Research on the spatiotemporal differentiation pattern and emission reduction optimization path of carbon emissions in the Jingjinji region
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"Research on the Performance Evaluation System of Low-carbon Agriculture Development in Beijing-Tianjin-Hebei Region Based on the Spatial and Temporal Differentiation Pattern of Carbon Research" of Young Teachers of Beijing University of Agriculture

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    Abstract:

    [Purpose] The proposal of the dual carbon target has put forward higher requirements for the development of agriculture in China. This study takes the Beijing Tianjin Hebei region as the research object, divides the region into six major agricultural regions based on agricultural carbon emissions, and proposes corresponding emission reduction optimization paths, aiming to provide policy recommendations for the development of low-carbon agriculture in the Beijing Tianjin Hebei region Method: This study calculated agricultural carbon emissions based on the IPCC guidelines, and used trend analysis to study the linear changes in agricultural carbon emissions in the Beijing Tianjin Hebei region. ArcGIS breakpoint analysis and kernel density method were used to analyze the spatial evolution trends of the six major agricultural regions in the Beijing Tianjin Hebei region The study found that, in terms of time, the overall carbon emissions and carbon intensity of agriculture in the Beijing Tianjin Hebei region have shown a downward trend, especially the carbon emission intensity, which has been rapidly decreasing since 2005. Compared with the whole country, although the proportion of total agricultural carbon emissions is small, the carbon emission intensity is higher than the national level, with the highest carbon emission levels in the Bashang Agricultural Zone and the Jinan Agricultural Zone. From a spatial perspective, the northern part of the Bashang Agricultural Area, far from Beijing and Tianjin, as well as some counties in the Central Plains and Southern Hebei Agricultural Areas, have higher carbon emission intensity. However, the suburban agricultural area of Beijing and Tianjin, as well as the southern part of the adjacent Bashang Agricultural Area, maintain a light and low emission state. In addition, according to the results of nuclear density analysis, the overall carbon emission intensity of the six major agricultural regions is decreasing, with a greater degree of internal differentiation in carbon emission intensity between the Beijing Tianjin suburban agricultural region and the Hebei Central Plain agricultural region Conclusion: Based on the research results, an optimization path for carbon reduction in the Beijing Tianjin Hebei region is proposed from four aspects: agricultural positioning, resource sharing, carbon reduction and sink enhancement, and cross industry cooperation.

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    [22] ????????????? 方方. 京津冀地区农业生产效率的时空格局及收敛性研究 [J]. 世界地理研究, 2019, 28(5): 11.Research on the Optimization Path of Agricultural Carbon Emission Reduction in Jingjinji Based on the Spatial and Temporal Differentiation Pattern of Carbon EmissionSONG Yi-miao1,LI Ang2, LI Ruifen 1*(1.Beijing University of Agriculture, Beijing 102206, China;2.North China Electric Power University, Beijing, 102206)Abstract [Purpose ] As the capital economic circle, the agricultural low-carbon development in the Beijing-Tianjin-Hebei region plays an important leading role. Understanding the characteristics and laws of agricultural carbon emissions in the Beijing-Tianjin-Hebei region is of great significance for achieving agricultural carbon neutrality. [Methods] This study measured agricultural carbon emissions in the Beijing Tianjin Hebei region from 2000 to 2020, and divided six agricultural regions based on the spatial and temporal characteristics of carbon emissions, exploring the evolution of carbon emission intensity in each agricultural region. [Results and Conclusion] Based on the evolution law and agricultural function positioning, the optimal path for agricultural carbon emission reduction in the Beijing-Tianjin-Hebei region is proposed.Keywords Carbon emissions; Agriculture; Beijing Tianjin Hebei; Optimize the path
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History
  • Received:August 18,2023
  • Revised:February 01,2024
  • Adopted:February 02,2024