Abstract
Anthropogenic processes are responsible for between 55% and 70% of the estimated 600 Tg of methane that is released annually into the atmosphere, with enteric fermentation a major contributor to emissions in a number of countries. This paper therefore reviews current levels of CH4 discharges by both animal type and country, and shows how the growth or decline in national herds over the last 20 years has significantly altered the global composition of enteric emissions. As developing countries are now responsible for almost three-quarters of such emissions, this has important implications in terms of mitigation strategies—particularly as such countries are presently outside the remit of the Kyoto Protocol.
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AGO (2002) Developing a strategic framework for greenhouse and agriculture: an issues paper. http://www.greenhouse.gov.au/agriculture/framework/. Accessed 25 June 2005
Agterbosch S, Vermeulen W, Glasbergen P (2004) Implementation of wind energy in the Netherlands: the importance of the social-institutional setting. Energy Policy 32:2049–2066
AJEA (Australian Journal of Experimental Agriculture) (2008) Greenhouse gases and animal agriculture, vol. 48, issues 1 and 2. CSIRO Publishing, Canberra (Special Issue)
Anastasi C, Simpson VJ (1993) Future methane emissions from animals. J Geophys Res 98:7181–7186
Bauman DE, Eppard PJ, DeGeeter MJ, Lanza GM (1985) Responses of high-producing dairy cows to long-term treatment with pituitary somatotrophin and recombinant somatotrophin. J Dairy Sci 68:1352–1362
Beck M, Asenova D, Dickson G (2005) Public administration, science, and risk assessment: a case study of UK bovine spongiform encephalopathy crisis. Publ Admin Rev 65(4):396–408
Blasing TJ, Jones S (2005) Current greenhouse gas concentrations. http://cdiac.esd.ornl.gov/pns/current_ghg.html. Accessed 24 June 2005
Blaxter KL, Clapperton JL (1965) Prediction of the amount of methane produced by ruminants. Br J Nutr 19:511–522
Boadi D, Benchaar C, Chiquette J, Massé D (2004) Mitigation strategies to reduce enteric methane emissions from dairy cows: update review. Can J Anim Sci 84:319–335
CAFOD (ND) Give a goat. http://worldgifts.cafod.org.uk/gifts/give_a_goat_25. Accessed 14 March 2006
Cao M, Gregson K, Marshall S (1998) Global methane emission from wetlands and its sensitivity to climate change. Atmos Environ 32:3293–3299
CCFIA (Climate Change Funding Initiative in Agriculture) (2005) Greenhouse gas emissions from Canadian agriculture: narrowing the knowledge gaps. www.carc-crac.ca/common/CCFIA%20Final%20Workshop%2001–2004%20English%20Program.pdf. Accessed 16 May 2005
Clemens J, Ahlgrimm H-J (2001) Greenhouse gases from animal husbandry: mitigation options. Nutr Cycl Agroecosyst 60:287–300
CNN (2005) Bush: Kyoto would hurt economy, July 1. http://edition.cnn.com/2005/WORLD/europe/06/30/bush.kyoto.ap/index.html. Accessed 18 July 2005
CNS News (2003) New Zealand farmers threaten rebellion over “Flatulence Tax”. 3 July, http://www.cnsnews.com/ViewPrint.asp?Page=\ForeignBureaus\archive\200307\FOR20030703a.html. Accessed 9 June 2005
Crutzen PJ, Aselmann I, Seiler W (1986) Methane production by domestic animals, wild ruminants, other herbivorous fauna, and humans. Tellus 38B:271–284
