章楠楠, 徐皓帆, 李志文, 李婷, 谢邵文, 刘淑娟, 徐丹, 周衍波, 周红艺. 基于机器学习的广东省县域农业碳排放时空演变及驱动因素研究[J]. 中国生态农业学报 (中英文), 2024, 32(12): 1−14. DOI: 10.12357/cjea.20240267
引用本文: 章楠楠, 徐皓帆, 李志文, 李婷, 谢邵文, 刘淑娟, 徐丹, 周衍波, 周红艺. 基于机器学习的广东省县域农业碳排放时空演变及驱动因素研究[J]. 中国生态农业学报 (中英文), 2024, 32(12): 1−14. DOI: 10.12357/cjea.20240267
ZHANG N N, XU H F, LI Z W, LI T, XIE S W, LIU S J, XU D, ZHOU Y B, ZHOU H Y. Spatiotemporal evolution and driving factors of agricultural carbon emissions at county level in Guangdong Province based on machine learning[J]. Chinese Journal of Eco-Agriculture, 2024, 32(12): 1−14. DOI: 10.12357/cjea.20240267
Citation: ZHANG N N, XU H F, LI Z W, LI T, XIE S W, LIU S J, XU D, ZHOU Y B, ZHOU H Y. Spatiotemporal evolution and driving factors of agricultural carbon emissions at county level in Guangdong Province based on machine learning[J]. Chinese Journal of Eco-Agriculture, 2024, 32(12): 1−14. DOI: 10.12357/cjea.20240267

基于机器学习的广东省县域农业碳排放时空演变及驱动因素研究

Spatiotemporal evolution and driving factors of agricultural carbon emissions at county level in Guangdong Province based on machine learning

  • 摘要: 县域是深入剖析农业碳排放和城镇化关系的基本地域单元, 研究县域尺度农业碳排放的时空演变趋势和驱动机制对农村绿色低碳发展和乡村振兴具有重要指导意义。为明确广东省县域尺度农业碳排放的时空演变规律及其驱动机制, 本文基于最新排放清单系统测算了2000—2022年广东省124个县域(市、区)农业碳排放量, 并结合GIS局部空间自相关和随机森林(RF)机器学习算法协同识别了县域农业碳排放的时空演变格局及其核心驱动因素。结果表明: 1)广东省农业碳排放量整体呈波动下降趋势, 在县域尺度下具有明显的时空异质性, 且珠三角地区>粤西地区>粤东地区>粤北地区; 2) GIS局部空间自相关揭示了广东省县域农业碳排放的空间集聚特征, 高值聚类区出现在粤西地区, 低值聚类区集中于珠三角核心区域, 各区域内部集聚程度呈持续上升趋势; 3)人均农业碳排放和总量具有明显区别, 高值聚类区主要出现在粤北地区, 低值聚类区集中在珠三角地区, 具有“空间溢出”效应; 4)基于Pearson相关性分析筛选后的农业指标所构建的RF模型的变量重要性排名表明, 土地翻耕、化肥和农药使用量以及农业机械总动力是广东省农业碳排放的主要来源, 其中化肥和农药使用量的负向贡献比逐步降低, 而农业机械化程度的提高则是广东省农业碳排放减少的正向驱动因素。本研究结果可为区域农业碳减排和绿色低碳发展提供政策依据和定量研究工具。

     

    Abstract: The county level serves as a fundamental regional unit for in-depth analysis of the relationships between agricultural carbon emissions and urbanization. Understanding the spatiotemporal evolution and driving mechanisms of agricultural carbon emissions at the county level is crucial for guiding green and low-carbon development in rural areas and advancing rural revitalization efforts. This study aims to elucidate the spatiotemporal evolution patterns and driving factors of county-level agricultural carbon emissions in Guangdong Province from 2000 to 2022. Using the latest emission inventory system, this study systematically calculated the agricultural carbon emissions for 124 counties (districts) in Guangdong Province. By integrating the GIS and machine learning technique including local spatial autocorrelation analysis and the random forest (RF) algorithm, we collaboratively identified the key driving factors and spatiotemporal evolution patterns of agricultural carbon emissions at the county level. The results are shown as follows: 1) the overall agricultural carbon emissions in Guangdong Province exhibited a fluctuating downward trend over the study period, with obvious spatiotemporal heterogeneity observed at the county level. The emissions hierarchy, from highest to lowest, was Pearl River Delta > Western Guangdong > Eastern Guangdong > Northern Guangdong; 2) Geographic Information System (GIS)-based local spatial autocorrelation analysis revealed distinct spatial clustering characteristics of agricultural carbon emissions. High-value clusters were predominantly located in Western Guangdong, whereas low-value clusters were concentrated in the core area of the Pearl River Delta. Notably, the degree of internal clustering within each region showed a continuous upward trend over time; 3) a notable distinction between per capita agricultural carbon emissions and total emissions was observed, with high-value per capita emissions clusters appeared mainly in Northern Guangdong, while low-value clusters were concentrated in the Pearl River Delta, indicating a “spatial spillover” effect where emissions in densely populated urban areas impact surrounding regions; 4) the random forest (RF) model, constructed using agricultural indicators selected through Pearson correlation analysis, identified the primary factors influencing agricultural carbon emissions. These included land ploughing, the usage of fertilizers and pesticides, and total agricultural machinery power. Among these indicators, the contribution ratio of fertilizer and pesticide usage showed a gradual decrease, while the advancement of agricultural mechanization emerged as a positive driving factor in reducing agricultural carbon emissions. The results of this study highlight the complexity and regional variability of agricultural carbon emissions in Guangdong Province, and the integration of local spatial autocorrelation and RF algorithms provides a robust analytical framework for understanding these dynamics. In addition, this research offers valuable policy insights and quantitative tools for regional agricultural carbon emission reduction and promotes green and low-carbon development strategies. Overall, our findings underscore the importance of targeted, region-specific policies to address the unique challenges and opportunities within different areas of Guangdong Province. By leveraging advanced analytical techniques and comprehensive data sets, policymakers can better understand and mitigate the factors driving agricultural carbon emissions, paving the way for sustainable and environmentally friendly agricultural practices.

     

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