Peer Engineering, Inc. (Peer) will evaluate and recommend to MPCA groundwater monitoring staff prospective sites/locations for the installation of groundwater monitoring wells to evaluate contaminant/pollutant concentrations from various sources. Peer will oversee the installation of monitoring wells by retaining a state drilling contractor or preparing bid documents to retain well driller through the Department of Administration. Superfund staff will assist in the project by providing oversight of contractual requirements and provide technical assistance as needed.
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 focus, on a sub-regional scale, on water quality improvements targeted at concentrated runoff flows generated from upstream, developed portions of the City of Forest Lake. This project will work to modify an existing wetland complex located in publicly owned Bixby Park of Forest Lake to increase water quality treatment potential and storage capacity. The project will also incorporate an innovative iron-enhanced sand filter which will remove dissolved phosphorus, resulting in a 206 pound/year reduction of phosphorous and a 27 tons/year removal of sediment.
In recent years, nutrient enrichment has occurred in Lake St. Croix due to increasing amounts of phosphorus entering the lake from the watershed. According to the TMDL, approximately half of the phosphorus-loading to Lake St. Croix is in the soluble form, and agriculture has been identified as one of the largest contributors of that phosphorus. In addition to the TMDL, subwatershed analyses were completed to identify, assess, and prioritize phosphorus-reducing practices in rural areas draining to Lake St. Croix in Washington County. This project will reduce phosphorus discharges to the St.
Bone Lake and upstream Moody Lake are the headwaters of the Comfort Lake-Forest Lake Watershed District northern flow network, and as such, their water quality sets the stage for downstream waters, particularly Comfort Lake, the Sunrise River, and ultimately Lake St. Croix. This project proposes the implementation of six wetland restorations located along the tributary identified as the single highest source of phosphorus loading to Bone Lake. These wetland restorations are estimated to reduce watershed phosphorus loads to Bone Lake by 50 pounds per year.
Brown's Creek is one of the few remaining cold water fisheries in the Metropolitan Area; however, it is impaired due to high suspended solids and high water temperatures. To understand the extensive and complex in-stream temperature and local climate data already collected by the Brown's Creek Watershed District, this grant will facilitate the development of a thermal model to determine thermal sources and cost-effective management projects and practices to reduce thermal loading to Brown's Creek.
The Watershed District is partnering with the City of Stillwater to reduce sediment and thermal loading to Brown's Creek from existing impervious gravel parking lot and paved roads to achieve Total Maximum Daily Load water quality goals in this reach of Brown's Creek.
The purpose of the project is to target the type and location of riparian vegetation restoration needed to shade three miles of unforested buffer on Brown's Creek, a metro area trout stream impaired for thermal and sediment loading. The project will conduct a riparian shading analysis, cost-benefit analysis, and modeling of restoration scenarios based on field measurements of shade in the unforested buffer of Brown's Creek.
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.
This project will implement watershed load reduction practices to restore the top priority water body in the Carnelian Marine St. Croix Watershed District in northeast Washington County. Recently completed prioritization and targeting efforts have identified several Best Management Practice opportunities around goose Lake, the number one priority for implementation practices.
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.
The Contractor will assist in planning and executing the regular meetings of the St. Croix River Basin Team, including providing minutes of the meetings. Assist in the functioning of the priority issue subcommittees. Respond to public notices for re-issuances of NPDES permits, EAWs and other pertinent public notices, and participate in prioritized public meetings with local governmental units and water planning organizations.
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 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 Watershed Restoration and Protection Plan for the Lower St. Croix River that provides 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, and that are understood and adoptable by local units of government and other stakeholders.
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.
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 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.
Implementation activities proposed as a part of this project include water quality monitoring, biotic surveys, sediment core sampling, mechanical treatment of curly-leaf pondweed (in accordance with regulations and permitting), an iron-enhanced sand filter, with a high capacity multi-stage outlet weir and 40,000 pounds of iron filings and stakeholder involvement in the design process and educational presentations.
The goal of this project is to adapt and expand the existing successful Master Water Stewards program to engage citizens and catalyze clean water projects in suburban, exurban and rural communities of Washington and southern Chisago Counties. As part of this project, 20 citizens' stewards will be recruited and trained to work in partnership with the Washington Conservation District and area watershed management organizations to implement clean water projects in identified priority areas.
The focus of this project will be on protection efforts to maintain or improve the water quality of Forest Lake by reducing phosphorus loads to the lake, especially from storm water. The two main objectives of this project are to compile and make minor updates to a large body of diagnostic work that already exists for Forest Lake, and to develop a comprehensive, site-specific implementation plan for best management practices (BMPs).
Forest Lake is one of the top recreational lakes in the metro area with a diverse and healthy fishery along with thee public accesses. The water quality of Forest Lake also impacts downstream waters, particularly Comfort Lake, the Sunrise River, and ultimately Lake St. Croix. A water quality study was completed for Forest Lake identifying nutrient reduction goals to meet state water quality standards for all three basins of Forest Lake along with the Comfort Lake-Forest Lake Watershed District's (CLFLWD) long term goal water quality goals for the lake.
This project will develop an enhanced street sweeping plan for the City of Forest Lake that optimizes phosphorus removal from increasing sweeping frequency with the cost of additional sweeps. In addition, this project will identify road-specific street sweeping timing and frequency, quantify expected phosphorus load reductions, itemize costs of enhanced street sweeping, and recommend funding options to the City of Forest Lake.