Drennan P (2002) Greenhouse gases and their implications for agriculture. http://www.fertilizer-assoc.ie/publications/5._Greenhouse_Gases_P_Drennan.pdf. Accessed 3 June 2005
EEC (1988) Large combustion plant directive. Directive 88/609/EEC
FAO (2004) The state of world fisheries and aquaculture. http://www.fao.org/DOCREP/007/y5600e/y5600e00.htm. Accessed 16 July 2005
FAO (2005) World meat supplies. www.fao.org//docrep/T0562E/T0562E08.htm. Accessed 7 July 2005
Farm Africa (2005) Dairy goat project in Uganda. www.farmafrica.org.uk. Accessed 19 April 2006
Fiddes N (1991) Meat. A natural symbol. Routledge, London
Freeman S (2008) Biological science, 3rd edition. Pearson, San Francisco
Fung I, John J, Lerner J, Matthews E, Prather M, Steele LP, Fraser PJ (1991) Three dimensional model synthesis of the global methane cycle. J Geophys Resources D7:13033–13065
GIA (Greenhouse in Agriculture) (2008) Greenhouse in agriculture. Research Newsletter No.10, March. http://www.greenhouse.unimelb.edu.au/gia.htm. Accessed 2 June 2008
Government of British Columbia (2008) B.C.’s revenue-neutral carbon tax. www.bcbudget.gov.bc.ca/2008/backgrounders/backgrounder_carbon_tax.htm. Accessed 29 May 2008
Government of Canada (2000) Action plan 2000. www.climatechange.gc.ca/english/publications/ap2000/Action_Plan_2000_en.pd. Accessed 13 March 2006
Government of Canada (2002) Climate change plan for Canada. http://www.climatechange.gc.ca/english/publications/plan_for_canada/plan/pdf/full_version.pdf. Accessed 12 March 2006
Government of Canada (2005) Moving forward on climate change: a plan for honouring our Kyoto commitment. http://www.climatechange.gc.ca/kyoto_commitments/. Accessed 6 March 2006
Government of Canada (2006) Sustainable development strategy 2007–2009. http://www.ec.gc.ca/sd-dd_consult/SDS2007/toc_e.htm. Accessed 23 May 2008
Government of Canada (2008) Taking action to fight climate change. www.ec.gc.ca/doc/virage-corner/2008–03/pdf/572_eng.pdf. Accessed 1 June 2008
Grainger C, Clarke T, Beauchemin KA, McGinn SM, Eckard RJ (2008) Supplementation with whole cottonseed reduces methane emissions and can profitably increase milk production of dairy cows offered a forage and cereal diet. Aust J Exp Econ 48(2):73–76
Gugele B, Strobel B, Taylor P (2002) Greenhouse gas emission trends and projections in Europe. European Environmental Agency Environmental Issue Report No.33, www.reteambiente.it/ra/normativa/aria/pdf/KyotoTarget.pdf. Accessed 10 June 2005
Harding GW (1998) How much of atmospheric carbon dioxide accumulation is anthropogenic? www.strom.clemson.edu/ becker/prtm320/commons/carbon3.html. Accessed 24 June 2005
Hathaway-Zepeda T (2004) Qualifying Kyoto: a warming climate and a heated debate. Harvard Int Rev 26:30–33, Spring
Hein R, Crutzen PJ, Heinmann M (1997) An inverse modeling approach to investigate the global atmospheric methane cycle. Global Biogeochem Cycles 11:43–76
Horrigan L, Lawrence RS, Walker P (2002) How sustainable agriculture can address the environmental and human health harms of industrial agriculture. Environ Health Perspect 110:445–456
Houweling S, Kaminski T, Dentener F, Lelieveld J, Heimann M (1999) Inverse modeling of methane sources and sinks using the adjoint of a global transport model. J Geophys Res 104:26137–26160
IPCC (1996) IPCC guidelines for national greenhouse inventories. http://www.ipcc-nggip.iges.or.jp/public/gl/invs1.htm. Accessed 19 July 2005
