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Recycling of Nitrogen Through Land Application of Agricultural, Food Processing, and Municipal Wastes

2013; Linguagem: Inglês

10.2134/agronmonogr22.c21

2156-3276

J. H. Smith, J. R. Peterson,

Agriculture, Soil, Plant Science

Recycling of Nitrogen Through Land Application of Agricultural, Food Processing, and Municipal Wastes J.H. Smith, J.H. Smith Research & Development Laboratory, Metropolitan Sanitary District of Greater Chicago, Cicero, IllinoisSearch for more papers by this authorJ.R. Peterson, J.R. Peterson Snake River Conservation Research Center, Agricultural Research Service, USDA, Kimberly, IdahoSearch for more papers by this author J.H. Smith, J.H. Smith Research & Development Laboratory, Metropolitan Sanitary District of Greater Chicago, Cicero, IllinoisSearch for more papers by this authorJ.R. Peterson, J.R. Peterson Snake River Conservation Research Center, Agricultural Research Service, USDA, Kimberly, IdahoSearch for more papers by this author Book Editor(s):Frank J. Stevenson, Frank J. StevensonSearch for more papers by this author First published: 01 January 1982 https://doi.org/10.2134/agronmonogr22.c21Citations: 4Book Series:Agronomy Monographs AboutPDFPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShareShare a linkShare onEmailFacebookTwitterLinkedInRedditWechat Summary Crop residues, animal, municipal, and food processing wastes are among the many materials applied to soil as fertilizer or for disposal. This chapter summarizes and evaluates available information on the value and management of agricultural, food processing, and municipal wastes as they are applied to land for N fertilization of growing crops. The chapter discusses few animal waste disposal related experiments that point out the problems associated with NO3 - leaching. Crop residues containing <1.5% N are considered deficient in N and will lead to depletion of available forms of soil N during decomposition. Almost all food processing waste effluents may be used for irrigating agricultural land to supply water and nutrients for growing crops. Nitrogen mineralization in sewage sludge is relatively slow compared with municipal effluents and other waste materials. The recycling-reuse concept is more important with developing energy shortages and increased fertilizer cost. Literature Cited Adriano, D. C., A. C. Chang, and R. Sharpless. 1974a. Nitrogen loss from manure as influenced by moisture and temperature. J. Environ. Qual. 3: 258–261. 10.2134/jeq1974.00472425000300030015x Web of Science®Google Scholar Adriano, D. C., A. E. Erickson, A. R. Wolcott, and B. G. Ellis. 1974b. Certain environmental problems associated with longterm land disposal of food processing wastes. p. 222–244. Google Scholar Adriano, D. C., L. T. Novak, A. E. Erickson, A. R. Wolcott, and B. G. Ellis. 1975. 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