This project will monitor six sites within the Minnesota River Basin: Hawk Creek near Maynard, Hawk Creek near Granite Falls, Beaver Creek near Beaver Falls, Yellow Medicine River near Granite Falls, Yellow Medicine River near Hanley Falls, and Spring Creek near Hanley Falls. The sites will be monitored according to MPCA’s Major Watershed Load Monitoring (WPLMN) Standard Operating Procedure, which is the procedure being followed for sites currently monitored by the Hawk Creek Watershed Project (HCWP).
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
This project will develop a watershed approach plan, including impaired waters allocations, for the Mustinka Watershed, located at the headwaters of the Red River of the North, in western Minnesota, lying partly in Grant, Stevens, Ottertail, Big Stone, and Traverse counties. The watershed approach plan will set water quality goals for the watershed, recommend allocations for achieving total maximum daily loads where waters do not meet state standards and are listed as impaired.
Continued TMDL project to support next phases associated with completion of TMDL's for ten lakes in the Carnelian Marine Saint Croix Watershed District (CMSCWD). Ten lakes are; East Boot, Fish, Goose, Hay, Jellum’s, Long, Loon, Louise, Mud and South Twin.
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.
This project will complete a comprehensive and sustainable Major Watershed Restoration and Protection Strategies report for the Chippewa River, its tributary streams, and the many lakes in the Chippewa River watershed that is understandable and adoptable by local units of government and residents.
The overall goal is to develop a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study that will address water quality impairments and maintain or improve water quality throughout the Clearwater River watershed. The study will identify sources of pollutants to the streams and lakes, allocate pollution reduction goals, and prioritize and identify implementation strategies to maintain or improve water quality in key lakes and streams in the watershed.
This project will support the necessary activities for improving the water quality and biological community by reducing nutrients, sediment levels and managing in-stream habitat within the Goose Creek 10-digit HUC Watershed. This restoration and protection plan will identify pollutant load reduction estimates and management strategies that will be used to obtain the TMDL goals outlined in the plan.
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 will support the development of whole farm conservation plans for ten (10) agricultural producers within the Sunrise River Watershed. The conservation plans will be used by the farmer and the Chisago SWCD to develop an action plan to address the resource concerns identified as part of the AgEQA program. The overall goal of the program is to prioritize conservation practices that will improve the overall water quality of the Sunrise River.
This project will establish a framework and provide tools for local government and watershed projects to engage the public in a manner that will lead to water quality improvement through targeted and prioritized implementation of watershed management practices. The major components of the watershed approach that will be used for this project include; monitoring, gathering of watershed information, assessment of the data, develop of implementation strategies, and implementation of water quality protection and restoration activities.
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 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 approach will include monitoring and gathering of watershed information, assess the data, develop implementation strategies to meet standards and protect waters, implement water quality protection and restoration activities in the watershed. The goal of this project is to establish a framework, and to provide information and tools for local government and watershed organizations to engage the public in a manner that will lead to water quality improvement.
This project will set water quality goals for the Minnesota portions of the watershed, recommend allocations for achieving total maximum daily loads where waters do not meet Minnesota state standards and are listed as impaired, and recommend management strategies for those Minnesota waters meeting state standards. This project also recognizes that as monitoring continues in the watershed, additional impairments may be identified.
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.
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.
TMDL project in the Chisago Lakes Lake Improvement District that will develop a watershed based plan and provide strategies for water quality and aquatic ecosystem management, restoration, and protection within Sunrise River Watershed. This project will also aid in understanding the Phosphorus loading to Lake St. Croix.
This project will offer incentives to protect 80 acres of land in filter strips and highly erodible lands adjacent to the rivers; construct 9 sediment and water control basins or terraces; replace 35 open tile intakes and advocate wetland restorations and grassland easement programs; organize a Friendship Tour to bring together Minnesota farmers, county commissioners, farm organizations, local, state and federal agency personnel to experience the watershed, farming practices, discuss future project ideas and strengthen relationships; and upgrade 37 subsurface sewage treatment systems by off
This project will continue the offering of low-interest loans to citizens, some of whom may not be able to acquire funding otherwise, for upgrading 50 septic systems to ensure compliance with state rules. Grant funds will be used to administer the low-interest loan program.
On behalf of the Metropolitan Council, Barr Engineering Company developed maps and supporting information to characterize the relationship between surface waters and groundwater, identifying surface waters most likely to be impacted by groundwater withdrawals in the region. This project also provided guidance on effective resource monitoring strategies and costs for each type of surface water feature.
This project will collect intermediate watershed load monitoring data on the Bigfork River which is critical to the identification of stressors and assist in defining areas of concern within the Bigfork Watershed and its greater Rainy River Watershed. Itasca County SWCD will closely collaborate with Koochiching SWCD and MPCA on this project.
