The goal of this project is to continue and finalize Hydrologic Simulation Program FORTRAN (HSPF) watershed model construction and complete the calibration/validation process. The project will add representation of point source discharges to the model, compile flow and water quality data for the purposes of calibration and validation. The end result will be an HSPF watershed model that can readily be used to provide information to support conventional parameter TMDLs.
The goal of the project is the development of an overall strategy for reduction of turbidity/TSS, with sets of sediment reduction initiatives and actions for various sources, to address the Minnesota River Turbidity TMDL and the South Metro Mississippi River TSS TMDL.
This project will support the monitoring of two sites on the Cannon River throughout the field seasons of 2013 and 2014 during storm events and baseflow conditions to capture 25 samples per year at each site according to the WPLMN objectives. The information gathered from these samples and site visits will be compiled for reporting purposes and for use in calculating pollutant loading using the FLUX32 model.
The MPCA has identified 13 stream sites in the watershed to characterize watershed water quality. This project will supplement and complement the identification of the top 50 sites in the watershed that are contributing to water impairment and also help in identification of priority watersheds in the re-write of the watershed comprehensive plan. Water samples and field measurements will be collected at each monitoring location ranging from baseline events to high flow events.
The goal of this project is to collect data, water chemistry and field parameters, which will be paired with biological data collected by the MPCA to assess water quality conditions at seven sites along targeted reaches within the Snake River Watershed and five sites in the Two River Watershed.
The overall goal of this project is to perform water quality monitoring duties to accomplish MPCA’s SWAG monitoring efforts at the four sites listed in Section IV of this application for the Middle Minnesota River stream sites selected in Renville, Redwood and Brown counties and allow for the assessment of aquatic life and aquatic recreation use for those reaches of the minor streams.
The goal of this project is to complete a two-year data set for physical, bacterial, and water chemistry sampling for the Intensive Watershed Monitoring Plan to aid MPCA’s assessment of the aquatic health of the Mississippi Headwaters(HUC 07010101) Watershed.
This project will fully fund three Nonpoint Engineering Assistance (NPEA) Joint Powers Board positions in cooperation with the NPEA Base Funding anticipated at $130,000 per year. This will allow a 2nd Professional Engineer to be retained in addition to a Lead Engineer and Technician. This 'accelerated' engineering previously was funded with BWSR Challenge Grants, and an EPA319 grant with corresponding BWSR CWF Matching Grant to handle the high workload associated with the large number of BWSR feedlot cost-share projects approved in South East Minnesota.
This project will extend two Feedlot Technical positions initially created and funded by a FY2011 CWF Feedlot Water Quality Grant that assess and help fix animal waste runoff from small feedlots. The technicians will work with and under the Technical Authority and priorities of the South East Soil and Water Conservation District Tech Support JPB lead Engineer. This project will enable more projects to be constructed resulting in a reduction of nitrogen, phosphorus and fecal coliform runoff into surface and ground water in South East Minnesota and the Mississippi River.
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. Funds are used for proven practices that prevent non-point source water pollution or solve existing water quality problems.
This project will improve surface and groundwater quality in the rural sections of the Vermillion and North Cannon River Watersheds located in Dakota County through the installation of targeted structural and vegetative conservation practices. This project will leverage local and federal funds to provide technical and financial assistance to landowners that install agricultural water quality practices.
This project will provide condition monitoring and problem investigation monitoring at the following sites.
Mississippi River: Tributaries include Bassett Creek, Cannon River, Crow River, and Minnehaha Creek.
Minnesota River: Tributaries include Eagle Creek,Riley Creek, and Valley Creek tributary to the St. Croix River
Working with the Metropolitan Council, the University of Minnesota - Minnesota Technical Assistance Program (MnTAP) is investigating the opportunity for water conservation by private industrial water users across the Twin Cities metropolitan region. Private industrial water users are defined as industries that use private wells for their water supply. This work is determining factors that encourage or create barriers for implementation of identified industrial water conservation opportunities.
