Greenhouse gas emissions profile for 1 kg of wool produced in the Yass Region, New South Wales: A Life Cycle Assessment approach
Philippa M. Brock A E , Phillip Graham B , Patrick Madden C and Douglas J. Alcock DA NSW Department of Primary Industries, Locked Bag 1, Nelson Bay, NSW 2315, Australia.
B NSW Department of Primary Industries, NSW, PO Box 20, Yass, NSW 2582, Australia.
C NSW Department of Primary Industries, Locked Bag 21, Orange, NSW 2800, Australia.
D NSW Department of Primary Industries, PO Box 798, Cooma, NSW 2630, Australia.
E Corresponding author. Email: pip.brock@dpi.nsw.gov.au
Animal Production Science 53(6) 495-508 https://doi.org/10.1071/AN12208
Submitted: 15 June 2012 Accepted: 14 November 2012 Published: 26 March 2013
Abstract
The use of Life Cycle Assessment (LCA) to determine environmental impacts of agricultural production, as well as production by other industry sectors has increased. LCA provides an internationally accepted method to underpin labelling and marketing of agricultural products, a valuable tool to compare emissions reduction strategies and a means to identify perverse policy outcomes. A single-issue LCA focussing on greenhouse gas emissions was conducted to determine the emissions profile and carbon footprint of 19-micron wool produced in the Yass Region on the Southern Tablelands of New South Wales. Greenhouse gas emissions (in carbon dioxide equivalents; CO2-e) from the production of all enterprise inputs and from the production of wool on-farm were included. Total emissions were found to be 24.9 kg CO2-e per kg of greasy wool at the farm gate, based on a 4941 breeding ewe enterprise on 1000 ha, with a total greasy wool yield of 65.32 t per annum. The co-products included 174 t sheep meat as liveweight from wethers and cull ewes plus 978 maiden ewes sold off-farm as replacement stock. Total emissions from all products grown on 1000 ha were 2899 t CO2-e per annum.
The relative contribution of greenhouse gas emissions from different components of the production system was determined. Direct emission of methane on-farm (86% of total) was the dominant emission, followed by nitrous oxide emitted from animal wastes directly (5%) and indirectly (5%), and decomposition of pasture residue (1%). Only 2% of total emissions were embodied in farm inputs, including fertiliser.
The emissions profile varied according to calculation method and assumptions. Enteric methane production was calculated using five recognised methods and results were found to vary by 27%. This study also showed that calculated emissions for wool production changed substantially, under an economic allocation method, by changing the enterprise emphasis from wool to meat production (41% decrease) and by changing wool price (29% variability), fibre diameter (23% variability) and fleece weight (11% variability). This paper provides data specific to the Yass Region and addresses broader methodological issues, to ensure that future livestock emissions calculations are robust.
Additional keywords: carbon footprint, methane, nitrous oxide, wool production.
References
ABARE (2010) ‘Australian commodity statistics.’ (Australian Bureau of Agricultural Resource Economics: Canberra)ALCAS NSW Chapter (2012) ‘A tale of two T-shirts – Patagonia clothing.’ (Australian Life Cycle Assessment Society: Sydney)
Alcock D, Hegarty RS (2006) Effects of pasture improvement on productivity, gross margin and methane emissions of a grazing sheep enterprise. International Congress Series 1293, 103–106.
| Effects of pasture improvement on productivity, gross margin and methane emissions of a grazing sheep enterprise.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXhs1amsbw%3D&md5=484e57925480faf8a7d70112045391a7CAS |
Alford AR, Hegarty RS, Parnell PF, Cacho OJ, Herd RM, Griffith GR (2006) The impact of breeding to reduce residual feed intake on enteric methane emissions from the Australian beef industry. Australian Journal of Experimental Agriculture 46, 813–820.
| The impact of breeding to reduce residual feed intake on enteric methane emissions from the Australian beef industry.Crossref | GoogleScholarGoogle Scholar |
Australian Farm Institute (2009) ‘FarmGAS calculator.’ (Australian Farm Institute: Canberra)
Australian Government (2007) ‘Australian methodology for the estimation of greenhouse gas emissions and sinks 2006. Agriculture.’ (National Greenhouse Gas Inventory Committee, Australian Government: Canberra)
Australian Government (2011) ‘Carbon Credits (Carbon Farming Initiative) Act 2011.’ (Australian Government: Canberra)
Australian Government (2012) ‘National Inventory Report 2010: The Australian Government Submission to the UN Framework Convention on Climate Change, April 2012.’ (Department of Climate Change and Energy Efficiency: Canberra)
Australian Wool Exchange (2011) Australian wool market indicators. AWEX. Available at http://www.awex.com.au/market-information/awex-wool-market-indicators.html [Verified 4 March 2011]
Biswas WK, Barton L, Carter D (2008) Global warming potential of wheat produced in Western Australia: a life cycle assessment. Water and Environment Journal 22, 206–216.
