An interagency workgroup is developing recommendations for best practices and policies for water reuse in Minnesota. Recommendations will include both regulatory and non-regulatory approaches to successful implementation of water reuse. The workgroup will evaluate current regulations, practices, and barriers, and quantify and determine acceptable health risks associated with water reuse applications. The University of Minnesota is collecting and analyzing field data for use in targeting Minnesota-specific risks.
The primary goal of this project is to analyze of dated sediment cores to reconstruct changes in the lake condition over the last 150 years. This will be done using multiple lines of evidence including biogeochemistry, sediment accumulation, and diatom and algal remains as biological indicators.
The Chicano Latino Affairs Council and the Humanities Center will build on the grant received last year, which was intended to identify the elements of success in programs for Latino high school students and ways to replicate them. Applying the findings of CLAC's and HACER's research, CLAC will integrate its biennium goal of improving levels of educational achievement for Latino youth with the Legacy goal of enriching Minnesota’s cultural legacy by piloting the program in two Minnesota schools.
The purpose of the DNR Wildlife Health Program is to monitor wildlife populations for diseases, to provide information to support management decisions based on accurate information, and to minimize negative ecological, recreational, and economic impacts.
The Clay County Drainage Site is designed to evaluate the environmental impact of both surface and subsurface drainage from agricultural fields. This site includes six subsurface plots and one surface runoff plot, each approximately 24 acres in size. Monitoring stations are fully automated and each individual plot is monitored separately.The soils and topography across this demonstration site are virtually identical and represent field characteristics common in the most productive agricultural areas of the Red River Valley.
This project will provide notification of the potential for coal tar contamination, establish a storm water pond inventory schedule, and develop best management practices for treating and cleaning up contaminated sediments. The sampling design includes 15 stormwater ponds, 5 each from residential, commercial, and industrial land use areas. Municipalities in the metro area with MS4 permits of stormwater ponds will be contacted to nominate candidate sites for this study. GPS coordinates will be taken at all sampling sites.
Deep, cold-water lakes have different physical properties and support different wildlife than their more numerous shallow counterparts. The Minnesota Department of Natural Resources (DNR) is using this appropriation to conduct a study that will help identify, monitor, and predict the consequences of climate change and land use changes on water quality, habitat dynamics, and fish populations in deep, cold-water lakes.
The Discovery Farms program is a farmer-led effort to gather information on soil and nutrient loss on farms in different settings across Minnesota. The mission of Discovery Farms Minnesota is to gather water quality information under real-world conditions.
The Drinking Water Contaminants of Emerging Concern (CEC) program identifies environmental contaminants for which current health-based standards currently do not exist or need to be updated, investigate the potential for human exposure to these chemicals, and develop guidance values for drinking water. Contaminants evaluated by CEC staff include contaminants that have been released or detected in Minnesota waters (surface water and groundwater) or that have the potential to migrate to or be detected in Minnesota waters.
The goal of the project is the development of an overall strategy for reduction of turbidity/TSS, with sets of sediment reduction initiatives and actions for various sources, to address the Minnesota River Turbidity TMDL and the South Metro Mississippi River TSS TMDL.
This project will complete a Acetochlor Impairment Response Report. This report will combine and coordinate information relating to actions being done in direct response to the acetochlor water quality impairments with those being done and support MDA’s on-going responsibility to assure pesticides are used in a manner that does not cause unreasonable adverse effects on the environment.
The objective of this project is to build on previous efforts aimed at determining the public health risk due to virus contamination in Minnesota groundwater. The Minnesota Department of Health will examine the occurrence of viruses in non-disinfecting groundwater sources in Minnesota as well as evaluate the association between source water virus occurrence and community acute gastrointestinal illness.
Staffing support to evaluate the performance of existing stormwater infiltration sites, as identified in the Minimal Impact Design Standards (MIDS) project. Monitor the range of existing infiltration devices in Minnesota and compare to design criteria, maintenance records, and quantify year-round infiltration rates. Develop and refine pretreatment options and standards for municipal stormwater treatment.