The Washington Conservation District (WCD) will use this program to engage homeowner associations (HOAs) within Washington County. The project will identify methods and opportunities for HOAs to commit to clean water management practices and prioritize stormwater retrofit projects within partnering HOAs. Project goals include engaging at least 20 HOAs within the county and conducting 2-3 focus group sessions with property management companies and HOAs to identify opportunities for and barriers to adoption of clean water practices.
This project builds upon the success of the Minimal Impact Design Standards (MIDS) Community Assistance Package by working hands-on with up to 13 communities in the St. Croix River Basin to adopt ordinance and code revisions to incorporate MIDS stormwater quality and volume standards for new development and redevelopment.
The Kelle's Creek septic system assessment project will examine septic systems throughout the Kelle's Creek watershed to identify those systems that are non-functioning, non-compliant, or an imminent threat to public health and safety. Preliminary prioritization of the septic systems within the watershed will be based on the Washington County GIS database, followed by outreach to landowners to identify willing participants. Ultimately, this project will include inspection of up to 150 septic systems within the Kelle's Creek hydrologic boundary.
The Lake St. Croix Rural Subwatershed Project Implementation Clean Water Fund Grant will allow the Washington Conservation District and its partners to carry out the implementation of 8-10 of the top 50 highly ranked conservation projects already identified in the Top50P! rural subwatershed analysis. Implementation of the conservation practices will work towards achieving an estimated 80-160 pounds of phosphorus load reduction to Lake St. Croix.
The goal of this project is to gain information about the amount and sources of phosphorous flowing into Lake St Croix by implementing additional water quality monitoring and/or to reduce the amount of phosphorous flowing into Lake St Croix by implementing phosphorous reduction activities.
This project will address the nutrient impairment of Lake St. Croix through the installation of targeted stormwater treatment best management practices as prioritized in the 2014 Lake St. Croix Direct Discharge Stormwater Retrofit Assessment. The project will install up to 16 Low Impact Development practices to reduce pollutant loading to Lake St. Croix by at least 8.0 pounds phosphorous and 3,000 pounds sediment and 1.0 acre foot of stormwater per year.
This project will continue to address the nutrient impairment of Lake St. Croix through the installation of targeted stormwater treatment best management practices as prioritized in the 2014 Lake St. Croix Direct Discharge Stormwater Retrofit Assessment. The goal is to install up to 24 Low Impact Development practices to reduce urban pollutant loading to Lake St. Croix by at least 12.0 pounds phosphorous and 3,000 pounds TSS and 1.0 acre foot of stormwater per year. This project parallels many ongoing watershed restoration efforts to meet the Middle St.
This project will provide information about the amount and sources of phosphorous flowing into Lake St Croix by implementing additional water quality monitoring and reduce the amount of phosphorous flowing into Lake St Croix by implementing phosphorous reduction activities. The St Croix River Association (SCRA) will coordinate with the St. Croix Basin Water Resources Planning Team (Basin Team) on the identification and funding of comprehensive water monitoring and phosphorus reduction activities in the Lake St. Croix portion of the St.
The purpose of this project is to gain additional information about the amount of phosphorous flowing into Lake St Croix by implementing additional water quality monitoring and/or to reduce the amount of phosphorous entering Lake St Croix by the implementation of projects that will reduce phosphorus loadings. The St. Croix River Association (SCRA) will coordinate with a subgroup of the St. Croix Basin Water Resources Planning Team and other local resource experts on the identification and funding of comprehensive water monitoring and phosphorus reduction activities in the Lake St.
This project addresses the nutrient impairment of Lily Lake through the continued installation of targeted stormwater treatment best management practices as identified in the 2010 Lily Lake Stormwater Retrofit Assessment. The goal is to install up to 16 Low Impact Development practices treating at least 8 acres of urban development to reduce pollutant loading to Lily Lake by approximately 8 pounds phosphorous, 2 tons of sediment and 3.0 acre-feet of volume per year.
After nearly a decade of intensive targeting, design and installation of water quality improvement practices, Lily Lake has an improving trend in long-term summer total phosphorous concentrations for the first time since monitoring began in 1985. To date, 36 storm water quality improvement projects have reduced 100 pounds of annual phosphorous discharging to Lily Lake.
Brown's Creek Watershed District (BCWD) has identified two neighborhoods that drain untreated stormwater directly to Long Lake, a recreational lake in Stillwater that has been listed as impaired for excess nutrients. By working with targeted residential landowners in the high priority neighborhoods, BCWD will install 10-15 best management practices to achieve measurable outcomes of 5 acre-feet of nutrient-rich stormwater infiltration,1 ton of total sediment and 6 pounds of total phosphorus removed from Long Lake per year.
The Marine on St. Croix Innovative Stormwater Management Implementation is a partnership, formalized through an MOU, between Marine on St. Croix (MOSC) and the Carnelian-Marine-St. Croix Watershed District (CMSCWD) to improve stormwater management in the most densely developed areas of the City on a neighborhood zone approach rather than site-by-site (parcel) approach for greater and more impactful results in accomplishing District and City stormwater management goals.
Brown's Creek Watershed District and Washington County will work together to retrofit McKusick Road during a 2017 road improvement project. The project will install seven catch basin retrofits with separation devices, and three 40 foot x 5 foot diameter underground water quality tanks to trap sediment and floatables from the roadway.