Greenhouse gas mitigation in Chinese agriculture: distinguishing technical and economic potentials

W Wang, F Koslowski, DR Nayak, P Smith, E Saetnan, X Ju, L Guo, G Han, C de Perthuis, E Lin, D Moran

Research output: Contribution to journalArticle

42 Citations (Scopus)

Abstract

China is now the world’s biggest annual emitter of greenhouse gases with 7467 million tons (Mt) carbon dioxide equivalent (CO2e) in 2005, with agriculture accounting for 11% of this total. As elsewhere, agricultural emissions mitigation policy in China faces a range of challenges due to the biophysical complexity and heterogeneity of farming systems, as well as other socioeconomic barriers. Existing research has contributed to improving our understanding of the technical potential of mitigation measures in this sector (i.e. what works). But for policy purposes it is important to convert these measures into a feasible economic potential, which provides a perspective on whether agricultural emissions reduction (measures) are low cost relative to mitigation measures and overall potential offered by other sectors of the economy. We develop a bottom-up marginal abatement cost curve (MACC) representing the cost of mitigation measures applicable in addition to business-as-usual agricultural practices. The MACC results demonstrate that while the sector offers a maximum technical potential of 402 MtCO2e in 2020, a reduction of 135 MtCO2e is potentially available at zero or negative cost (i.e. a cost saving), and 176 MtCO2e (approximately 44% of the total) can be abated at a cost below a threshold carbon price ¥ 100 (approximately s12) per tCO2e. Our findings highlight the relative cost effectiveness of nitrogen fertilizer and manure best management practices, and animal breeding practices. We outline the assumptions underlying MACC construction and discuss some scientific, socioeconomic and institutional barriers to realizing the indicated levels of mitigation. 2014 Elsevier Ltd. All rights reserved.
Original languageEnglish
Pages (from-to)53 - 62
Number of pages10
JournalGlobal Environmental Change
Volume26
DOIs
Publication statusFirst published - 2014

Fingerprint

abatement cost
greenhouse gas
mitigation
agriculture
economics
cost
agricultural emission
best management practice
farming system
manure
fertilizer
animal
nitrogen
carbon
policy
mitigation measure
socioeconomics

Bibliographical note

1023515

Keywords

  • Agriculture
  • China
  • Climate change
  • Greenhouse gas mitigation
  • Marginal abatement cost curve (MACC)

Cite this

Wang, W ; Koslowski, F ; Nayak, DR ; Smith, P ; Saetnan, E ; Ju, X ; Guo, L ; Han, G ; de Perthuis, C ; Lin, E ; Moran, D. / Greenhouse gas mitigation in Chinese agriculture: distinguishing technical and economic potentials. In: Global Environmental Change. 2014 ; Vol. 26. pp. 53 - 62.
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Wang, W, Koslowski, F, Nayak, DR, Smith, P, Saetnan, E, Ju, X, Guo, L, Han, G, de Perthuis, C, Lin, E & Moran, D 2014, 'Greenhouse gas mitigation in Chinese agriculture: distinguishing technical and economic potentials', Global Environmental Change, vol. 26, pp. 53 - 62. https://doi.org/10.1016/j.gloenvcha.2014.03.008

Greenhouse gas mitigation in Chinese agriculture: distinguishing technical and economic potentials. / Wang, W; Koslowski, F; Nayak, DR; Smith, P; Saetnan, E; Ju, X; Guo, L; Han, G; de Perthuis, C; Lin, E; Moran, D.

In: Global Environmental Change, Vol. 26, 2014, p. 53 - 62.

Research output: Contribution to journalArticle

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AU - Wang, W

AU - Koslowski, F

AU - Nayak, DR

AU - Smith, P

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AU - Ju, X

AU - Guo, L

AU - Han, G

AU - de Perthuis, C

AU - Lin, E

AU - Moran, D

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AB - China is now the world’s biggest annual emitter of greenhouse gases with 7467 million tons (Mt) carbon dioxide equivalent (CO2e) in 2005, with agriculture accounting for 11% of this total. As elsewhere, agricultural emissions mitigation policy in China faces a range of challenges due to the biophysical complexity and heterogeneity of farming systems, as well as other socioeconomic barriers. Existing research has contributed to improving our understanding of the technical potential of mitigation measures in this sector (i.e. what works). But for policy purposes it is important to convert these measures into a feasible economic potential, which provides a perspective on whether agricultural emissions reduction (measures) are low cost relative to mitigation measures and overall potential offered by other sectors of the economy. We develop a bottom-up marginal abatement cost curve (MACC) representing the cost of mitigation measures applicable in addition to business-as-usual agricultural practices. The MACC results demonstrate that while the sector offers a maximum technical potential of 402 MtCO2e in 2020, a reduction of 135 MtCO2e is potentially available at zero or negative cost (i.e. a cost saving), and 176 MtCO2e (approximately 44% of the total) can be abated at a cost below a threshold carbon price ¥ 100 (approximately s12) per tCO2e. Our findings highlight the relative cost effectiveness of nitrogen fertilizer and manure best management practices, and animal breeding practices. We outline the assumptions underlying MACC construction and discuss some scientific, socioeconomic and institutional barriers to realizing the indicated levels of mitigation. 2014 Elsevier Ltd. All rights reserved.

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