This project will develop databases to manage TMDL activities and track progress. It will also provide assistance to promulgate rulemaking. This project will also support agency operations to review civic engagement proposals from basin and sub basin organizations. Assistance provided to establish a coalition between organizations creating productive environments where citizens and stakeholders can come together to dialogue about issues of concern to them and create their own visions and strategies for TMDL-related change/issues in their communities.
Minnesota Clean Water Funds will be used to complete a paleolimological study of the St. Louis River Estuary for the purpose of providing information critical to removing Beneficial Use Impairments in the St. Louis River Area of Concern. This project will reconstruct the biological (algal load and composition), geochemical (organic and inorganic), sediment, and mercury chronology to identify historical temporal and spatial variations in the St. Louis River Estuary in order to better understand the natural and anthropogenic drivers related to beneficial use impairments for the St.
The Arts Education in Minnesota Schools Research Project is surveying all public and private schools to collect baseline data on the status of arts education statewide to serve as a resource for making data-driven decisions. A national research and evaluation company, Quadrant Arts Education Research, is conducting the study, comprised of three elements.
Arsenic occurs naturally in soil and minerals and is commonly found in groundwater throughout much of Minnesota. The occurrence and distribution of arsenic in groundwater is difficult to predict. Research is steadily increasing our understanding of the mechanisms and geologic conditions that determine arsenic occurrence in groundwater. The arsenic concentration in a new well, measured at the time of construction, is sometimes higher or lower, compared to subsequent sampling results.
The objective of the project is to demonstrate controlled drainage and saturated buffers as flood mitigation practices as well as their water quality and quantity benefits. The project is intended to set a compelling example to increase the acceptance and adoption of drainage water management practices in the Red River Valley.Surface and subsurface runoff will be monitored, and water samples will be collected and analyzed for nitrate-nitrogen. Installations were completed in 2015-2016.
The Root River Field to Stream Partnership is comprised of farmers, the Minnesota Department of Agriculture, the Minnesota Agricultural Water Resource Center, The Nature Conservancy, Fillmore and Mower County Soil and Water Conservation Districts, the Root River SWCD, Monsanto and academic researchers.Together, project partners are addressing the following key questions:What is the range of sediment, nitrogen and phosphorus losses from agricultural fields on real farms in southeast Minnesota?What are the long-term trends and relationships between specific farming practices and water qualit
The Minnesota State Council on Disability (“MSCOD”) seeks to preserve and raise awareness of Minnesota’s disability culture in sync with the 25th anniversary of the passage of the Americans with Disabilities Act (“ADA”) through a theatrical production, public opinion survey and research, and an ADA celebration/training conference. Activities will also highlight the low employment rate of people with disabilities. Most of the public activities will occur in the second year of the grant.
The Chicano Latino Affairs Council in collaboration with the Minnesota Humanities Center will use funding to address the education challenges and opportunities faced by Latino students. The central theme and core value is “culture and language matter,” that culture and language is an asset and not a liability. A research project will focus on identifying specific strengths in Latino culture that improve education engagement.
Endocrine disrupting contaminants are chemicals that may interfere with natural hormones in humans and wildlife and produce adverse developmental, reproductive, neurological, and immune effects. These chemicals occur in a variety of everyday products, including pharmaceuticals, plastics, detergents, flame retardants, cosmetics, and pesticides. As these chemicals get discharged into the environment, humans and wildlife are exposed. The U.S. Geological Survey and St.
The MDH Environmental Laboratory provides essential analyses of water for the MPCA Wild Rice Standards Study, which is gathering information about the effects of sulfate on the growth of wild rice. For this study, the lab developed a ultra-sensitive test for hydrogen sulfide, which greatly facilitated the research. For this large study, the lab staff analyzed several thousand water and sediment samples from lakes, wetlands, rivers, rice paddies, experimental mesocosms, and hydroponic experiments.