This project will support updates to the Draft Bald Eagle Lake TMDL. The updates will address comments received during the public comment period. The comments resulted in the development of individual Wasteload Allocations for stormwater sources in the Bald Eagle Lake watershed.
Seminary Fen, a 600-acre complex in Carver County, supports one of only 500 calcareous fens in the world and is one of the highest quality calcareous fens in southern Minnesota. The Fen feeds Assumption Creek; one of the metro area's last known trout streams that supports naturally reproducing native brook trout. Assumption Creek then discharges to the nearby Minnesota River. The Fen's unique hydrology, soils, plants, and habitats are highly sensitive to water quality and sedimentation stress.
The Red Lake River is impaired for turbidity. It is also the drinking water source for residents living in East Grand Forks. Burnham Creek is a tributary to the Red Lake River and its watershed is well known for its intensive agriculture, flat topography and frequent flooding. Over the last 20 years, head cutting of the bottom of the channel has led to bank failures, flow restrictions, sedimentation and constriction of fish passage. Soil loss from this is approximately 117 tons per year.
Funds are to be used to protect, enhance and restore water quality in lakes, rivers and streams and to protect groundwater and drinking water. Activities include structural and vegetative practices to reduce runoff and retain water on the land, feedlot water quality projects, SSTS abatement grants for low income individuals, and stream bank, stream channel and shoreline protection projects. For the fiscal year 2012, BWSR awarded 12 local governments with funds.
This project will include lake and stream monitoring on 23 lakes and 4 streams found within the Leech Lake River and Pine River watersheds in Cass County. The project will be conducted in an effort to gain sufficient data on these data-deficient lake and stream sites within these watersheds. All of the proposed monitoring sites are target sites located in the targeted watersheds for 2012. Cass ESD is partnering with Hubbard SWCD, the Leech Lake Band of Objibwe, and RMB Environmental Laboratories to conduct the fieldwork for this project.
In 2002, citizens began to notice severe algal blooms in Cedar Lake, a high value recreational lake with exceptional clarity and fisheries habitat. Clearwater River Watershed District (CRWD) began an intensive monitoring program in 2003 to identify nutrient sources and protect Cedar Lake. Through intensive lake and watershed monitoring, CRWD identified the major source of nutrients to the lake. Three nutrient impaired shallow lakes; Swartout, Albion and Henshaw Lakes, in the upper watershed and impaired wetlands discharge excess amounts of soluble phosphorus.
The Minnesota Department of Agriculture has a Joint Powers Agreement with Wadena County Soil and Water Conservation District (SWCD). Wadena County SWCD is partnering with 13 counties that make up the "Central Sands" region.
The City of Inver Grove Heights will remove PAH contaminated sediment from the 79th Street Pond. Approximately 2,300 cubic yards of sediment will be dredged and disposed of at the Pine Bend Landfill located in the City of Inver Grove Heights.
The Villa Park Wetland Restoration Project proposes sediment removal from 6 contiguous stormwater wetland treatment cells within the Villa Park Wetland system resulting in an additional 118lbs/yr of total phosphorus(TP) removal from water entering Lake McCarrons.
The Crow River is a major river system in Wright County that is of local and regional significance. It is a major recreation area in its own right but also flows into the Mississippi River 20 miles from the Minneapolis Drinking Water Plant intake. Elevated sediment levels in the river increases the cost of treating the river water and threatens fisheries habitat.
This project will develop a TMDL for all impaired lakes within the Crow Wing Watershed by furthering data collection in the watershed, analysis of data, allocation calculations, and introducing outreach and stakeholder participation activities.
This first year of the project will collect available data relevant to the TMDL development, determine the data sets best suited for the TMDL development. Gain a better understanding of the watershed and impaired lakes, and assessment of all potential sources (internal and external) of the causes of lake impairment. EOR will also review the data produced by the MPCA for the impairment assessment for each of the lakes during year 1 of the project.