IPCC (2000) Good practice guidance and uncertainty management in national greenhouse gas inventories, IPCC. Available at: http://www.ipcc-nggip.org.jp/public/gp/english. Last accessed 6 July 2004
IPCC (2001) Climate change 2001: the scientific basis, contribution of working group I to the third assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
IPCC (2006) IPCC guidelines for national greenhouse inventories. http://www.ipcc-nggip.iges.or.jp/public/2006gl/index.html. Accessed 20 May 2008
IPCC (2007) Climate change 2007: synthesis report. http://www.ipcc.ch/pdf/assessment-report/ayr4/syr/ar4_syr_sym.pdf. Accessed 25 March 2008
Johnson KA, Johnson DE (1995) Methane emissions from cattle. J Anim Sci 73:2483–2492
Johnson DE, Ward GM (1996) Estimates of animal methane emissions. Environ Monit Assess 42:133–141
Johnson DE, Johnson KA, Ward GM, Branine ME (2000) Ruminants and other animals. In: Khalil (ed) Atmospheric methane: its role in the global environment. Springer, Berlin
Kaimovitz D, Mertens B, Wunder S, Pacheco P (2005) Hamburger connection fuels Amazon destruction, CIPR. www.cifor.cgiar.org/publications/pdf_files/media/Amazon.pdf. Accessed 24 May 2005
Kempton TJ, Leng RA (1979) Protein nutrition of growing lambs.1. Responses in growth and rumen function to supplementation of a low-protein-cellulosic diet with either urea, casein or formaldehyde-treated casein. Br J Nutr 42:289–302
Krishna G, Razdan MN, Ray SN (1978) Effect of nutrition and seasonal variations on heat and methane production in Bos. Indicus. Indian J Anim Sci 48:366–370
LA (Los Angeles) Times (2003) Getting the cows to cool it. 7 June, http://www.latimes.com/news/local/la-me-cowgas7jun07,1,7998794.story?coll=la-home-leftrail. Accessed 9 June 2005
Lassey KR (2008) Livestock methane emission and its perspective in the global methane cycle. Aust J Exp Agric 48(2):114–118
Lelieveld J, Crutzen P, Dentener F (1998) Changing concentration, lifetime and climate forcing of atmospheric methane. Tellus Ser B 50:128–150
Lerner J, Matthews E (1988) Methane emission from animals: a global high-resolution data base. Glob Biogeochem Cycles 2(2):139–156
Leslie M, Aspin M, Clark H (2008) Greenhouse gas emissions from New Zealand agriculture: issues, perspectives and industry response. Aust J Exp Agric 48(2):1–5
Lindzen RS (1990) Some coolness concerning global warming. Bull Am Meteorol Soc 71(3):288–298
Lockton D (2005) Motor vehicles in the developing world: options for sustainability. www.danlockton.co.uk/Lockton_Motor_Vehicles.pdf. Accessed 10 June 2005
Mangani F (1999) Significance of selected halocarbons monitoring in air samples collected in the Terra Nova Bay Region (Northern Victoria Land, Antarctica). Antarct Sci 11(2):261–264
MAPA (Ministerio de Agricultura, Pesca y Alimentación) (2008) Emisiones de Gases en la Ganadería (Directiva IPPC/EPER-ESPAŃA. http://www.mapa.es/es/ganaderia/pags/Emisiones_gases/pr_emisiones.htm. Accessed 14 May 2008
Margulis S (2004) Causes of deforestation of the Brazilian Amazon. World Bank, Washington DC
McAllister TA, Newbold CJ (2008) Redirecting Rumen fermentation to reduce methanogenesis. Aust J Exp Agric 48(2):7–13
Mennell S, Murcott A, Van Otterloo AH (1992) The sociology of food and eating, diet and culture. Sage, London
