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Full-Text Articles in Education
Irrigated Alfalfa Vaariety Performance, 1999-2002; Kaysville, Utah, Michael Bouck, Ralph Whitesides, Thomas Griggs, R. F. Sessions, J. S. Murdock, D. A. Chandler
Irrigated Alfalfa Vaariety Performance, 1999-2002; Kaysville, Utah, Michael Bouck, Ralph Whitesides, Thomas Griggs, R. F. Sessions, J. S. Murdock, D. A. Chandler
All Current Publications
This report summarizes alfalfa yields from four harvest years of an irrigated trial at the Utah Agricultural Experiment station research farm at Kaysville, Cavis Co.
Alfalfa Variety Selection Guidelines, Thomas Griggs
Alfalfa Variety Selection Guidelines, Thomas Griggs
All Current Publications
This fact sheet provides guidelines for selecting the right alfalfa variety and includes preliminary site and end-use consideration, variety selection based on plant traits, and seed quality and treatment considerations.
Manure Storage Selection, John Harrison, Dallen Smith
Manure Storage Selection, John Harrison, Dallen Smith
All Current Publications
The objective of this fact sheet is to help producers understand the factors that might influence the selection of a particular type of manure storage facility. Manure storage facilities covered include solid systems, slurry systems, and liquid (lagoon systems).
Nutrient Concentrations In Manure Storage Facilities, John Harrison, Dallen Smith
Nutrient Concentrations In Manure Storage Facilities, John Harrison, Dallen Smith
All Current Publications
The objective of this fact sheet is to help producers understand the nutrient loss and retention characteristics of different types of manure storage. The concentration of nutrients in manure storage facilities is important for planning land application activities. Nutrient concentration is usually the critical factor in determining the amount of manure to be spread per acre of land. Manure systems similar in type and management may have characteristically similar concentrations of manure nutrients.
Manure Storage, Process Improvement For Animal Feeding Operations, John Harrison, Dallen Smith
Manure Storage, Process Improvement For Animal Feeding Operations, John Harrison, Dallen Smith
All Current Publications
The objective of this fact sheet is to help producers understand the need for manure storage facilities.
Safety In Manure Storage Facilities, John Harrison, Dallen Smith
Safety In Manure Storage Facilities, John Harrison, Dallen Smith
All Current Publications
As livestock operations become larger and numbers of employees more numerous, safety becomes a critical issue in manure storage.
Types Of Manure Storage, John Harrison, Dallen Smith
Types Of Manure Storage, John Harrison, Dallen Smith
All Current Publications
The objective of this fact sheet is to help producers understand the characteristics of different types of manure storage facilities. Factors that might influence the selection of a particular type of manure storage facility are discussed. Manure storage facilities discussed include solid systems, slurry systems, and liquid (lagoon systems).
Animal Manure Removal Methods For Manure Storage Facilities, John Harrison, Dallen Smith
Animal Manure Removal Methods For Manure Storage Facilities, John Harrison, Dallen Smith
All Current Publications
A well-designed manure storage facility must also be well managed to prevent environmental concerns from developing. Probably the single most important requirement in operating and maintaining a manure storage facility is to ensure that the facility does not overflow or discharge.
G04-1537 Wind Erosion And Its Control, Drew J. Lyon, John A. Smith
G04-1537 Wind Erosion And Its Control, Drew J. Lyon, John A. Smith
University of Nebraska-Lincoln Extension: Historical Materials
This NebGuide discusses how wind erosion occurs and presents methods for reducing wind erosion on land devoted to crop production. Wind erosion is widespread on agricultural land in the Great Plains, particularly in the semi-arid regions. Wind erosion physically removes the most fertile part of the soil (organic matter, clay, and silt) and lowers soil productivity. This loss in productivity increases the costs of producing crops. Blowing soil can reduce seedling survival and growth, depress crop yields, and increase the susceptibility of plants to certain types of stress, including diseases.