4.6 Article

Driving factors of direct greenhouse gas emissions from China's pig industry from 1976 to 2016

Journal

JOURNAL OF INTEGRATIVE AGRICULTURE
Volume 20, Issue 1, Pages 319-329

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/S2095-3119(20)63425-6

Keywords

livestock production; carbon emissions; manure management; pig farming; LMDI decomposition

Funding

  1. National Social Science Fund of China [16CJL035]
  2. China Scholarship Council Program for Visiting Scholars

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Livestock cultivation, particularly pork production, in China contributes significantly to global greenhouse gas emissions. Factors such as structural adjustment in agriculture, growing affluence, and population growth have led to an increase in emissions, while technological progress and changes in animal husbandry practices have mitigated them. Further technological improvements and economic optimizations are crucial for reducing emissions in China's pig industry.
Livestock cultivation is a significant source of greenhouse gas (GHG) emissions, accounting for 14.5% of the total anthropogenic emissions. China is responsible for a considerable share of the global livestock emissions, particularly caused by pork production. We used the Kaya identity and the logarithmic mean Divisia index (LMDI) to decompose the national annual GHG emissions from enteric fermentation and manure management in pig farming in China from 1976 to 2016. We decomposed the sources of the emissions into five driving factors: (1) technological progress (e.g., feed improvement); (2) structural adjustment in the livestock sector; (3) structural adjustment in agriculture; (4) affluence; and (5) population growth. The results showed that the net GHG emissions from the pig sector in China increased 16 million tons (Mt) of carbon dioxide equivalents (CO(2)eq) during the study period. The decomposition analysis revealed that structural adjustment in agriculture, growing affluence, and population growth contributed to an increase of the GHG emissions of pork production by 23, 41, and 13 Mt CO(2)eq, respectively. The technological progress and structural changes in animal husbandry mitigated emissions by -51 and -11 Mt CO(2)eq, respectively. Further technological progress in pig production and optimizing the economic structures are critical for further reducing GHG emissions in China's pig industry. Our results highlight the dominant role of technological changes for emission reductions in the pig farming.

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