The Wright Soil and Water Conservation District has partnered with the Crow River Organization of Water (CROW) and the Natural Resources Conservation Service on this comprehensive sediment reduction project to focus on stabilizing five of the most active gully erosion sites on the Crow River. A LiDAR study and follow up field inspection identified 15 priority sites within the study area. This particular area was chosen due to the high level of turbidity and low dissolved oxygen within this stretch of the Crow River.
This project willl complete a final TMDL document that will be submitted to EPA for approval. Document will include Lake Osakis, Clifford Lake, Faille Lake, and Smith Lake impairments. A final technical memorandum describing the elements of the model framework and any deviations from the recommended construction methodology will be also be provided with the submission of the watershed models.
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 complete a comprehensive study, following a rational, step-wise process of data analysis, response modeling and comparison to the water quality standards, followed by impairment diagnosis, modeling of improvement and protection options, and development of a WRAP Report and Implementation Plan for Sunfish lake, Thompson lake, Pickerel lake, and Rogers lake.
This project covers activities necessary to complete the major watershed restoration and projection project. The major objectives this project covers include contract administration, watershed coordination, stressor ID activities, identifying priority management zones, engage watershed citizens, and the creation of watershed restoration and protection plans.
This project will finalize HSPF watershed model construction by incorporating internal phosphorus loading in modeled lakes, run a suite of implementation scenarios and generate a GenScn project containing model output. The consultant will produce HSPF watershed models that can readily be used to provide information to support conventional parameter TMDLs. The consultant will deliver all modeling files for baseline and implementation scenarios and provide a GenScn project containing model output.
This project will consist of identifying the candidate causes of biological stress and to develop and implement a public and stakeholder participation process that encourages local ownership of water quality problems and solutions. The Stressor ID process will be done using existing data, identifying data gaps, gathering new data, developing load duration curves, and refinement of the candidate causes. The civic engagement work will include compiling and reviewing existing data on community capacity and assessing that information.
This project will provide Agency staff, local partners and the citizen volunteers with a framework for building local capacity to design civic engagement and communication / outreach efforts. This will contribute to meaningful and sustained public participation in surface water protection and restoration activities throughout the watershed. MPCA staff, local partners and citizen volunteers will also be able to integrate the results of the biophysical and community assessment into strategies for improving water bodies on the MN 303d List of Impaired Waters
This project will build network and the skill set of local resource professionals to do effective civic engagement work for water restoration and protection in Southeast Minnesota. The cohort will be administered through the Southeast Minnesota Water Resources Board (SE MN WRB) which is an area wide Joint Powers Board (JPB) established to help improve and protect the water resources of the area through coordinating local water planning efforts. This JPB has successfully administered water quality grants in the past that have positively impacted the water resources of this region.
This project includes project planning, coordination, stream reconnaissance, and begins the effort towards civic engagement/outreach components of the South Fork Crow River Watershed project. Phase I will focus towards the development of project teams, identifying stakeholders, developing an initial civic engagement strategic plan and conducting limited lake and stream monitoring.
This project will construct, calibrate, and validate an HSPF watershed model for the Zumbro River watershed. The consultant will produce HSPF watershed models that can readily be used to provide information to support conventional parameter Total Maximum Daily Load (TMDLs). The consultant will clearly demonstrate that the models generate predicted output timeseries for hydrology, sediment, nutrients, and dissolved oxygen that are consistent with available sets of observed data.
This project will provide the MPCA, CCWD, and all other stakeholders the information and tools necessary to improve the water quality within Coon Creek Watershed District. The improvements will take place using targeted activities throughout the watershed to reduce the primary biological and chemical stressors. In turn, the reduction of these stressors will help to reduce overall loadings of sediment, turbidity, total phosphorus, and E. coli bacteria.
The MPCA, in partnership with the Vermillion River Watershed Joint Powers Organization, contracted with Wenck Associates, Inc., to develop the Stressor Identification (SID) Report; and develop the necessary models for the Vermillion River Watershed Restoration and Protection Strategies (WRAPS) as part of Phase I. The final Vermillion River Watershed SID report discusses all of the analysis that was done in the watershed to identify the primary stressors causing the fish and macroinvertebrate impairments in the watershed.