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This factsheet describes the nutrient composition of poultry manure and land application techniques based on matching the nutritional requirements of the crop with the nutrients available in manure. This publication also includes a worksheet to determine the nutrient needs of your crop.
This publication discusses how excess zinc and copper from animal manure can lead to soil toxicity and harm crops in North Carolina. It covers where zinc and copper come from, potential harmful effects, and ways to prevent toxicity. Management strategies include soil testing, accurate manure application, record-keeping, and adjusting animal feed. Mitigation methods like soil turnover and pH modification are also discussed.
This publication provides basic information on animal production systems and reviews the movement of nitrogen in concentrated feeding operations for swine.
This factsheet clarifies the importance of waste analysis and describes the procedures for taking reliable samples and submitting them to the Agronomic Division of the North Carolina Department of Agriculture & Consumer Services (NCDA&CS).
Anaerobic swine lagoon sludge sampling allows operators to determine the nutrient concentration in the sludge through laboratory analysis. This publication provides information about different options for sampling sludge in these lagoons.
This publication addresses nutrient management concerns as they relate to land application of animal wastes, municipal biosolids, industrial residuals and agricultural by-products, with a focus on phosphorus application and its impact on the environment. Methods for reducing phosphorus loss from land application sites are presented as general guidance for managers of land application systems, who must be knowledgeable of regulatory issues and permit restrictions as they relate to phosphorus and nutrient management.
This publication provides guidance on applying nutrients from animal wastes on cover crops. It provides guidance on cover crop management, nitrogen credits, and application windows.
This training program is designed to provide operators of animal waste management systems with the basic understanding needed to operate and maintain these systems in an efficient and environmentally sound manner. This manual is not intended to provide all of the technical details for the complete design of a waste management system or an approved animal waste management plan.
This publication addresses application techniques that affect drift and odor problems associated with wastewater application, so that managers and designers of land application systems can make wise decisions on how to apply wastewater with minimal impact on neighbors and the environment.
This factsheet summarizes key technologies used to produce pellets from animal manures and the impact of process variables (temperature, pressure, moisture content) on the final product. The factsheet reviews key quality indices used to evaluate manure pellet quality. It also presents an overview of how scale, cost and environmental benefits, and trade-offs impact technology adoption.
Transporting livestock manure to nutrient deficient fields can often be cost prohibitive without manure processing. Pyrolysis converts manure solids into biochar resulting in significant mass and volume reduction, while retaining high nutrient value. This fact sheet introduces the basics of pyrolysis technology, discusses the benefits and end uses of manure-derived biochar, and provides an overview of cost and technology limitations.
Screw press separators can divide a single by-product stream into a solid and liquid stream to improve handling and management. These processing systems are commonly used in manure handling systems but can be used for management of many organic streams. For example, a wet digestion system that accepts food waste may also integrate the technology following anaerobic digestion. Regardless of the application, screw press separators are more efficient in removing solids from manure slurry streams (greater than four percent total solids or dry matter content) than with more dilute liquid manure streams. The systems are known to improve manure handling as well as reduce environmental impacts of livestock systems.
Manure is among the lowest methane yielding feedstocks in digesters, but it is widely used in agricultural anaerobic digestion systems due to its continuous availability in one location, its capacity to resist changes in pH, and its relatively easy integration into existing manure management systems. System types, costs, and environmental benefits are discussed.
