and Water Conservation District (SWCD) has targeted water quality improvement projects to twelve sites in the Black River, Cyr Creek, and Red Lake River Sub-Watersheds of the Red Lake River Watershed. Data analysis obtained from a variety of models identified which sub-watersheds were contributing to impairments, highlighted which fields in those sub-watersheds were contributing the most sediment, and even showed specific locations in the field which were most vulnerable to erosion.
Red Lake County SWCD will continue to work cooperatively with the Red Lake County Ditch Authority, and the landowners involved to reduce erosion and sedimentation, reduce peak flows and flooding, improve water quality, and protect drainage system efficiency for priority Chapter 103E drainage systems by installing thirty-seven multipurpose drainage management practices. The priority Chapter 103E drainage system is Judicial County Ditch 60.
The Red Lake River from County Ditch 96 (Pennington County) to where the Clearwater River enters the Red Lake River (Red Lake Falls) is on the TMDL Impaired Waters List for Turbidity. This reach is a high priority because of the high importance of the Red Lake River, which provides a domestic supply use of the water source and provides abundant recreational uses.
Red Lake River currently does not meet state water quality standards due to high amounts of sediment. For this project, the Red Lake County Soil and Water Conservation District will continue to work cooperatively with the Red Lake County Ditch Authority, and the landowners to reduce erosion and sedimentation into Judicial County Ditch 66. Judicial County Ditch 66 outlets into Cyr Creek which outlets directly into the Red Lake River.
The goal of this project is to develop a stream restoration opportunities matrix for the Amity Creek watershed, which will prioritize the various protection and restoration options in the watershed for the Minnesota Pollution Control Agency (MPCA) and local partners.
The goal of this project is to use the We Are Water MN exhibit and their technical knowledge in relationship-building and storytelling to increase community capacity for sustainable watershed management in the Cannon River, Cedar River, Mississippi-Headwaters, Mississippi-Grand Rapids, Mississippi-Twin Cities, Red Lake River, Rum River and St. Louis River watersheds.
Phase II of the Burnham Creek Watershed Restoration Project will conduct inventory on 2,050 acres, 85.4 miles of ditch channel within the Burnham Creek Watershed of West Polk County. This inventory includes surveying, assembling all available GIS data, ArcMap, LiDAR, review aerial photography, location of tile intakes, determine size of the erosion sites, and prioritization of severity. The district will partner with the Area DNR Hydrologist and the Polk County Highway Department-Drainage & Ag Inspector to verify data and identify any additional ditch segments.
The Conservation Dashboard will provide the Carlton Soil and Water Conservation District, its water plan, and local landowners a system to target, prioritize, and measure resource needs and effective conservation implementation within the subwatersheds of Carlton County. The Dashboard will identify where data gaps exist, translate the data in a way that partners and landowners easily understand, and insert Best Management Practice recommendations onto the county webmapping tool, used by citizens.
The Pennington SWCD has collaborated with Pennington County for several years to identify priority County Ditch reaches that are in need of buffers and grade stabilization structures. This cooperative effort has resulted in the reduction of nutrient and sediment delivery to the Red Lake River Watershed. Pennington SWCD has recently inventoried buffer and grade stabilization needs on three different County Ditch systems: 96, 21 and 16. A total of 23 miles of ditch has been inventoried, 15 miles of buffer are needed along with 81 grade stabilization structures.
Duluth area streams received over 10 inches of rainfall on June 19 and June 20, 2012. This "500 year event" provides a once in a lifetime opportunity to further understand sediment movement and stream channel alterations due to an event of this magnitude.
Sediment and water quality issues are local priorities within the Thief River and Red Lake River watersheds, which have their confluence in the city of Thief River Falls. The 1W1P effort underway in the Red Lake River Watershed will identify opportunities for projects and practices that are targeted and result in measurable water quality benefits throughout the watershed using PTMApp.
The project work for this effort includes watershed wide civic engagement and technical support to the final years of Watershed Restoration And Protection Strategy (WRAPS) work. Communication to stakeholders and other key civic based activities to share WRAPS information will be completed. The Cook County Soil and Water Conservation District (SWCD) will also provide technical support to aid completion of the Total Maximum Daily Load (TMDL) report and help define protection and restoration strategies for the watershed.
This project will establish a framework with County, Soil and Water Conservation District and watershed staff that will outline their involvement throughout the development of the Watershed Restoration and Protection Strategy (WRAPS) for the Cottonwood River and Redwood River watersheds.
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 provide fiscal resources for South St. Louis County Soil and Water Conservation District (SSLCSWCD) to participate and lead efforts to attain geomorphic data sets, dissolved oxygen assessments, culvert inventory, and civic engagement activities in three major watersheds, Nemadji River, South Lake Superior and St. Louis River. This work is currently being worked on as a part of the MPCA’s Watershed Restoration and Protection Planning efforts.
This project will complete spatial and temporal revisions , recalibration and validation of 7 watershed HSPF models. These fully functioning calibrated validated executable models will simulate hydrology, sediment (sand, silt, and clay), temperature, phosphorus, nitrogen, dissolved oxygen, biochemical oxygen demand, and algae at the 12-digit HUC subbasin scale (or finer).
