Clean water funds are being utilized to address eroding ravines and untreated runoff entering Lake Minnwaska. The ravines originate from a 24 culvert that runs under Highway 55. The worst of the erosion in this area has been in the last ten years and the ravines now measure up to 20' deep and 30' wide and have uprooted trees, rocks and other debris. Installation of riparian cover and check dams in the two ravines will decrease further erosion and reduce suspended sediment during high flow events entering Lake Minnewaska.
The GVCC Pond Excavation Project will remove approximately 2,500 cubic yards of accumulated polycyclic aromatic hydrocarbons (PAH) Level/Tier 3 contaminated sediment from the Golden Valley Country Club stormwater treatment pond.
This project will install an iron enhanced sand filter (IESF) to restore water quality in Golden Lake. Golden Lake is within a fully developed area of the Twin Cities, surrounded by residential land use, and the focal point of a city park. The IESF will achieve 11% of the phosphorus reduction (21 lbs/yr) required for Golden Lake to meet State water quality standards, as identified in the approved Total Maximum Daily Load (TMDL).
This soil health funding opportunity will focus on reducing nitrate contamination in the City of Goodhue's municipal water supply. The Goodhue SWCD and the City of Goodhue will expand on existing partnerships within the Wellhead Protection Area which surrounds city limits. Goodhue's 2,500 acres DWSMA sits in the Karst and Driftless Region of SE MN. About 2,000 acres of Goodhue's DWSMA are in row cropped agriculture and roughly 500 of which have been identified by the MDH as highly vulnerable; these areas will be the main focus of implementation.
This monitoring effort will focus on collecting chemistry and field data information from six sample locations on Hay Creek, Wells Creek, Bullard Creek and Gilbert Creek in Goodhue County and Miller Creek in Wabasha County within the Mississippi River-Lake Pepin Watershed (MRLP). These streams are typically cold water streams which outlet directly to the Mississippi River or Lake Pepin. This monitoring effort is to assist with the 10-year watershed-monitoring schedule that the Minnesota Pollution Control Agency has placed on major watersheds across the State.
Gorman Lake has elevated nutrient levels and drains into the Cannon River. This project will provide a subgrant to the Gorman Lake Association to install a two-tiered retention pond to reduce both phosphorus and peak flow from a drainage ditch from reaching Gorman Lake. Project partners include three agricultural producers, the Le Sueur Soil and Water Conservation District and the Natural Resources Conservation Service.
The Thief River is the source of drinking water for the City of Thief River Falls. The river's other designated uses also include recreation and aquatic life. Water quality monitoring conducted by local agencies discovered that the Thief River is not meeting state water quality standards for both turbidity (muddiness) and dissolved oxygen. Each year, approximately 12,376 tons of sediment is deposited into the Thief River Falls reservoir by the Thief River. That is the equivalent of over 1,200 dump trucks full of dirt.
The Thief River is the source of drinking water for the City of Thief River Falls. The river's other designated uses also include recreation and aquatic life. Water quality monitoring conducted by local agencies discovered that the Thief River is not meeting state water quality standards for both turbidity (muddiness) and dissolved oxygen. Each year, approximately 12,376 tons of sediment is deposited into the Thief River Falls reservoir by the Thief River. That is the equivalent of over 1,200 dump trucks full of dirt.
The purpose of this project is to prepare a Watershed Restoration and Protection Strategy (WRAPS) Report and Total Maximum Daily Load (TMDL) Study for public notice. This project will include addressing and incorporating Minnesota Pollution Control (MPCA) review comments in both documents. The TMDL Study has been submitted to the United States Environmental Protection Agency (USEPA) for preliminary review. USEPA comments will be addressed prior to public notice.
The goal of this project is to construct watershed models for the Grand Marais Creek and Snake River Watersheds and perform an initial hydrologic calibration using Hydrologic Simulation Program FORTRAN (HSPF).
In the early 1900s, a joint State and County drainage project constructed a 1 mile outlet channel to Grand Marais Creek to provide a shorter outlet to the Red River and effectively abandoned the lower 6 miles of the natural channel. In recent times, the ditch has eroded from its original shape to a channel of steep gradients and unstable banks. This has resulted in head cutting of the channel and nearly continuous channel erosion and bank sloughing with the effect of depositing up to an estimated annual average of 700 tons of sediment into the Red River.