| Global warming potential of wheat produced in Western Australia: a life cycle assessment.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXht1Shtb7L&md5=7e3cd9b7e8ee6c170c91e41e70c0af19CAS |
Blaxter KL, Clapperton JL (1965) Prediction of the amount of methane produced by ruminants. The British Journal of Nutrition 19, 511–522.
| Prediction of the amount of methane produced by ruminants.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaF28XitFKktg%3D%3D&md5=ec3a76e9bbdd683050d21c878857d138CAS |
BoM (2012) ‘Climate statistics for Australian locations – Yass.’ (Bureau of Meteorology: Canberra) Available at http://www.bom.gov.au/climate/averages/tables/cw_070091.shtml [Verified 22 May 2012]
Brock P, Madden P, Schwenke G, Herridge D (2012a) Greenhouse gas emissions profile for 1 tonne of wheat produced in Central Zone (East) New South Wales: A Life Cycle Assessment approach. Crop and Pasture Science 63, 319–329.
| Greenhouse gas emissions profile for 1 tonne of wheat produced in Central Zone (East) New South Wales: A Life Cycle Assessment approach.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC38XptVWltLo%3D&md5=92025f60e2dc74c8ff51a4152dee44e0CAS |
Brock PM, Graham P, Herridge DF, Madden P, Schwenke GD (2012b) Determining emissions profiles for Australian agricultural products at a regional scale: methodological opportunities and obstacles. In ‘Proceedings of the 2nd LCANZ and NZLCM centre conference on Life Cycle Assessment, 28–29 March 2012, Auckland, New Zealand’. pp. 102–105. (Life Cycle Association of New Zealand and New Zealand Life Cycle Management Centre: Auckland)
Browne NA, Eckard RJ, Behrendt R, Kingwell RS (2011) A comparative analysis of on-farm greenhouse gas emissions from agricultural enterprises in south eastern Australia. Animal Feed Science and Technology 166–167, 641–652.
| A comparative analysis of on-farm greenhouse gas emissions from agricultural enterprises in south eastern Australia.Crossref | GoogleScholarGoogle Scholar |
Cruickshank GJ, Thomson BC, Muir PD (2008) Modelling management change on production efficiency and methane output within a sheep flock. Report to the Ministry of Agriculture and Fisheries, Wellington, New Zealand.
Department of Climate Change and Energy Efficiency (2012) ‘The carbon farming initiative handbook.’ (Australian Government: Canberra)
Department of Environment and Heritage Protection (2012) ‘Specialised information for land owners climate database.’ (Queensland Government: Brisbane) Available at http://www.longpaddock.qld.gov.au/silo/ [Verified 31 July 2012]
Forster P, Ramaswamy V, Artaxo P, Berntsen T, Betts R, Fahey DW, Haywood J, Lean J, Lowe DC, Myhre G, Nganga J, Prinn R, Raga G, Schulz M, Van Dorland R (2007) Changes in atmospheric constituents and in radiative forcing. In ‘Climate change 2007: the physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change’. (Eds S Solomon, D Qin, M Manning, Z Chen, M Marquis, KB Averyt, M Tignor, HL Miller) pp. 129–234. (Cambridge University Press: Cambridge)
Freer M, Moore AD, Donnelly JR (1997) GRAZPLAN: decision support systems for Australian grazing enterprises. II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS. Agricultural Systems 54, 77–126.
| GRAZPLAN: decision support systems for Australian grazing enterprises. II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS.Crossref | GoogleScholarGoogle Scholar |
Graham P (2010) ‘Bookham grazing demonstration results.’ (Department of Primary Industries: Yass, NSW)
Hatfield-Dodds S, Carwardine J, Dunlop M, Graham P, Klein C (2007) ‘Rural Australia providing climate solutions.’ Preliminary report to the Australian Agricultural Alliance on Climate Change. (CSIRO Sustainable Ecosystems: Canberra)
Hegarty RS, Alcock D, Robinson DL, Goopy JP, Vercoe PE (2010) Nutritional and flock management options to reduce methane output and methane per unit product from sheep enterprises. Animal Production Science 50, 1026–1033.
| Nutritional and flock management options to reduce methane output and methane per unit product from sheep enterprises.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhsVGrt7fJ&md5=7c6faeadd655daf9a2d3f381ab8957ccCAS |
Hischier R, Althaus HJ, Bauer CHR, Doka G, Frischknecht R, Jungbluth N, Margni M, Nemecek T, Simons A, Spielmann M (2009) ‘Docmentation of changes implemented in ecoinvent Data version 2.1. Final report ecoinvent data version 2.1. Vol. 16.’ (Swiss Centre for LCI: Dübendorf, CH)
Holmes Sackett (2011) ‘AgInsights (Vol. 13). Knowing the past: shaping the future.’ (Holmes Sackett Pty Ltd: Wagga Wagga, NSW)
Horne R, Grant T, Verghese K (2009) ‘Life Cycle Assessment – principles, practices and prospects.’ (CSIRO Publishing: Melbourne) 186 pp.
