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University of Nebraska - Lincoln

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1998

Water

Articles 1 - 30 of 43

Full-Text Articles in Education

Ec98-746 Farm*A*Syst Nebraska's System For Assessing Water Contamination Risk: Introduction, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-746 Farm*A*Syst Nebraska's System For Assessing Water Contamination Risk: Introduction, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Groundwater provides nearly all the water for domestic use in rural Nebraska. It’s essential that the quality of our groundwater, along with that of our surface water resources, be protected. It is especially important to protect the drinking water supply on any homesites where a private domestic well is used. The risk to water quality of various activities at homesites and on surrounding lands varies. Identifying high-risk activities can help determine where to use limited financial and management resources. By increasing knowledge and using careful management, you can greatly reduce the risk of water contamination, often with little or no …


Ec98-787 Glossary Of Ecosystem Terms, Thomas G. Franti, R. Herpel, G.R. Lingle Jan 1998

Ec98-787 Glossary Of Ecosystem Terms, Thomas G. Franti, R. Herpel, G.R. Lingle

University of Nebraska-Lincoln Extension: Historical Materials

This extension circular contains ecosystem definitions from abiotic to wildlife refuge.


G98-1360 Drinking Water: Copper, Sharon Skipton, Delynn Hay Jan 1998

G98-1360 Drinking Water: Copper, Sharon Skipton, Delynn Hay

University of Nebraska-Lincoln Extension: Historical Materials

Too much copper in the human body can cause stomach and intestinal distress such as nausea, vomiting, diarrhea and stomach cramps. This NebGuide discusses how to determine if copper is in a domestic water supply and options that can be taken to reduce the copper in water. Copper rarely occurs naturally in water. Most copper contamination in drinking water happens in the water delivery system, as a result of corrosion of the copper pipes or fittings. Copper piping and fittings are widely used in household plumbing.


Ec98-771 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 8: Improving Household Wastewater Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-771 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 8: Improving Household Wastewater Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

A properly installed and maintained system for treating and disposing of household wastewater will minimize the impact of that system on groundwater and surfacewater. State and local codes specify how wastewater systems must be designed, installed, and maintained. For example, Title 124 regulates the design, operation, and maintenance of septic tank systems in Nebraska. In addition, federal and state regulations guide the stabilization and land application of wastewater septage.


Ec98-792 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 16: Improving Crop Pesticide Application Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-792 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 16: Improving Crop Pesticide Application Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Though pesticides are especially harmful to the target pest, they are also potentially harmful to most living and breathing creatures and non-target plant life. Proper handling and application management of pesticides are important to protect you and to protect surface and groundwater from contamination. Pesticides were first found in groundwater in the 1970s. Prior to that, the general belief was that pesticides did not leach into the groundwater with normal use.


Ec98-750 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 12: Silage Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-750 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 12: Silage Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Silage is an important feed for livestock-based agriculture. When properly harvested and stored, silage poses little or no pollution threat, but improper handling can lead to a significant flow of silage juices (or leachate) from the silo. Leachate is an organic liquid that results from pressure in the silo or from extra water entering the silo. It is usually a problem only when silage is fresh, or just after storage. This loss of leachate represents a loss of nutrient value from the silage.


Ec98-748 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 2: Site Evaluation, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-748 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 2: Site Evaluation, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why is the site evaluation important? The effect of farm, ranch or homesite practices on groundwater depends in part on the physical characteristics of your site: soil type, subsurface characteristics and depth to groundwater. That’s why evaluating the soils and geologic characteristics of your site is such an important step in protecting the groundwater you drink. This evaluation focuses primarily on the farmstead or homesite and risk to groundwater, but, to a limited extent, also addresses surface water. The worksheet can be applied to land beyond the farmstead or homesite, but the variation in soils and geologic materials would have …


Ec98-754 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 7: Hazardous Materials And Waste Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-754 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 7: Hazardous Materials And Waste Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Consider the variety of products commonly used in households, on acreages and on farms: paints, solvents, oils, cleaners, wood preservatives, batteries, adhesives, and pesticides. Also consider the amount of these products which goes unused or is thrown away. Some common disposal practices can create an unsafe environment around the home and may contaminate groundwater. Additionally, many of these common disposal practices violate Nebraska law.