The drainage areas for the Root and Whitewater rivers are located in the karst region of southeastern Minnesota. Karst is defined as a landscape with depressions such as sinkholes caused by underground erosion that dissolves the limestone bedrock making this region home to one of the largest collections of freshwater springs in the United States and some of the best trout fishing in the Midwest.
The goal of this project is to extend the input timeseries for the existing Crow Wing, Redeye, and Long Prairie, watershed Hydrologic Simulation Program FORTRAN (HSPF) models and refine the calibration.
The Greater Blue Earth River Basin Alliance is a Joint Powers Organization consisting of nine member Counties and Soil and Water Conservation Districts encompassing the Blue Earth, Le Sueur and Watonwan River Watersheds. This project will enable the Alliance to continue to provide staff and add capacity in the areas of technical assistance, education and outreach.
The project will estimate sand-sized sediment loads for the Blue Earth and Le Sueur Rivers using United States Geological Survey (USGS) measurements to create an overall sediment budget for the rivers in conjunction with already completed fine sediment budgets. The development of the estimates from USGS data and comparisons will strengthen the understanding of the magnitude of the sand component of the total sediment load in the rivers.
The project will estimate the amount of sand loading at the mouth of the Blue Earth and Le Sueur Rivers using suspended sediment and bedload data collected by the United States Geologic Survey (USGS) and the analysis results published by the USGS and others. The development of the estimates from USGS data and comparisons to existing estimates will strengthen the understanding of the magnitude of the sand component of the total sediment load in the rivers.
The purpose of this project is to develop a framework to implement best management practices (BMPs) on ditches in headwater areas utilizing a partnership between drainage staff and the Greater Blue Earth River Basin Alliance (GBERBA). By replacing failing side-inlets with an alternative design, we can make strides towards our water quality and water quantity goals. The alternative inlets serve to prevent sediment and phosphorus from washing downstream and the design can also alleviate peak flows by temporarily storing stormwater.
Provide education, outreach and civic engagement necessary for the development of structural and non-structural best management practices needed to improve water quality within the Greater Blue Earth River Basin. General Education will have a regional focus to landowners. Outreach effort will be focused on regional officials, staff and landowners. Civic engagement efforts will have a smaller watershed scale focus with efforts resulting in structural BMPs being placed on the land and non-structural BMPs being adopted. Implementation of structural best management practices on the land.
From 2011 to 2013, the full reconstruction of University Avenue in Saint Paul for the Central Corridor Light Rail Transit (CCLRT) presents a unique opportunity to improve the quality of stormwater runoff from the Corridor that will not be seen again. Assistance from the Clean Water funds will augment large investments being made by Capitol Region Watershed District, Saint Paul, Ramsey County, and Metropolitan Council implementing highly visible, green infrastructure practices in this transportation corridor to achieve significant stormwater volume reduction and water quality improvements.
Green Streets for Blue Waters is a collaborative effort to install curb cut raingardens and other stormwater management practices within public right of way and on private lands. The project development was funded by the City of Bloomington and the Lower Minnesota River Watershed District, who worked with Metro Blooms to identify the project area and goals.
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.
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 will install nearly 800 linear feet of restored lakeshore with an emphasis on bioengineering techniques, native plants and locating buffers/swales at points of concentrated overland flow into Green Lake. By targeting properties that are eroding and/or with concentrated overland flow to the lake we will reduce suspended solids discharge by 16,697 lbs/yr and phosphorus by 1.3 lbs/yr.
This project is a collaboration between Blue Earth and Watonwan County. The two counties will share information, ideas and resources as they complete mining reclamation and wetland management plans to include in their local water management plans and comprehensive land use plans. Master plans for mining reclamation and wetland management will be used as guidance for planning and zoning decisions and implementing water management priorities that will enhance water quality protection and restoration efforts.
The goal of this project is to develop a tool to generate meteorological time-series input data for Minnesota Pollution Control Agency Hydrologic Simulation Program FORTRAN (HSPF) models based on publicly available gridded meteorological products.
Minnesota’s use of groundwater has increased over the last two decades. An increasing reliance on groundwater may not be a sustainable path for continued economic growth and development. The DNR is establishing three pilot groundwater management areas (GWMA) to help improve groundwater appropriation decisions and help groundwater users better understand and plan for future groundwater needs associated with economic development.
