The 14,080 acre watershed of JD#30 and JD#18 drains into the Thief River four miles upstream of Thief River Falls. The City of Thief River Falls draws their drinking water from the reservoir the Thief River supplies. This reservoir is filling with sediment faster than anticipated. It was first estimated that the reservoir would require dredging every 50 years. The last dredging was needed in only 35 years at a price tag of $1.1 million. Treatment of the water for drinking is a major expense to the City.
The goal of this project is to finalize the Lake Pepin Watershed phosphorus total maximum daily load (TMDL) report by using the existing information and documentation prepared under previous contracts to prepare one TMDL report that addresses the impairments on the mainstem of the Mississippi River. Information developed to date for draft TMDLs on the Minnesota River mainstem will be documented for later use by the Minnesota Pollution Control Agency.
The goal of this project is to support the Minnesota Pollution Control Agency (MPCA) in responding to public comments on the Lake Pepin Watershed Phosphorus Total Maximum Daily Loads (TMDLs), which were prepared by LimnoTech under previous phases of the project.
The consultant LimnoTech will support response to Total Maximum Daily Load (TMDL) comments the peer review process, United States Environmental Protection Agency and public notice. They will then revise the TMDL document as needed and attend internal and external project meetings.
The purpose of this project is to continue supporting the Minnesota Pollution Control Agency in responding to public comments on the Lake Pepin Watershed Phosphorus Total Maximum Daily Load (TMDL) study, which was prepared by LimnoTech under previous work orders.
The Riley-Purgatory-Bluff-Creek Watershed District and the City of Eden Prairie are working together to implement projects to remove Lake Riley and Rice Marsh Lake from the impaired waters list. One key emerging issue is to evaluate potential internal phosphorous loading within stormwater ponds in the lakes? subwatersheds. This project will also use updated pond data from the city?s intensive pond inspection program to identify other phosphorus reduction opportunities. The proposed assessment will quantify formerly undocumented P loading to Rice Marsh Lake and Lake Riley.
This is a joint grant application from the Riley-Purgatory-Bluff Creek Watershed District (RPBCWD) and the City of Chanhassen. In 2010, the Minnesota Pollution Control Agency listed Lake Susan as a shallow lake impaired for excess nutrients. A 2013 report recommended a project located at the park pond immediately northwest of Lake Susan as the most cost-effective watershed implementation project. The project calls for an outlet control structure at a higher elevation that will provide increased dead pool storage and the installation of a Minnesota Filter to treat dissolved phosphorus.
The goal of this project is to prepare a draft Lake Pepin Total Maximum Daily Load (TMDL) Report. Lake Pepin is impaired by high levels of nutrients that cause excessive growth of algae.
Phase 4 of the Lake Winona Total Maximum Daily Load (TMDL) project will finalize the draft Lake Winona TMDL, dated November 2009, by completing additional data analysis, lake quality modeling, updating the TMDL report, and supporting the public involvement process.
The goal of this project is to finalize the draft Lake Pepin Total Maximum Daily Load (TMDL) Report, issue it for public comment, address comments, and finalize the report. Lake Pepin is impaired by high levels of nutrients that cause excessive growth of algae. High levels of sediment, carried in by major river systems, also affect the lake. The sediment is filling in the lake at a much faster rate than before Minnesota was settled and intensely farmed. Nutrients and sediment are distinct yet inter-related pollutants, and are being addressed in separate TMDL reports.
The MPCA has selected the Soil and Water Assessment Tool (SWAT) watershed model to simulate watershed hydrology and water quality to assess various restoration scenarios in the Little Cannon River watershed. The SWAT model is an important tool in developing an understanding of existing conditions and simulating conditions under various management scenarios to inform the development of implementation strategies and plans to restore and protect streams and lakes.
The goal of this project is to develop a Total Maximum Daily Load (TMDL) for all impaired stream reaches and lakes within the Long Prairie and Red Eye Watersheds.
This project will gather watershed data to support the development of a Watershed Restoration and Protection Strategy with parameter-specific targets that will maintain or improve water quality for the Long Prairie River Watershed. This project will also provide an important framework for civic and citizen engagement and communication, contributing to long-term public participation in surface water protection and restoration activities throughout the watershed.
This project is to finalize the Total Maximum Daily Loads (TMDLs) and Watershed Restoration & Protection Strategies (WRAPS) for the Red Eye and Long Prairie Watersheds.
The Lost River requires ongoing protection efforts to reduce harmful runoff entering the watershed. A primary element of this project involves providing project development and technical assistance to a producer who owns approximately 1/3 mile of Lost River frontage. Severe erosion and feedlot conditions compromise water quality in this area. The restoration of this jeopardized area will be accomplished through buffers, streambank restoration and livestock exclusion.
This project will revise a recently completed draft Total Maximum Daily Load (TMDL) report for the Lower Minnesota River Watershed Project. The revision is to correct wasteload allocations for regulated stormwater entities.
This Sauk River Watershed District project will conduct the Whitney Park river clean-up, adopt a river program and other community events as part of their healthy living programs; will collaborate with the city of St. Cloud to install a rain garden demonstration site at Whitney Park; use local radio and public television stations to promote the District’s “neighborhood rain garden initiative” and other incentive programs.
This project is designed to reduce sediment in the Wild River River based on a state approved plan (TMDL). The estimated water quality benefits completed by this project are 12,980 (120 truckloads) tons of soil saved per year, which will assist in reducing turbidity impairments downstream on the LWRR.