Ec98-752 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 9: Livestock Manure Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-752 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 9: Livestock Manure Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Accumulating manure in storage incurs certain risks to the environment and to human and animal health unless appropriate precautions are taken.Manure can contribute nutrients and disease-causing organisms to both surface water and groundwater.


Ec98-766 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 3: Drinking Water Well Condition, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-766 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 3: Drinking Water Well Condition, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Essentially all of Nebraska’s rural residents use groundwater to supply their drinking water and farm needs. Wells should provide clean water. If wells are improperly constructed or maintained, however, they can allow bacteria, pesticides, fertilizer, oil products, or other pollutants to contaminate groundwater. These contaminants can put family, pets and livestock health at risk.


Ec98-762 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 6: Improving Petroleum Product Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-762 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 6: Improving Petroleum Product Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Petroleum product storage is an area of great concern for groundwater safety. It’s not uncommon for fuel to leak into aquifers and pollute the drinking water of a family or even a community, and it can be very costly for the landowner. Petroleum product storage is regulated by laws regarding fire safety and air quality as well. Therefore, petroleum product storage must be evaluated from various perspectives. This factsheet examines some important aspects of petroleum product storage: where the tank is located on your property, the type of tank, how to monitor the tank, reduction of losses from aboveground tanks, …


Ec98-767 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 4: Improving Pesticide Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-767 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 4: Improving Pesticide Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

We’ll look at five areas of pesticide management on your farm: 1. pesticide storage practices 2. mixing and loading practices 3. spill cleanup 4. container disposal practices 5. other management practices When handling pesticides, wear proper protective clothing and equipment at all times. See the pesticide label for details.


Ec98-789 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 14: Improving Crop Nutrient Application Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-789 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 14: Improving Crop Nutrient Application Management, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Economics, energy and the environment are three primary reasons to be concerned about nutrient management, especially nitrogen (N) management. Nitrogen ranks high on a list of sixteen nutrients needed for the health of most plants, but unfortunately it also ranks high as a contaminant of Nebraska’s surface and groundwater. Most other nutrients occur naturally in the soil. Besides nitrogen, phosphorus and potassium are the nutrients most often added to Nebraska soils.


G98-1363 Container Gardening (Revised September 2004), Anne Streich, Kim Todd, Kelly Feehan Jan 1998

G98-1363 Container Gardening (Revised September 2004), Anne Streich, Kim Todd, Kelly Feehan

University of Nebraska-Lincoln Extension: Historical Materials

Container gardening has many advantages. People with physical limitations may appreciate the ability to garden without bending over or kneeling. Container gardens can also bring the garden closer to one's home or outdoor living area, such as along a sidewalk that is accessible from a wheelchair. Container gardens can place culinary herbs close to the kitchen to be snipped and used in cooking. Container gardens on patios or decks give people with limited outdoor space, such as an apartment and townhome dwellers, the opportunity to enjoy plants.

Growing flowers, vegetables, and other plants in containers provides many gardening opportunities to …


G98-1372 Management Recommendations For Blocked-End Furrow Irrigation, Dean E. Eisenhauer, Brian L. Benham Jan 1998

G98-1372 Management Recommendations For Blocked-End Furrow Irrigation, Dean E. Eisenhauer, Brian L. Benham

University of Nebraska-Lincoln Extension: Historical Materials

Proper blocked-end furrow irrigation management practices can minimize water application, irrigation costs and the leaching of agri-chemicals below the root zone.

The goal of every irrigator should be to apply the right amount of water uniformly to meet crop needs. To do this, irrigators need to know how much water is applied and where it goes. In other words, they need to know how uniformly the irrigation water infiltrates into the soil profile. Achieving a uniform water application is not easy when using furrow irrigation. However, with a better understanding of how irrigation system management affects water distribution and a …


G98-1376 Drinking Water: Fluoride (Revised February 2005), Sharon Skipton, Bruce I. Dvorak Jan 1998

G98-1376 Drinking Water: Fluoride (Revised February 2005), Sharon Skipton, Bruce I. Dvorak

University of Nebraska-Lincoln Extension: Historical Materials

This NebGuide discusses fluoride in domestic water supplies. Fluoride, a naturally occurring element, exists in combination with other elements as a fluoride compound and is found as a constituent of minerals in rocks and soil. When water passes through and over the soil and rock formations containing fluoride it dissolves these compounds, resulting in the small amounts of soluble fluoride present in virtually all water sources.