Migeotte MJ (1948) Spectroscopic evidence of methane in the earth’s atmosphere. Phys Rev 73:519–520
Milich L (1999) The role of methane in global warming: where might mitigation strategies be focused? Glob Environ Change 9:179–201
Mosier AR, Duxbury JM, Freney JR, Heinemeyer O, Minami K, Johnson DE (1998) Mitigating agricultural emissions of methane. Clim Change 40:39–80
Moss A (1992) Methane from ruminants in relation to global warming. Chem Ind 9:334–336
Moss AR, Jouany J-P, Newbold J (2000) Methane production by ruminants: its contribution to global warming. Ann Zootech 49:231–253
Murray RM, Bryant AM, Leng RA (1978) Methane production in the rumen and lower gut of sheep given Lucerne chaff: effect of level of intake. Br J Nutr 39:337–345
Myers N (1981) The hamburger connection: How Central America’s forests became North America’s hamburgers. Ambio 10:3–8
National Geographic News (2002) New Zealand tries to cap gaseous sheep burps. May 13, http://www.ngnews.com/news/2002/05/0509_020509_belch.html. Accessed 9 June 2005
NCCS (2000) National climate change strategy. http://www.environ.ie/DOEI/DOEIPol.nsf/0/2f96644fae717d7d80256f0f003bc7ec/$FILE/. Accessed 3 May 2005
NCCS (National Climate Change Strategy)—Ireland (2001) Progress report implementation of the national climate change strategy. www.environ.ie/DOEI/doeipub.nsf/0/7d411c497cb4fbdb80256f88003b0961/$FILE/ccrpt2%5B1%5D.pdf. Accessed 4 March 2006
New Zealand Farmers (2003) Cow burps a political farce. 2 July, http://www.federatedfarmers.com/article.php?sid=314&catid=10. Accessed 9 June 2005
Norat T, Bingham S, Ferrari P, Slimani N, Jenab M, Mazuir M, Overvad K, Olsen A, Tjonneland A, Clavel F, Boutron-Ruault MC, Kesse E, Boeing H, Bergmann MM, Nieters A, Linseisen J, Trichopoulou A, Trichopoulos D, Tountas Y, Berrino F, Palli D, Panico S, Tumino R, Vineis P, Bueno-de-Mesquita HB, Peeters PH, Engeset D, Lund E, Skeie G, Ardanaz E, Gonzalez C, Navarro C, Quiros JR, Sanchez MJ, Berglund G, Mattisson I, Hallmans G, Palmqvist R, Day NE, Khaw KT, Key TJ, San Joaquin M, Hemon B, Saracci R, Kaaks R, Riboli E (2005) Meat, fish, and colorectal cancer risk: the European Prospective investigation into cancer and nutrition. J Natl Cancer Inst 97(12):906–916
NZCCP (New Zealand Climate Change Project) (2002) Climate change: preferred policy for the agricultural sector. http://climatechange.gov.nz/resources/consultation/round2/summary-agriculture-pdf. Accessed 3 March 2006
NZIER (2005) Climate change: a guide to domestic and international policy, NZIER working paper 2005/02. www.nzier.org.nz/SITE_Default/SITE_Publications/x-files/11810.pdf. Accessed 28 June 2005
Olivier JGJ, Bouwman AF, Berdowski JJM, Veldt C, Bloos JPJ, Visschedijk AJH, van der Maas CWM, Zasndveld PYJ (1999) Sectoral emission inventories of greenhouse gases for 1990 on a per country basis as well as on 1x1. Envir Sci Policy 2:241–263
OXFAM (ND) Goat loan scheme. http://www.oxfam.org.uk/what_we_do/where_we_work/malawi/virtualvillage/goatloans.html. Accessed 25 March 2006
Ramaswamy V, Boucher O, Haigh J, Hauglustaine D, Haywood J, Myhre G, Nakajima T, Shi GY, Solomon S (2001) Radiative forcing of climate change. In: IPCC, climate change 2001: the scientific basis. Contribution of working group I to the third assessment report of the intergovernmental panel on climate change. Cambridge University Press: Cambridge.