Howden SM, White DH, McKeon GM, Scanlan JC, Carter JO (1994) Methods for exploring management options to reduce greenhouse gas emissions from tropical grazing systems. Climate Change 27, 49–70.
IPCC (2006) ‘2006 IPCC Guidelines for National Greenhouse Gas Inventories.’ Prepared by the National Greenhouse Gas Inventories Programme. (Eds HS Eggleston, L Buendia, K Miwa, T Ngara, K Tanabe) (IGES: Hayama, Japan)
ISO (2011) ‘Draft ISO Standard 14067. Carbon footprint of products – requirements and guidelines for quantification and communication.’ (International Organisation for Standardisation: Geneva, Switzerland)
Martin SJ, Atkins KD, Semple SJ, Sladek MA, Thackeray RH, Staines JM, Casey AE, Graham RP, Russell AJ (2010) ‘Merino bloodlines: the comparisons 1999–2010.’ Primefact 930. (Department of Industry and Investment NSW: Orange)
Meat and Livestock Australia (2011) National livestock reporting service. Weekly Liveststock Report. MLA. Available at http://www.mla.com.au/Prices-and-markets [Verified 4 March 2011]
Ministry of Ecology, Sustainable Development, Transport and Housing (2010) Grenelle 2 law. Available at http://www.developpement-durable.gouv.fr/IMG/pdf/Grenelle_Loi-2_GB_.pdf [Verified 31 July 2012]
Ministry of Primary Industries NZ (2011) Agriculture and the emissions trading scheme. Available at http://www.mpi.govt.nz/agriculture/agriculture-ets/ [Verified 31 July 2012]
Moore AD, Donnelly JR, Freer M (1997) GRAZPLAN: decision support systems for Australian grazing enterprises. III. Growth and soil moisture submodels, and the GrassGro DSS. Agricultural Systems 55, 535–582.
| GRAZPLAN: decision support systems for Australian grazing enterprises. III. Growth and soil moisture submodels, and the GrassGro DSS.Crossref | GoogleScholarGoogle Scholar |
Narayanaswamy V, Altham J, Van Berkel R, McGregor M (2004) ‘Environmental Life Cycle Assessment (LCA) case studies for Western Australian grain products. Grains Research and Development Corporation.’ (Curtin University of Technology: Perth)
PAS (2008) ‘PAS 2050. Specification for the assessment of the life cycle greenhouse gas emissions of goods and services.’ (British Standards Institution: London) Available at http://www.bsigroup.com/en/Standards-and-Publications/Industry-Sectors/Energy/PAS-2050/ [Verified 22 December 2012]
RMIT (Royal Melbourne Institute of Technology) (2005) ‘Australasian LCA database 2005.’ (Centre for Design, RMIT: Melbourne)
Salam MU, Riethmuller GP, Maling T, Short N, Bowling J, Fisher JS (2010) ‘Farm fuel calculator.’ (Rural Industries Research and Development Corporation: Canberra)
Schwenke G, Haigh B, McMullen G, Herridge D (2010) Soil nitrous oxide emissions under dryland N-fertilised canola and N2-fixing chickpea in the northern grains region, Australia. In ‘19th world congress of soil science, soil solutions for a changing world. 1–6 August 2010, Brisbane, Australia’. (Eds RJ Gilkes, N Prakongkep) pp. 228–231. (International Union of Soil Sciences)
SimaPro (2011) ‘Version 7.3.’ (PRe Consultants: Amersfoort, The Netherlands)
Simpson R, Salmon L, Graham P, Donnelly J, Marshall D, Stefanski A (2006) ‘Using GrassGro to set benchmarks for districts and farms within a district.’ Final report to Australian Wool Innovation Limited, 2 January 2006. Project EC 245. (CSIRO Plant Industries, Canberra and NSW Department of Primary Industries: Orange, NSW)
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 ‘Climate change 2007: mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change’. (Eds B Metz, OR Davidson, PR Bosch, R Dave, LA Meyer) pp. 497–540. (Cambridge University Press: Cambridge)
Unkovich M, Baldock J, Peoples M (2010) Prospects and problems of simple linear models for estimating symbiotic N2 fixation by crop and pasture legumes. Plant and Soil 329, 75–89.
| Prospects and problems of simple linear models for estimating symbiotic N2 fixation by crop and pasture legumes.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXjtFGluro%3D&md5=dbf97f156c7c0d1bf0eba9ad8bf4a025CAS |
USDA (2011) Fact finders for agriculture. Sheep and goats. Available at http://usda.mannlib.cornell.edu/usda/nass/SheeGoat//2010s/2011/SheeGoat-01-28-2011.pdf [Verified 1 November 2011]
US EPA (2008) ‘Inventory of US greenhouse gas emissions and sinks: 1990–2006.’ (US EPA: Washington, DC)
Weidemann S, McGahan E, Grist S, Grant T (2010) ‘Environmental assessment of two pork supply chains using Life Cycle Assessment.’ (Rural Industries Research and Development Corporation: Canberra)