1. 中国耕地利用净碳汇时空演进及综合分区.
- Author
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李 强, 高 威, 魏建飞, 姜志法, 张 杨, and 吕军骁
- Subjects
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PROBABILITY density function , *CARBON cycle , *LAND use , *CARBON emissions , *SUSTAINABLE agriculture - Abstract
: Net carbon sink from land-use change has been one of the most important factors on the process of cultivated land use. The comprehensive zoning optimization of cultivated land use can be an effective way to realize the green and sustainable development of agriculture and improve the net carbon sink level of cultivated land use in China. A theoretical basis can also be provided for the protection of cultivated land at the national level, and the optimal allocation of cultivated land resources. In this study, the trend of net carbon sink of cultivated land use was estimated in 31 Provinces (cities and districts) in China from 2005 to 2020, particularly from the perspective of carbon source and carbon sink of cultivated land use. The dynamic evolution and interval difference were analyzed using Kernel density estimation. The decoupling effect was also established between the net carbon emission of cultivated land and agricultural economy. After that, the comprehensive zoning of cultivated land use was optimized to combine with the decoupling and characteristics in the main grain producing areas. A Grey Model (GM) was utilized to predict the change trend and decoupling status of net carbon sink in each comprehensive zoning from 2021 to 2035. The results showed that: 1) There was a fluctuating upward trend for the net carbon sink of cultivated land use, with an average annual growth rate of 3.740% in the study period. The spatial difference of carbon sink capacity was much better in the main grain producing areas, compared with the rest. 2) Kernel density estimation shows that the regional gap of net carbon sink of cultivated land use was gradually narrowing. However, there was still a regional imbalance. The main grain producing areas, the balance of production and marketing areas, and the main sales areas all showed a trend of diffusion to the high-value carbon sink areas. 3) There was the mainly strong decoupling between the net carbon emissions from the cultivated land use and agricultural economy in the study period. A comprehensive zone was achieved for the coordination of economic and ecological benefits in the most provinces (cities and districts), except for Beijing, Shanghai, Guangdong and Hainan in 2020. 4) The GM predicted that the carbon sink capacity of cultivated land use would maintain a steady growth from 2021 to 2035, and there was the strong decoupling status of each comprehensive zone. Consequently, it is very feasible for the unification of economic and ecological benefits in the future cultivated land use. The finding can also provide a strong reference and guidance for the “double carbon” goal in the field of cultivated land. Finally, the targeted optimization strategies and directions can be greatly contribute to the coordinated development of economic and ecological benefits of cultivated land use in the whole country and various comprehensive divisions, in order to achieve low-carbon, green, and high-quality development of cultivated land use. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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