G98-1369 Drinking Water: Nitrate And Methemoglobinemia ("Blue Baby" Syndrome), Sharon Skipton, Delynn Hay Jan 1998

G98-1369 Drinking Water: Nitrate And Methemoglobinemia ("Blue Baby" Syndrome), Sharon Skipton, Delynn Hay

University of Nebraska-Lincoln Extension: Historical Materials

This NebGuide discusses the blood disorder methemoglobinemia, its effect on infants and prevention methods. Methemoglobinemia is a blood disorder caused when nitrite interacts with the hemoglobin in red blood cells. Unlike hemoglobin, the methemoglobin formed in this interaction cannot carry sufficient oxygen to the body's cells and tissues. Although methemoglobinemia is rare among adults, cases have been reported among infants, where nitrate-contaminated well water was used to prepare formula and other baby foods. Nitrate in well water may result from point sources such as sewage disposal systems and livestock facilities, from nonpoint sources such as fertilized cropland, parks, golf courses, …


Ec98-747 Farm*A*Syst Nebraska's System For Assessing Water Contamination Risk Summary Worksheet 1: Overall Assessment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-747 Farm*A*Syst Nebraska's System For Assessing Water Contamination Risk Summary Worksheet 1: Overall Assessment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

This publication is the first of many dealing with Nebraska's Water Contamination. Getting started You will return to this worksheet after completing all other worksheets. It is designed toreview your total activities and give you a summary of areas of concern. It is suggested that you complete Worksheet 2 first and then complete all additional worksheets that pertain to your farm, ranch, or homesite. Transfer results from individual worksheets to complete this overall summary


Ec98-751 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Fact Sheet 9: Improving Livestock Manure Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-751 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Fact Sheet 9: Improving Livestock Manure Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Manure storage is an important manure management option for livestock producers. Stored manure can be applied to the soil when nutrient uptake by crops can be maximized and weather related losses minimized. Preplant applications of manure incorporated into the soil ensures maximum crop nutrient value, while reducing risks of water contamination.


Ec98-763 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 6: Petroleum Product Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-763 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 6: Petroleum Product Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Aboveground and underground storage of liquid petroleum products such as motor fuel and heating fuel presents a threat to public health and the environment. Nearly one out of every four underground storage tanks in the United States may now be leaking, according to the U.S. Environmental Protection Agency. If an underground petroleum tank is more than 20 years old, especially if it’s not protected against corrosion, the potential for leaking increases dramatically. Newer tanks and piping can leak, too, especially if they were improperly installed.


Ec98-772 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 8: Household Wastewater Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-772 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 8: Household Wastewater Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Virtually all farms and rural housing use a septic system or similar on-site wastewater treatment system. While these systems are generally economical and safe, household wastewater can contain contaminants that degrade water quality for uses such as drinking, pet and stock watering, food preparation, and cleaning. Potential contaminants in household wastewater include disease-causing bacteria, infectious viruses, household chemicals, and excess nutrients, such as nitrate.


Ec98-769 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 5: Improving Fertilizer Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-769 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Fact Sheet 5: Improving Fertilizer Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Fertilizer storage practices If stored safely in a secure location, fertilizers pose little danger to groundwater. Common sense suggests keeping fertilizer dry and out of the way of activities that might rip open a bag or allow rain to enter a bulk container.


Ec98-768 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 4: Pesticide Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-768 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 4: Pesticide Storage And Handling, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Pesticides are showing up where they’re not wanted — in our drinking water. If pesticides are not handled and stored correctly around the farm, they can seep through the ground after a leak or spill, or enter a well directly during mixing and loading. Pesticides play an important role in agriculture. They have increased farm production and enabled farmers to manage more acres with less labor.


Ec98-791 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 15: Irrigation Wellhead Protection, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-791 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Worksheet 15: Irrigation Wellhead Protection, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Nebraska’s 80,000+ irrigation wells can provide a direct conduit for contaminants to reach groundwater supplies unless properly located, constructed, and protected. Groundwater is the source of drinking water for essentially all of Nebraska’s rural residents and most residents of our towns and cities. It is critical that every effort be made to protect groundwater quality. Irrigation wells can be constructed and maintained to assure that groundwater quality is protected. Improperly constructed or maintained wells can allow bacteria, pesticides, fertilizers, oil products, or other pollutants to contaminate groundwater.


