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.
This project addresses the identified need for an Implementation Plan that provides an overall roadmap for the effort it will take to meet the Carnelian Marine St. Croix Multi-Lakes Total Maximum Daily Load (TMDL). An Implementation Plan will be developed, with involvement of the Project Partners and stakeholder groups, that sets forth prioritized strategies for attaining the TMDL and a method for tracking the progress of those efforts. The Implementation Plan will be restoration-focused, but will include protection-oriented information/actions as well.
Lambert Creek discharges into Vadnais Lake, the final impoundment reservoir containing the potable water supply for the city of St. Paul and eight nearby suburbs. Monitoring data indicates high nutrient levels and the creek is listed by the State as having high bacterial levels. In-stream work along Lambert Creek has been maximized with restoration improvements achieving nutrient load reduction. The next step to further improve water quality is to concentrate on restoration efforts on a subwatershed level.
Lambert Creek is wholly within the Vadnais Lake Area Water Management Area. Vadnais Lake is the drinking water reservoir for the City of St. Paul and surrounding communities. Lambert Creek has elevated bacteria and nutrient levels and water quality in Vadnais Lake will not improve unless there is a reduction in the phosphorus loading from Lambert Creek.
The goal of this project is to offer grant funding to boat marinas located in Washington County on the St. Croix River to complete water quality improvement projects. St. Croix marinas own large amounts of shoreline plus there are roads, parking areas, buildings, and garages. These all produce runoff that drains directly into the St. Croix River. Marinas also often include pollution hotspots due to the presence of boat fueling areas.
Chisago County will coordinate up to three community dialogue meetings to inform its water planning decisions. The goal of the meetings will be to provide safe, productive and effective venues for citizens to become authentically engaged in the water planning process. The outcome of this Civic engagement work with Chisago County and their county water planning process will be a more engaged public in the County Water Planning Process.
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 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 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 develop an understanding for how sediment sources change over timescales of individual storm events as well as over the past two centuries. The results will be used by the larger Collaborative for Sediment Source Reduction (CISSR)-Blue Earth research group to establish a sediment budget for the Greater Blue Earth River Basin and understand the effectiveness of various potential mitigation strategies. In addition, these results can be used by MPCA and others to calibrate watershed sediment models.
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 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 provide baseline data through water monitoring, recording and analyzing the results of six unassessed rivers/tributaries, three unassessed lakes and five storm water outlets in the city of Mora which drain to the Snake River; promote and implement approved BMP’s.
The Comfort Lake Forest Lake Watershed includes numerous private ditches and partially drained wetlands which are a priority for mapping, assessment and restoration. The project will include the mapping and assessment of all drained and partially drained wetlands in the watershed. In addition, a web-based GIS system will be developed to inventory, assess, target and track the effectiveness of various conservation practices towards the attainment of water quality goals.
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.
Comfort Lake is one of Chisago county's largest recreational lakes. Comfort Lake is of regional significance with public access for boating, fishing and swimming. A pollution reduction study was conducted for the lake because of decreasing water quality. This study identified highly urban areas as one of the sources of nutrients.
In partnership with the Washington Conservation District and City of Woodbury, this project will improve water quality in Colby Lake through implementing 30 priority small-scale water quality conservation practices. Projects may include bioretention, vegetated swales and pond modifications. Priority projects were identified as part of the Colby Lake Watershed Retrofit Assessment and represent the most cost-effective means to reduce excess phosphorus loads that have impacted Colby Lake.
In collaboration with the University of Minnesota St. Anthony Falls Laboratory, City of Stillwater and MN DNR Waters and Fisheries an iron-enhanced sand filter will be designed. This filter will remove approximately 118 pounds of total phosphorous per year from an area of Stillwater that ultimately drains to the St. Croix River, a national Wild and Scenic River that has a decling water quality trend.
