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An analysis of the socio-economic factors influencing the adoption of conservation agriculture as a climate change mitigation activity in Australian dryland grain production

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  • Rochecouste, Jean-Francois
  • Dargusch, Paul
  • Cameron, Donald
  • Smith, Carl

Abstract

The cropping sector in Australia contributes 2.5% of national greenhouse gas emissions, not accounting for the historical loss of soil carbon. The Australian Government is developing policy initiatives targeted at farmers to encourage changes in management practices that aim to reduce emissions from the agricultural sector. The main policy proposal being developed is a market-based mechanism to pay farmers from an Emissions Reduction Fund using methodologies specified under the Australian Carbon Farming Initiative. The adoption of conservation agriculture practices in the dryland grain sector in Australia shows the potential to achieve emissions reductions in the order of three million tCO2e annually. This paper presents a series of systems models that describe the process of how Australian dryland grain farmers decide to change and adopt conservation agriculture practices. Results indicate that a number of economic and social factors drive the rate of practice change, and change seems to be motivated mostly by the pursuit of productivity benefits rather than environmental benefits. We postulate that it may be more effective for climate policy to directly target the adoption of conservation agriculture practices amongst Australian dryland grain farmers by promoting the crop productivity benefits likely to be achieved by such practices, rather than attempting to develop a market-based mechanism for carbon payments. Under this approach, emissions reduction outcomes and carbon payments would not be the primary driver for changing farming practices, but rather a concurrent benefit.

Suggested Citation

  • 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.
    • Handle: RePEc:eee:agisys:v:135:y:2015:i:c:p:20-30
    DOI: 10.1016/j.agsy.2014.12.002
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    2. Fan, Lingling & Chen, Shi & Liang, Shefang & Sun, Xiao & Chen, Hao & You, Liangzhi & Wu, Wenbin & Sun, Jing & Yang, Peng, 2020. "Assessing long-term spatial movement of wheat area across China," Agricultural Systems, Elsevier, vol. 185(C).
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    4. Kobos, Peter H. & Malczynski, Leonard A. & Walker, La Tonya N. & Borns, David J. & Klise, Geoffrey T., 2018. "Timing is everything: A technology transition framework for regulatory and market readiness levels," Technological Forecasting and Social Change, Elsevier, vol. 137(C), pages 211-225.
    5. Sandra Cortes Acosta & David Fleming & Loic Henry & Edmund Lou & Sally Owen & Bruce Small, 2019. "Identifying barriers to adoption of “no-cost” greenhouse gas mitigation practices in pastoral systems," Working Papers 19_10, Motu Economic and Public Policy Research.
    6. Lulu He & Qingwen Min & Chuanchun Hong & Yongxun Zhang, 2021. "Features and Socio-Economic Sustainability of Traditional Chestnut Forestry Landscape in China: A Case of Kuancheng County, Hebei Province," Land, MDPI, vol. 10(9), pages 1-18, September.
    7. Yang Guo & Meiling Cui & Zhigang Xu, 2023. "Spatial Characteristics of Transfer Plots and Conservation Tillage Technology Adoption: Evidence from a Survey of Four Provinces in China," Agriculture, MDPI, vol. 13(8), pages 1-15, August.
    8. Andrea Byfuglien & Valborg Kvakkestad & Stefania Innocenti, 2025. "Mitigation and adaptation in agriculture: effects of framing on farmers’ policy support and sustainable practices," Climatic Change, Springer, vol. 178(4), pages 1-22, April.

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