This project goal is to conduct water chemistry monitoring at seventeen stream locations, to record and submit all data collected through this process, and to provide the information necessary for the calculation of water quality pollutant loads using the FLUX32 program.
The Chisago Soil and Water Conservation District has been successful in implementing Best Management Practices in certain targeted locations within the county, including the prioritized and assessed areas of Chisago City, Lindstrom, and Center City. However, there are many areas that want to implement conservation projects but aren't within targeted areas. This award will empower community partners, especially lake associations, to award grants for rain gardens, shoreline buffers, and other worthwhile projects to improve water quality.
The Faribault Soil and Water Conservation District will provide mini-grants to conservation-conscious community organizations who voluntarily construct best management practices that provide storage and treatment of stormwater runoff at its source.
Widseth Smith Nolting (WSN) will evaluate and recommend to Minnesota Pollution Control Agency (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.
Through various means, human produced chemicals can make their way into surface waters where they can have adverse effects on the function of ecological communities. Of particular concern are antibiotics and other antimicrobial substances because they have the potential to create increased antibiotic resistance. While there is a background level of naturally occurring antibiotic resistance in the natural world, elevated or persistent levels caused by human activities have the potential to harm human, animal, and overall ecosystem health.
The Application Risk Advisory System is web‑based and provides alerts when conditions are favorable for nutrient loss to water, based on soil conditions and National Weather Service forecast models. This system enables farmers and commercial applicators to avoid applications of fertilizer and manure during conditions when the potential for loss to surface water is high.
The goals of this project are to develop and implement a stakeholder and public engagement program, update the Hydrological Simulation Program FORTRAN (HSPF) models for the Big Fork and Little Fork River Watersheds, develop Total Maximum Daily Load (TMDL) studies for impaired waterbodies, remove naturally impaired streams from the impairment list, develop a Watershed Restoration and Protection Strategy (WRAPS) report, and to conduct civic engagement activates necessary to ensure project success.
Invasive carp species, including silver carp and bighead carp, are migrating north up the Mississippi River and pose threats to the native fish and aquatic ecosystems of Minnesota rivers and lakes where they can become established. While individual carp have been found in Minnesota, it is not presently believed that there are established breeding populations in the state.
The goal of this project is to apply the Hydrological Simulation Program FORTRAN (HSPF) model to evaluate scenarios to support potential management actions and implementation in the watershed, construct Total Maximum Daily Load (TMDL) studies, and to develop a conceptual site model of the lakes for understanding phosphorus release.
The data collected in this workplan is the foundation for an accurate TMDL allocation and accurate implementation strategy design. Current and historic phosphorus inputs will be calculated and evaluated as to source. Nutrient and algal history and trends in sedimentation will be reconstructed to identify ecological changes that have occurred in the lakes both recently and historically.
Carlton County Soil and Water Conservation District (SWCD), Carlton County Planning and Zoning, and local volunteers will lead an effort to collect Total Phosphorus, Chlorophyll-A, and secchi disc transparency data for the MPCA Surface Water Assessment Grant (SWAG) project on following six lakes: Eagle Lake, Upper (North) Island Lake, Lower (South) Island Lake, Tamarack Lake, Cole Lake, and Cross Lake.
A cooperative study was conducted by the U.S. Geological Survey (USGS), the Metropolitan Council, and the Minnesota Department of Health to assess groundwater and surface-water interactions in lakes in the northeast Twin Cities Metropolitan Area (TCMA), including White Bear Lake. An important product of the study was the creation of a groundwater-flow model focused on the northeast TCMA. The groundwater flow model is available for future use to assess the effects of groundwater withdrawals on lake levels as well as to describe other groundwater and surface-water interactions.
This study will test groundwater and drain tile waters at concentrated animal feedlot opperations (CAFOs) to evaluate the presence of intibiotics and hormones. Samples will be collected from monitoring wells, tile drain sumps, and tile line discharges.