The Lower Mississippi River Feedlot Management in MN project will be leveraging State funding from BWSR to provide match for a United States Department of Agriculture Natural Resources Conservation Service (USDA-NRCS) Regional Conservations Partners Program (RCPP). BWSR will provide technical and financial assistance to plan and design projects to mitigate feedlot runoff from smaller (less than 300 animal units or AUs*), open lot feedlots in southeastern Minnesota.
The goal of this project is to develop draft Total Maximum Daily Load (TMDL) computations for six impaired lakes and two impaired streams, and to provide TMDL development documentation for selected draft TMDL report sections.
This project will plan, implement, and report on a community engagement strategy for identifying community/landowner opportunities, obstacles, and opinions on land management and water quality that will result in the identification of Watershed Restoration and Protection Strategies (WRAPS) input for the Sibley, Nicollet, Renville, McLeod, Rice, and LeSueur County areas of the Lower Minnesota River watershed.
The project will plan, implement, and report on a community engagement strategy for identifying community/landowner opportunities, obstacles, and opinions on land management and water quality that will result in the identification of Watershed Restoration and Protection Strategies (WRAPS) input for the Sibley, Nicollet, Renville, McLeod, Rice, and Le Sueur County areas of the Lower Minnesota River watershed.
This project will complete an inventory of drainage systems to prioritize locations for structural erosion control practices and buffer strips that will reduce sediment loading into Marsh Creek and Lower Wild Rice River downstream, which are both impaired by turbidity. An inspection plan and database will also be developed to enhance the county drainage ditch inspection program.
This project will support water quality monitoring and data analysis in the Red River Basin. The monitoring will assist in providing water chemistry data needed to calculate annual pollutant loads for the Major Watershed Load Monitoring Program (MWLMP) and provide short term data sets of select parameters to other MPCA programs.
Due to its high water quality, protecting Martha Lake is a prioirty for Wright County. A monitoring study of the tile system outlet that flows into Lake Martha revealed high amounts of dissolved phosphorus were entering the lake through the tile system. This validated the concerns of the Lake Martha Lake Association.
It is critical to train new staff, create modeling protocols for new BMPs, refine and calibrate models, and test ever-advancing modeling applications. The Metro Conservation District?s (MCD) Sub-Watershed Analysis (SWA) program provides these capacity-building services and unites efforts across 11 SWCDs. MCD proposes to analyze an additional 15 subwatersheds. The analyses will identify the location and estimated cost/benefit relationship for BMPs, evolve with new technology, and share discoveries metro-wide.
Through a long standing partnership, this project will continue to implement a process formalized with a 2010 Clean Water Fund Grant to conduct stormwater sub-watershed assessments. The goal of the sub-watershed assessments is to accelerate water quality improvements by focusing efforts in high priority areas. Specifically, subwatershed assessments are a tool used to identify the most effective urban stormwater conservation practice by location.
This project will establish a groundwater monitoring network in the 11 county metropolitan area. The network will provide information about aquifer characteristics and natural water trends by monitoring healthy aquifers (non-stressed systems). The project will also develop an automated system that captures groundwater level and water use data. This system will enhance evaluation of changes in aquifers that are stressed by pumping from existing wells.
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 Willow Creek. St. Croix River: Tributary includes Valley Creek.
The Cannon River Watershed includes approximately 941,000 acres of primarily agricultural landscape. Because of its large size, four subwatershed lobes are often referenced: Straight River Watershed, Upper Cannon River Watershed, Middle Cannon River Watershed, and the Lower Cannon River Watershed. Rice County is proposing utilizing LiDAR topographic data to determine areas of highest importance for Best Management Practice (BMP) Implementation for sediment within the Middle and Lower Cannon subwatersheds.
The purpose of this monitoring project is to maintain water quality data collection, build upon existing data for Phase II of the Intensive Watershed Monitoring approach, and develop a better understanding of what impacts the rivers located in central Minnesota specifically in the North Fork Crow Watershed.
This project will complete an EPA- and MPCA-approved TMDL Study and an MPCA-approved TMDL Implementation Plan that provide quantitative pollutant load reduction estimates and a set of pollutant reduction and watershed management strategies to achieve water quality standards for all impairments within the watershed, that are understood and adoptable by local units of government and other stakeholders.
Mankato State University (MSU) will work with the Minnesota Pollution Control Agency (MPCA) and the Minnesota Department of Agriculture (MDA) to plan a stakeholder process kick off meeting for the Minnesota River Ag/Urban partnership project. MSU will help to plan and facilitate the meeting.
This project will create a high accuracy elevation dataset - critical for effectively planning and implementing water quality projects - for the state of Minnesota using LiDAR (Light Detection and Ranging) and geospatial mapping technologies. Although some areas of the state have been mapped previously, many counties remain unmapped or have insufficient or inadequate data. This multi-year project, to be completed in 2012, is a collaborative effort of Minnesota's Digital Elevation Committee and partners with county surveyors to ensure accuracy with ground-truthing.
This project addresses five reaches of the Minnesota River that have aquatic recreation impairments as identified by high concentrations of E. coli. The project will describe the water quality impairments, complete pollutant source assessments, establish loading capacities and allocations for the impairments, and develop implementation strategies.
The project goal is to conduct water chemistry monitoring at three subwatershed sites in 2016-2019 and ongoing as needed in 2020 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.
