Manure management: Implications for greenhouse gas emissions

Slurry, farmyard manure and poultry manure are an inevitable consequence of livestock products generated from housed animals. These manures are recycled back to land for plants to use the nutrients they contain. However, since they contain inorganic N, microbially available sources of C and water, t...

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Veröffentlicht in:	Animal feed science and technology 2011-06, Vol.166, p.514-531
Hauptverfasser:	Chadwick, Dave, Sommer, Sven, Thorman, Rachel, Fangueiro, David, Cardenas, Laura, Amon, Barbara, Misselbrook, Tom
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Sprache:	eng
Schlagworte:	Animal feeds Animal productions Biological and medical sciences denitrification developing countries embryophytes farm management Feed and pet food industries feeds Food industries foods Fundamental and applied biological sciences. Psychology greenhouse gas emissions greenhouse gases issues and policy Land application livestock Livestock buildings Manure manure spreading Methane methane production Mitigation nitrification Nitrous oxide nutrients oxidation poultry manure researchers slurries Storage Terrestrial animal productions Treatment Vertebrates water temperature
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creator	Chadwick, Dave Sommer, Sven Thorman, Rachel Fangueiro, David Cardenas, Laura Amon, Barbara Misselbrook, Tom
description	Slurry, farmyard manure and poultry manure are an inevitable consequence of livestock products generated from housed animals. These manures are recycled back to land for plants to use the nutrients they contain. However, since they contain inorganic N, microbially available sources of C and water, they provide the essential substrates required for the microbial production of N₂O and CH₄. These greenhouse gases can be produced and emitted at each stage of the ‘manure management continuum', being the livestock building, manure stores, manure treatment and manure spreading to land. The contribution that manure management makes to total national agricultural emissions of N₂O and CH₄ vary, but can exceed 50% in countries reporting to the UNFCCC in 2009. On farm management decisions interact with environmental controls such as temperature and water availability of key microbial processes (i.e., nitrification, denitrification, methanogenesis, CH₄ oxidation), affecting the magnitude of emissions from each stage of the manure management continuum. We review the current understanding of how manure management influences direct and indirect N₂O emissions and CH₄ emissions, introduce new data comparing direct N₂O emissions following spreading of a range of manure types by different methods, and highlight some of the mitigations being considered by researchers and policy makers in developed and developing countries. This article is part of the special issue entitled: Greenhouse Gases in Animal Agriculture - Finding a Balance between Food and Emissions, Guest Edited by T.A. McAllister, Section Guest Editors; K.A. Beauchemin, X. Hao, S. McGinn and Editor for Animal Feed Science and Technology, P.H. Robinson.
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subjects	Animal feeds Animal productions Biological and medical sciences denitrification developing countries embryophytes farm management Feed and pet food industries feeds Food industries foods Fundamental and applied biological sciences. Psychology greenhouse gas emissions greenhouse gases issues and policy Land application livestock Livestock buildings Manure manure spreading Methane methane production Mitigation nitrification Nitrous oxide nutrients oxidation poultry manure researchers slurries Storage Terrestrial animal productions Treatment Vertebrates water temperature
title	Manure management: Implications for greenhouse gas emissions
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