Water samples will be sent to Axys Analytical Services as they are colleced from each monitoring site. A total of 18 samples will be generated in the field by pumping ultrapure water through the sampling system.
Minnesota ranks #2 in hog production and #1 in sugar beet production in the U.S., generating about 11 million tons of pig manure and over one million tons of sugar processing wastes annually. Presently there are not cost-effective methods available to deal with these waste streams other than land application, which usually results in nutrient runoff into ground and surface water resources.
This project addresses the northeast St. Cloud drainage basin, the highest priority in the St. Cloud Stormwater Management Plan. St. Cloud has observed and documented ongoing sediment loading to the Mississippi River from the 367 acre watershed. The project is also a companion to the Green Roofs Blue Waters program in which several sediment reduction BMPs are being identified and installed along the Mississippi River.
The goal of this project is to develop a core team of wastewater professionals and academics engaged in understanding and solving wastewater-related problems in Minnesota, with national relevance. The team will promote the use of new technology, designs and practices to address existing and emerging wastewater treatement challenges, including the treatement of wastewater for reuse and the emergence of new and unregulated contaminants.
The County Well Index (CWI) contains well and boring records wells within Minnesota; over 400,000 records. It is the principal source of well construction information and geologic interpretations of well records and also contains soil boring records, mineral exploration test hole records, and scientific/research test hole records.
This project provides grant funding to counties to enhance the delivery systems for SSTS activities, including grants to low-income landowners to address systems that pose an imminent threat to public health or safety or fail to protect groundwater.
This training will be for State employees who have purchased this new type of discharge measuring equipment. This training is needed to ensure that accurate and complete discharge measurements are made which is supplied to Minnesota Department of Natural Resources (DNR), Consulting firms, Local units of government, federal government and Minnesota Pollution Control Agency (MPCA) modelers.
There are currently more than 21,000 miles of drainage ditches and many thousands of miles of subsurface tile located throughout Minnesota and overseen by over 100 different local drainage authorities. Historically public records of these drainage systems have been maintained primarily in hard copy following differing protocols depending on local requirements. However, this antiquated approach limits the usability and accessibility of public drainage records creating various challenges for drainage management efforts.
The State Fiscal Year 2014-2015 Clean Water Fund appropriation identified the northeast metro as an area where potential solutions are needed to address emerging water supply issues. The Metropolitan Council, in conjunction with S.E.H. consultants, evaluated water supply approaches to serve the northeastern part of the Twin Cities metropolitan area. A subregional study areas was selected based on the indication of potential problems with the long-term sustainability of current water supplies, as well as expressed interest by community stakeholders.
This grant will cover all components of water chemistry sampling for pollutant load monitoring at four sites. Of those four sites, two of them are subwatershed sites that will be monitored seasonally and two of them are basin/major watershed sites that will be monitored year round. The Monitoring Coordinator for the Sauk River Watershed District will be responsible for sample collection, data management tasks, attending weekly call in meetings and will coordinate additional help from other staff members and/or interns if needed.
The purpose of this monitoring project is to maintain water quality data collection, build on local partnerships, and develop a better of understanding of what impacts the rivers located in central Minnesota.
Sherburne Soil and Water Conservation District (SWCD) will subcontract with Clearwater River Watershed District (CRWD) to cooperatively coordinate monitoring of three locations within the Mississippi River (St. Cloud) Watershed. A total of four staff (two from each district) will communicate to ensure that the locations are monitored according to the WPLMN Standard Operating Procedures (SOPs) for AIS and non AIS sites
Monitoring the health of Minnesota rivers is vital in determining, maintaining, and improving the health of the rivers for the environment and public use. The scope of this project is to collect surface water chemistry samples at designated sampling locations during appropriate time periods and at appropriate frequencies during these time periods for 1 year beginning in February 2015. The data collected and submitted to MPCA will provide information necessary to determine stream characteristics and calculate water quality pollutant loads.
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.