This project will compile and review previously conducted studies and will prioritize best management practices (BMPs) based on a cost-benefit analysis of their pollutant load reductions and life cycle costs. It will also support the design and construction of BMPs, such as rain gardens and infiltration practices, within the Villa Park subwatershed of the Lake McCarrons watershed.
Lily Lake, near Stillwater, is a popular recreational spot for residents with its swimming beach, fishing pier, and canoe access. Lily Lake's water quality is declining because of excess nutrients. Restoring it is a priority for the community of Stillwater.
Lily Lake,near Stillwater, is a popular recreational spot for residents with its swimming beach, fishing pier, and canoe access. Lily Lake's water quality is declining because of excess nutrients. Restoring it is a priority for the community of Stillwater.
This project is a continaution project of the Phase I project that started in the spring of 2011 and complements the Phase II project recently funded in 2012. Specifically, this project will implement two large stormwater retrofits in large parking lots of DiaSoren Manufacturing and the Valley Ridge Mall.
The Kohlman Lake nutrient reduction study identified a major source of phosphorus loading from the impervious areas like roads, roofs and parking lots within the watershed.. Within this area, one major land use feature stands out - Maplewood Mall. Retrofitting the Mall parking areas to infiltrate at least one inch of stormwater runoff will result in a large reduction in phosphorus to Kohlman Creek and the lake.
MuKusick Lake's water quality is declining because of excess nutrients and restoring it is a priority for the Stillwater community.
This project will work to implement priority stormwater treatment projects that were identified in the 2010 McKusick Lake Stormwater Retrofit Assessment. This project will be the first phase of stormwater treatment implementation projects within the McKusick Lake watershed and will provide approximately 10% of the needed phosphorus reduction.
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 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 supports monitoring and assessment activities by MPCA EAO staff and includes lab analysis, equipment, and fieldwork expenses associated with monitoring and assessment activities within the described priority watersheds.
Lake Monitoring: Lakes are monitored for nutrients, clarity and other information to provide the data needed to assess the aquatic recreation use support.
Oak Glen Creek is immediately upstream of drinking water intakes for Minneapolis and St. Paul. When it rains, the runoff along Oak Glen Creek runs down bare soil cliffs that are 20 to 30 feet high, causing large amounts of sediment to erode into the creek and make its way to the Mississippi River. This corridor stabilization project will address multiple local and regional priorities and will benefit both cities source water projection efforts.
This project will provide the Minnesota Pollution Control Agency and Ramsey-Washington Metro Watershed District the information and tools necessary to improve water quality in Battle Creek Lake, Beaver Lake, Carver Lake, Keller Lake and Wakefield Lake through targeted phosphorus reduction activities in the watershed.
Hydes Lake is the headwaters to Carver Creek and is known for its excellent fishery. However, the lake has elevated nutrient levels which lead to poor water quality. A clean up plan for Hydes Lake has identified the need to reduce phosphorus loading by 81 percent from watershed sources.
Hydes Lake is the headwaters to Carver Creek and is known for its excellent fishery. However, the lake has elevated nutrient levels which lead to poor water quality. A clean up plan for Hydes Lake identified the need to reduce phosphorus loading by 81 percent from watershed sources.
This project will complete the final Implementation Plan, semi-annual and final reports and hold project meetings. The Implementation Plan will identify target areas and priorities for implementation strategies to improve water quality for Bluff Creek. This project will build the groundwork so Bluff Creek will meet water quality standards for aquatic life in the future.
Approximately 70 percent of all Minnesotans rely on groundwater as their primary source of drinking water. Wells used for drinking water must be properly sealed when removed from service to protect both public health and Minnesota’s invaluable groundwater resources. The Minnesota Department of Health with the assistance of the Board of Water and Soil Resources protects both public health and groundwater by assuring the proper sealing of unused wells.” Clean Water funds are being provided to home owners as a 50% cost-share assistance for sealing unused private drinking water wells.
Update list of properties with undocumented, unused or cross-connected wells; Educate property owners of best management practices and options to seals the wells on their property