Coupling coordination between digital village construction and agricultural carbon emissions in China

Environ Sci Pollut Res Int. 2024 Aug;31(40):53100-53120. doi: 10.1007/s11356-024-34742-4. Epub 2024 Aug 23.

Abstract

Exploring the coupling coordination degree (CCD) between digital village construction (DVC) and agricultural carbon emissions (ACE) is crucial for promoting village revitalization and sustainable agricultural development. Analyzing data from 30 provinces in China in 2011-2020, this paper employs the CCD model, the Dagum Gini coefficient, and the geographic detector for in-depth analysis. The results show that the overall level of CCD gradually increases over time, but the national CCD still remains in a state of "low coordination," and there are apparent spatial differences in the CCD among provinces. In addition, the overall difference in CCD shows a decreasing trend, and the contribution of inter-regional differences has gradually become the most critical source of CCD's regional difference. Finally, the spatial differences of CCD are the result of two-factor interaction, among which the innovation level is the most core driving factor. The above findings provide important implications for China and other developing countries to fully leverage the interaction between village digitalization and agricultural decarbonization to promote sustainable agricultural development.

Keywords: Agricultural carbon emissions (ACE); Coupling coordination; Dagum Gini coefficient; Digital village construction (DVC); Geographic detector; Spatiotemporal pattern.

MeSH terms

  • Agriculture*
  • Carbon / analysis
  • China
  • Environmental Monitoring

Substances

  • Carbon