BWSR will administer funding to eligible County projects that provide funds and other assistance to low income property owners to upgrade or replace Noncompliant Septic Systems. BWSR will also manage annual reporting completed by each County.
OVERALL PROJECT OUTCOME AND RESULTS The impetus for this project was the need to better protect and manage functional lake ecosystems in Minnesota. There is widespread concern about the consequences of poorly planned development on water quality and fish and wildlife habitat. Given the increased demands for water and shoreland, continued habitat fragmentation and loss of species diversity, protection of sensitive lakeshores is critical.
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.
The main outcome of Phase III of the project will be the final deliverable of a WRAPS report that will prescribe the restoration and protection strategies for the surface water resources within the Leech Lake River Watershed. The WRAPS will provide the analytical and strategic foundation which will be essential in protecting the surface water resources within this high quality watershed. Along with the development of the WRAPS report, this project will support the development and completion of the MPCA Stressor ID and Watershed Assessment reports to be completed for this watershed.
On behalf of the Metropolitan Council, the Minnesota Geological Survey evaluated the vulnerability of glacial aquifers in the Twin Cities metropolitan area. The project improved upon previous vulnerability assessments by incorporating a substantial amount of new aquifer property information and blending methods previously used by the Minnesota Departments of Health and Natural Resources. The result is a consistent vulnerability assessment across the metropolitan area based on the most up-to-date information available.
This Phase 1 project will support project planning, coordination and civic engagement/outreach components of the Mississippi River (Headwaters) Major Watershed project. Phase 1 of this project will focus towards the development of project teams, identifying stakeholders, developing an initial civic engagement strategic plan and reviewing current and past watershed project data.
The goal of this project is complete a dataset necessary for assessment of 6 stream sites and 11 lakes within the Mississippi Headwaters Watershed to determine the overall health of its water resources, to identify impaired waters, and to identify those waters in need of additional protection to prevent future impairments.
This project was part of a three-state partnership to test, demonstrate and promote a simple, inexpensive and reliable new system for edge-of-field water monitoring. The University of Wisconsin-Platteville Pioneer Farm, in collaboration with UW-Platteville Engineering, has developed a low cost monitoring system that can obtain good quality, edge-of-field monitoring data in agricultural settings. By eliminating unnecessary features and assembling components in-house, the prototype monitoring system derives the majority of cost savings with minimal sacrifice in accuracy.
This project will complete a Watershed Restoration and Protection (WRAP) Plan that includes a set of pollutant reduction and watershed management strategies to achieve water quality standards for the listed pollutants, and that are understood and adoptable by local units of government and other stakeholders. This project will also provide an important water quality framework for civic and citizen engagement and communication, which will contribute to long-term public participation in surface water protection and restoration activities throughout the watershed.
Certain stretches of the Pomme de Terre River have been identified as impaired. This project will quantify the reductions in pollutant loading that would be necessary to bring water quality in the impaired stretches to an acceptable level. It will also identify strategies that would improve water quality in these impaired stretches. Some funds will support public input activities into the Pomme de Terre River watershed management plan.
The goal of the project is to create a complete Watershed Restoration and Protection Strategy (WRAPS) report for the Ramsey-Washington Metro Watershed District for inclusion into an updated Watershed Management Plan, including completion of a watershed-wide Total Maximum Daily Load (TMDL) report sufficient for EPA approval.
The purpose of this project is to improve understanding of primary productivity in the Red River and the diversity and population structure of the algal communities occurring along the river system. This will be accomplished through taxonomic identification of periphyton and phytoplankton assemblages necessary for characterizing responses to nutrient gradients along the Red River of the North.
The goal of this project is to evaluate projected water demand, groundwater contamination and potential natural resource impacts in southern Washington County to ensure water supplies are developed sustainably. An important part of this project involves working with stakeholders to identify common goals and objectives, as well as ways to enhance coordination amongst water suppliers and water resource managers.
Phase I built the foundation for the South Fork Crow River Watershed Restoration and Protection Strategy (WRAPS) and created a civic engagement plan. Civic engagement strategies were identified to create greater communication and watershed activities. Phase II provided the analytical and strategic foundation essential to prescribing protection and restoration strategies. These strategies focus on both protecting current fully supporting and restoring impaired surface water resources to water quality standards in the South Fork watershed.
This project will collect water quality data at eight stream sites in three of the MPCA targeted watersheds. The sites are located on Medary Creek, Flandreau Creek, Pipestone Creek (2), Split Rock Creek, Rock River, Poplar Creek and Chanarambie Creek. This project will also promote a citizens monitoring program and encourage individuals to participate in a monitoring program.