Rosegrant MW, Leach N, Gerpacio RV (1999) Meat or wheat for the next millennium? Proc Nutr Soc 58:219–234
SAEFL (Swiss Agency for the Environment, Forests and Landscape) (ND) Reduction of energy related CO2 emissions. http://www.umwelt-schweiz.ch/buwal/eng/fachgebiete/fg_klima/politik/CO2-Red/index.html. Accessed 24 March 2005
Scheehle EA, Irving WN, Kruger D (2002) Global anthropogenic methane emissions. In: van Ham et al (eds) Non-CO2 greenhouse gases: scientific understanding, control options and policy aspects. Millpress, Rotterdam
Shindell DT, Faluvegi G, Bell N, Schmidt GA (2005) An emissions-based view of climate forcing by methane and tropospheric ozone. Geophys Res Lett 32:L04803. doi:10.1029/2004GL021900
Shu Q, Gill HS, Hennessy DW, Leng RA, Bird SH, Rowe JB (1999) Immunisation against lactic acidosis in cattle. Res Vet Sci 67:65–71
Simpson JR, Chang X, Miyazaki A (1994) China’s livestock and related agricultural projections to 2025. CAB International, Wallingford
Singhal KK, Mohini M, Jha aK, Gupta PK (2005) Methane emission estimates from enteric fermentation in Indian livestock: dry matter intake approach. Curr Sci Ind 88:119–127
Sirohi S, Michaelowa A (2004) CDM Potential in the dairy sector in India. Hamburg Institute of International Economics Discussion Paper 273, Hamburg
Smith P, Martino D, Cai Z, Gwary D, Janzen H, Kumar P, McCarl B, Ogle S, O’Mara F, Rice C, Scholes B, Sirotenko O (2007) Agriculture. In: Metz B, Davidson OR, Bosch PR, Dave R, Meyer LA (eds) Climate change 2007: mitigation. Contribution of working group III to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge
Thorpe A, Bennett E (2001) Globalisation and the sustainability of world fisheries: a view from Latin America. Marin Resour Econ 16:143–164
UNFCC (ND) The Kyoto protocol. http://unfccc.int/resource/docs/conkp/kpeng.pdf. Accessed 12 February 2005
Ulyatt MJ, Lassey KR (2000) Methane Emissions from pastoral systems: the situation in New Zealand. Presentation given at the XVI Meeting of the Archivos Latinamericanos de Producción Animal, Montevideo, March 2000. www.alpa.org.ve/ojs/include/getdoc. php?id=298&article=285&mode=pdf. Accessed 16 June 2005
UNEP (ND) The Montreal protocol on substances that deplete the ozone layer. http://unep.org/ozone/Treaties_and_Ratification/2B_montreal_protocol.asp. Last Accessed 24 February 2006
UNFCCC (United Nations Framework Convention on Climate Change) (ND) Greenhouse gas inventory data. http://ghg.unfccc.int. Accessed 14 April 2006
UNFCCC-Greece (2007) Fourth national communication under the United Nations framework convention on climate change. http://ghg.unfccc.int. Accessed 22 May 2008
UNFCCC-Ireland (2007) Fourth national communication under the United Nations framework convention on climate change. http://ghg.unfccc.int. Accessed 22 May 2008
UNFCCC-Spain (2007) Tercera Comunicación Nacional de Espańa: Convención Marco de las Naciones Unidas sobre el Cambio Climático. http://ghg.unfccc.int. Accessed 22 May 2008
Van Caeseele R (2002) Climate change and agriculture. www.climatechangeconnection.org/pdfs_ccc/Agriculture.pdf. Accessed 14 May 2005
Van der Honing Y, Wiemann BJ, Steg A, von Donselaar B (1981) The effect of fat supplementation of concentrates on digestion and utilization of energy by productive dairy cows. Neth J Agric Sci 29:79–92
Verberg PH, Denier Van Der Gon HAC (2001) Spatial and temporal dynamics of methane emissions from agricultural sources in China. Glob Chang Biol 7:31–47
White House (2002) President announces clear skies and global climate change initiative. 22 February, http://www.whitehouse.gov/news/releases/2002/02/20020212-5.html. Accessed 21 June 2005
Wright ADG, Kennedy P, O’Neill CJ, Toovey AF, Popovski S, Rea SM, Pimm CL, Klein L (2004) Reducing methane emissions in sheep by immunization against rumen methanogens. Vaccine 22:3976–3985
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Thorpe, A. Enteric fermentation and ruminant eructation: the role (and control?) of methane in the climate change debate. Climatic Change 93, 407–431 (2009). https://doi.org/10.1007/s10584-008-9506-x
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DOI: https://doi.org/10.1007/s10584-008-9506-x