The AgBMP Loan Program provides needed funding for local implementation of clean water practices at an extremely low cost, is unique in its structure and is not duplicated by any other source of funding.The AgBMP loan program provides 3% loans through local lenders to farmers, rural landowners, and agriculture supply businesses.
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.
To enhance the creative arts exhibit areas in the open class and 4-H buildings. Improved lighting will better showcase locally created works in a variety of categories, including but not limited to: painting, quilting, sewing, woodworking.
Funds will also be used to create an agriculture in Minnesota program for children and host a polka band.
To promote the preservation of agricultural history, education and diversity at the Ramsey County Fair by showcasing traditional Hmong dances, square dancers, a fife and drum corp, and Agricadabra, a show which featurs agricultural facts and magic.
To increase access to arts, cultural, and MN history programming at the Wilkin County Fair. Programming will include performances by a bluegrass band, dance group, the Red River Theater, and a one room schoolhouse reenactment. Attendees will also be able to read about the history of the fair on signs placed throughout the grounds, and learn about the history and culture of the livestock industry in the Red River Valley by taking a History Walk.
Large deposits of copper, nickel, cobalt, and other minerals in northeastern Minnesota could provide huge economic and employment benefits to the state while becoming an important source of important metals for the country. However, the mining required to extract them could have significant water quality impacts in a region that includes the Boundary Water Canoe Area Wilderness and other environmentally sensitive watersheds.
A multi-partner effort has begun to study the amount of nitrate-nitrogen (nitrate) leaching loss that occurs below an agricultural field recently converted from timber land to irrigated row crop production. The landowner has made the property and their staff available to better understand the deep drainage and nitrate leaching dynamics following this type of land use change. This study is unique.
The MDA partnered with the USDA National Agricultural Statistic Service (NASS) and University of Minnesota researchers to collect information about fertilizer use and farm management. Surveys were conducted over the phone. NASS staff are highly skilled at obtaining critical information over the phone with minimal time and burden on the producer.In 2011, the survey focused on the southeast region of Minnesota. The survey was designed to gather information about nitrogen fertilizer rates, timing of nitrogen application and use of nitrogen inhibitors.
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.
The goals of the program are to evaluate the effectiveness of agricultural conservation practices, identify underlying processes that affect water quality, and develop technologies to target critical areas of the landscape. Funded projects provide current and accurate scientific data on the environmental impacts of agricultural practices and help to develop or revise agricultural practices that reduce environmental impacts while maintaining farm profitability.
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.
Grassland ecosystems evolved to depend on periodic disturbances, such as fire and grazing, to maintain their health and stability. Periodic disturbances help control invasive species, add nutrients back into the soil, germinate plant seeds, enhance wildlife habitat, and more. In Minnesota habitat managers have used fire as a disturbance tool for decades but the use of grazing has been much rarer, mostly because of a lack of necessary infrastructure such as fencing.
Enrollment of private lands in conservation programs can provide important natural resource and other public benefits by taking the lands out of production so that they can provide various wildlife, water quality, and ecological benefits. This appropriation is enabling the Minnesota Board of Soil and Water Resources to continue to provide grants to local soil and water conservation districts for employment of technical staff to assist private landowners in implementing conservation programs.
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.
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.
Mine stockpiles are unproductive due to soil deficiencies of organic matter, nutrients, and soil organisms, which are essential to supporting healthy plant growth, diversity, and succession. Waste products, including biosolids, composts, and dredged materials, have the potential to be used to address some of these deficiencies and make the lands productive again.
Over 527,000 acres of unmanaged woodlands are being used for livestock grazing throughout Minnesota. Managing these grazed woodlands based on the use of best management practices can provide environmental and economic opportunities, including improved water quality, maximized forage production, and higher-quality timber. The best management practices involved are commonly used in other parts of the country with other types of ecosystems, but have not been widely adopted in Minnesota due to a lack of knowledge and experience with implementing them within the ecosystems of Minnesota.
Minnesota has 9.5 million acres of public forest lands that play an important role in sustaining Minnesota’s environment and economy. The policies and programs used by public timber sale programs can impact post-harvest ecological conditions and have pronounced effects on the composition, structure, and productivity of the forest in the future. Additionally, timber harvesting revenues play an important role in economic activity, employment, and tax revenue.
New and innovatively designed greenhouse facilities have the potential to provide sustainable food, fuel, and other products year round by utilizing ecological processes and other practices to integrate production of fish, plants, and algae in a low input, self-sustainable system. The City of Silver Bay and researchers at the University of Minnesota – Duluth are using this appropriation to expand and enhance a demonstration greenhouse facility. Refined techniques developed at the facility have the potential to be transferred and replicated at similar facilities throughout the state.
To highlight the importance of agriculture in rural and urban areas and to bring awareness of how farming culture is alive throughout Minnesota.
To bring the All American Lumberjack Show to Lac qui Parle County Fair. With two teams and ten lumberjack events, the show will offer viewers an opportunity to see demonstrations of old time skills, and can join the lumberjacks at camp to get a hands on experience.
Elms were once a very widespread tree in Minnesota and amongst the most common and popular in urban landscapes due to their size, shading capability, and tolerance of pollution and other stresses. Over the past five decades, though, Dutch elm disease, an exotic and invasive pathogen, has killed millions of elms throughout the state. However, scientists at the University of Minnesota have observed that some elms have survived the disease and appear to have special characteristics that make them resistant to Dutch elm disease.
This program funded grants to local units of government and other entities to supplement, not supplant existing budgets. Two categories of grants made available: 1) focus on response to invasive forest pest incidents, 2) focus on planning and preparedness for the arrival of invasive forest pests. The program will also update the state's invasive and exotic tree pest plans.
Michael Sadowsky - University of Minnesota Department of Soil, Water and Climate, firstname.lastname@example.org (612) 624-2706
2008 Fiscal Year Funding Amount
The objectives of this study were to examine ditch sediment and water samples for the presence and numbers of E.coli and to determine what proportion of the E.coli were stable member of the microbial community (i.e. indigenous to the sites) and what proportion were likely transient or only present because of run-off. Researchers used sophisticated DNA technology to determine the potential sources of E.coli present in the ditch sediment and water samples.