This project Phase will collect data, background information, and watershed characteristics within the Red Lake River watershed. This information will be documented within the framework of early draft TMDL Reports (with background information, but no load calculations) for impaired reaches within this watershed and early draft protection plans for the areas in the watershed that are not currently impaired.
Numerous County ditch systems in Pennington County end at a natural drainage prior to outleting into a river or other watercourse and these outlets can be in a very erosive state. The goal of this project is to inventory these systems to determine needs and prioritize projects for implementation.
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.
The principal goal of this project is to fill critical data gaps and to establish a participatory watershed management framework for the Duluth Metropolitan Area (DMA) that mimics the statewide Watershed Restoration and Protection Strategy (WRAPS) process.
The purpose of the project is to fill critical data gaps - this data will provide a foundation for future development of watershed models, Total Maximum Daily Load (TMDL) reports and the creation of a Watershed Restoration and Protection Strategy (WRAPS) report.
The goal of this project is to construct, calibrate, and validate one fine-scale Hydrological Simulation Program FORTRAN (HSPF) watershed model for the Duluth Watershed Restoration and Protection Strategy (WRAPS) project area for the simulation period 1995–2012. In addition, an existing condition (post-2012 flood) model scenario will be developed for use in WRAPS development. The contractor will produce HSPF models that can readily be used to provide information to support conventional parameter TMDLs.
This project is the continuation of efforts to restore and protect watersheds and streams in Minnesota’s Lake Superior coastal region. The project provides the means to evaluate water quality impairments, complete pollutant source assessments, establish loading capacities and allocations for impairments, and to evaluate and recommend protection strategies for high quality water resources. It also leverages and encourages adoption of locally driven solutions to watershed management and protection.
This project will respond to public notice comments received after a 2nd comment opportunity and several requests for changes to the Total Maximum Daily Load (TMDL) report and petition for contested case hearings (CCH). Additional review work must be completed and if necessary, edits or updates to the TMDL and Watershed Restoration and Protection Strategy (WRAPS) reports. If there are substantial changes to both documents another public noticing will be necessary.
This project continues the total maximum daily load (TMDL) and watershed restoration and protection strategies (WRAPS) process for the Duluth Metropolitan Area (DMA). The DMA is defined by water, sitting at the juncture of Lake Superior and the St. Louis River Estuary, and surrounded by semi-mountainous terrain. The project serves as a bridge into the next phase of restoration and protection identified by the Duluth Urban Stream TMDLs and WRAPS. In the first phase of community engagement, a collaborating organization was formed to define a framework for the DMA communities.
Several streams within the Duluth metropolitan area are identified as impaired and are included on Minnesota’s Impaired Waters List, with impairments to Aquatic Recreation, due to levels of Escherichia coli (E. coli) bacteria. Total Maximum Daily Load (TMDL) studies have been completed (draft) for these impairments, including Keene Creek and Tischer Creek. The goal of this project is for the City of Duluth to provide the Minnesota Pollution Control Agency (MPCA) with information on the sources of E.
Four beaches along the North Shore of Lake Superior and within the Duluth Harbor have aquatic recreation impairments due to high concentrations of E. coli, a bacterial indicator of fecal contamination. The project area includes portions of the Lake Superior South and St. Louis River watersheds near Duluth. Several of the beaches are also listed as impaired for beneficial use (due to fecal bacteria) as part of the St. Louis River Area of Concern.
This project will provide the data necessary to assess Eagle Lake. Assessment parameters will include chl-A, Total Phosphorous, secchi disk readings, temperature (2' interval), conductivity (2' interval), pH (2' interval), and dissolved oxygen (2' interval). These samples will be collected monthly from May through September.
Minnesota Pollution Control Agency (MPCA) Watershed Pollutant Load Monitoring Network (WPLMN) requests assistance from local partners to collect samples and field data at designated stream monitoring sites for the purpose of assessing water quality and calculating annual pollutant loads.
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.
This phase of the project will complete the analysis of existing and newly collected water quality data in the Red River of the North-Grand Marais Creek watershed and also verify the impairments on the currently listed reaches and determine the status of the remaining river reaches as being either impaired or currently meeting standards. Stakeholder involvement and public participation will be a primary focus throughout the project.
The goal of this project is to construct, calibrate, and validate three HSPF watershed models. The project will result in HSPF models that can readily be used to provide information to support conventional parameter TMDLs. The models are expected to generate predicted output timeseries for hydrology, sediment, nutrients, and dissolved oxygen which are consistent with available sets of observed data.
The overall goal of this project is to perform water quality monitoring and load calculation duties to accomplish Minnesota Pollution Control Agency (MPCA) Watershed Pollutant Load Monitoring Network (WPLMN) monitoring efforts at the seven sites within the Redwood and Cottonwood River watersheds as well as the Minnesota River site near Morton. To accomplish this goal the requested funds will provide for technician’s time, mileage, lab costs, supplies, as well as equipment calibration and upkeep.
The purpose of this project is to prepare a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study for public notice. This project will include addressing and incorporating Minnesota Pollution Control (MPCA) review comments in both documents. The TMDL Study has been submitted to the United States Environmental Protection Agency (USEPA) for preliminary review. USEPA comments will be addressed prior to public notice.
The goal of this project is to construct watershed models for the Grand Marais Creek and Snake River Watersheds and perform an initial hydrologic calibration using Hydrologic Simulation Program FORTRAN (HSPF).