Nfs-1 Forestry Best Management Practices For Nebraska Jan 1998

Nfs-1 Forestry Best Management Practices For Nebraska

University of Nebraska-Lincoln Extension: Historical Materials

A reference guide for loggers, landowners and managers.

Nebraska's Forest Resource

Forests cover 947,000 acres in Nebraska. Other land with scattered tree cover, including narrow wooded strips along streams, windbreaks, and wooded pasture lands, occupy an additional 1,252,000 acres. Managing Nebraska's forest lands can produce significant benefits without negative impacts; however, careless activities in woodlands can damage water resources, soils, wildlife habitat, aesthetic values, and even the ability to produce future benefits.


Ec98-756 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 13: Milking Center Effluent Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-756 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Worksheet 13: Milking Center Effluent Treatment, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Why should I be concerned? Milking center effluent is usually considered a dairy sanitation problem. If not properly managed, however, the effluent can contaminate both groundwater and surface water.


Ec98-1776 Nebraska Groundwater Of Aquaculture, Terrence B. Kayes, Stuart K. Mcfeeters Jan 1998

Ec98-1776 Nebraska Groundwater Of Aquaculture, Terrence B. Kayes, Stuart K. Mcfeeters

University of Nebraska-Lincoln Extension: Historical Materials

Aquaculture, the cultivation or husbandry of aquatic plants and animals, is the fastest growing component of United States agriculture. Nebraska presently has an extremely small aquaculture industry, but the potential benefits of investing in the development of a large-scale industry are enormous.

Nebraska is one of the nation's most water-rich states. Its groundwater resources are enormous, and include the High Plians Aquafer, which ranks among the world' largest near-surface aquifers.


G98-1370 Abandonment Planning For Earthen Manure Storages, Holding Ponds And Anaerobic Lagoons, Richard K. Koelsch Jan 1998

G98-1370 Abandonment Planning For Earthen Manure Storages, Holding Ponds And Anaerobic Lagoons, Richard K. Koelsch

University of Nebraska-Lincoln Extension: Historical Materials

The purpose of this NebGuide is to define some critical issues to be addressed by an abandonment plan of an earthen manure storage, anaerobic lagoon or runoff holding pond.

A Nebraska construction permit for a Livestock Waste Control Facility (LWCF) requires a written plan defining possible abandonment procedures in the event the operation (and associated LWCF) is discontinued. The plan must be approved by the Nebraska Department of Environmental Quality (NDEQ) prior to permit issuance.


G98-1356 Polyacrylamide – A Method To Reduce Soil Erosion, C. Dean Yonts, Brian Benham Jan 1998

G98-1356 Polyacrylamide – A Method To Reduce Soil Erosion, C. Dean Yonts, Brian Benham

University of Nebraska-Lincoln Extension: Historical Materials

This NebGuide describes polyacrylamide, what it is, how it can be used to reduce soil erosion due to, irrigation and what water management changes must be considered.

Topsoil loss can mean a long-term reduction in soil productivity, crop yield and the life expectancy of downstream storage reservoirs. In the short term, producers are faced with reuse pits to clean or a buildup of soil at the lower ends of fields which must be redistributed. Measures must be taken to reduce or eliminate soil erosion and sustain Nebraska's soil resource.


Ec98-749 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Fact Sheet 12: Improving Silage Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt Jan 1998

Ec98-749 Farm*A*Syst Nebraska’S System For Assessing Water Contamination Risk Fact Sheet 12: Improving Silage Storage, Robert Grisso, Delynn Hay, Paul J. Jasa, Richard K. Koelsch, Sharon Skipton, Wayne Woldt

University of Nebraska-Lincoln Extension: Historical Materials

Silage is an important feed for livestock-based agriculture. When properly harvested and stored, silage poses little or no pollution threat, but improper handling can lead to a significant flow of silage juices (or leachate) from the silo. Leachate is an organic liquid that results from pressure in the silo or from extra water entering the silo. It is usually a problem only when silage is fresh, or just after storage. This loss of leachate represents a loss of nutrient value from the silage.