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Measurement of greenhouse gas emissions from agriculture: economic implications for policy and agricultural producers

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  • Thamo, Tas
  • Kingwell, Ross S.
  • Pannell, David J.

Abstract

If agriculture were to be included in Australia’s carbon price scheme, a key decision for government would be how to estimate greenhouse gas emissions. We explore the consequences of three different methods for measuring on-farm emissions: national accounting methods, an amended version of those methods and use of best-available local data. Estimated emissions under the three methods can vary widely; for example, on a case study farm in Western Australia, local data indicated 44 per cent lower emissions than did the national accounts method. If on-farm emissions are subject to an emissions price, the impact on farm profit is large and varies considerably with different measurement methods. For instance, if a price of $23/t of CO2-e applies then farm profit falls by 14.4–30.8 per cent depending on the measurement method. Thus, the choice of measurement method can have large distributional consequences. On the other hand, inaccurate measurement results in relatively minor deadweight losses. On-farm sequestration through reafforestation may lessen the impact of an emissions price on farm businesses, although it will require a high carbon price to be viable, especially if sequestration rates are underestimated or low.

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  • Thamo, Tas & Kingwell, Ross S. & Pannell, David J., 2013. "Measurement of greenhouse gas emissions from agriculture: economic implications for policy and agricultural producers," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 57(2), pages 1-19.
    • Handle: RePEc:ags:aareaj:241870
    DOI: 10.22004/ag.econ.241870
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    1. Haoyue Wu & Hanjiao Huang & Jin Tang & Wenkuan Chen & Yanqiu He, 2019. "Net Greenhouse Gas Emissions from Agriculture in China: Estimation, Spatial Correlation and Convergence," Sustainability, MDPI, vol. 11(18), pages 1-19, September.
    2. Tang, Kai & He, Chuantian & Ma, Chunbo & Wang, Dong, 2019. "Does carbon farming provide a cost-effective option to mitigate GHG emissions? Evidence from China," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 63(3), July.
    3. Tas Thamo & Donkor Addai & Marit E. Kragt & Ross S. Kingwell & David J. Pannell & Michael J. Robertson, 2019. "Climate change reduces the mitigation obtainable from sequestration in an Australian farming system," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 63(4), pages 841-865, October.
    4. Li, Kuo & Malcolm, Bill & Griffith, Garry & Kingwell, Ross, 2022. "A Model of the Southern Australian Grains Industry," Australasian Agribusiness Review, University of Melbourne, Department of Agriculture and Food Systems, vol. 30(2), April.
    5. Ghahramani, Afshin & Kingwell, Ross S. & Maraseni, Tek Narayan, 2020. "Land use change in Australian mixed crop-livestock systems as a transformative climate change adaptation," Agricultural Systems, Elsevier, vol. 180(C).
    6. Tang, Kai & Hailu, Atakelty & Kragt, Marit E. & Ma, Chunbo, 2018. "The response of broadacre mixed crop-livestock farmers to agricultural greenhouse gas abatement incentives," Agricultural Systems, Elsevier, vol. 160(C), pages 11-20.
    7. Tas Thamo & David J. Pannell & Marit E. Kragt & Michael J. Robertson & Maksym Polyakov, 2017. "Dynamics and the economics of carbon sequestration: common oversights and their implications," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 22(7), pages 1095-1111, October.
    8. Rochecouste, Jean-Francois & Dargusch, Paul & Cameron, Donald & Smith, Carl, 2015. "An analysis of the socio-economic factors influencing the adoption of conservation agriculture as a climate change mitigation activity in Australian dryland grain production," Agricultural Systems, Elsevier, vol. 135(C), pages 20-30.
    9. Ross Kingwell, 2021. "Agriculture’s carbon‐neutral challenge: The case of Western Australia," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 65(3), pages 566-595, July.
    10. Thamo, Tas & Addai, Donkor & Pannell, David J. & Robertson, Michael J. & Thomas, Dean T. & Young, John M., 2017. "Climate change impacts and farm-level adaptation: Economic analysis of a mixed cropping–livestock system," Agricultural Systems, Elsevier, vol. 150(C), pages 99-108.
    11. Dumbrell, Nikki P. & Kragt, Marit E. & Biggs, Jody & Meier, Elizabeth & Thorburn, Peter, 2015. "Climate change abatement and farm profitability analyses across agricultural environments," Working Papers 225674, University of Western Australia, School of Agricultural and Resource Economics.
    12. Michael Young & Ross Kingwell & John Young & Phil Vercoe, 2020. "An economic analysis of sheep flock structures for mixed enterprise Australian farm businesses," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 64(3), pages 677-699, July.
    13. Doole, Graeme J. & Romera, Alvaro J., 2015. "Trade-offs between profit, production, and environmental footprint on pasture-based dairy farms in the Waikato region of New Zealand," Agricultural Systems, Elsevier, vol. 141(C), pages 14-23.
    14. Young, Michael & Kingwell, Ross & Young, John & Vercoe, Phil, 2020. "An economic analysis of sheep flock structures for mixed enterprise Australian farm businesses," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 64(3), July.
    15. Shuddhasattwa Rafiq & Ruhul Salim & Nicholas Apergis, 2016. "Agriculture, trade openness and emissions: an empirical analysis and policy options," Australian Journal of Agricultural and Resource Economics, Australian Agricultural and Resource Economics Society, vol. 60(3), pages 348-365, July.

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