On the Realization of Double Carbon Goal from the Perspective of Cultivated Land Quality Protection


  • Risheng Li




Cultivated land quality, Double carbon, Reduce carbon emissions, Increase soil carbon sink.


Since the revolution, the greenhouse gases produced by human activities have gradually increased, and the greenhouse effect has gradually strengthened, resulting in a series of environmental problems such as climate warming, glacier melting and sea level rise. China's peak carbon dioxide emissions and carbon neutral strategy is not only a major demand for global climate control, protecting the earth's homeland and building Community of Shared Future for Mankind, but also an inherent demand for China's high-quality development, ecological civilization construction and comprehensive management of ecological environment. The two fundamental ways to realize the carbon-neutral strategy of China are "reducing emissions" and "increasing exchange".


Cheng Kun, Pan Genxing. Agriculture and carbon neutrality [J]. Science, 2021,73 (6):8-12.

Gong Zitong, Chen Hongzhao, Zhang Ganlin. Silent soil [M]. Beijing: Science.Edition, 2015: 12.

Qiu Zijian, Jin Hongmei, Gao Nan, et al. Time series characteristics and trend prediction of agricultural carbon emissions in Jiangsu Province [J/OL]. Journal of Agricultural Environmental Sciences, https://KNS. cnki.net/kcms/detail/12.1347.S.20211019.1154.003. HTML.

Xu Pingping, Zhao Yanwen, Chen Haoming, et al. Carbon of Farmland Ecosystem in Jiangsu Province Dynamic changes of source/sink and carbon footprint [J]. Bulletin of Soil and Water Conservation, 2018,38(5):238-243.

Yan Xiaoyuan, Xia Longlong, Qi Chaopu. Nitrogen fertilizer application strategy for win-win situation of crop yield and environment [J]. Proceedings of China Academy of Sciences, 2018,33 (2): 177-183.

Lu Yufang, Shi Weiming. Research progress and agricultural application prospect of biological nitrification inhibitors [J]. Journal of Soil Science, 2021,58 (6): 545-557.

Xia Yongqiu, Wang Shenqiang, Sun Pengfei, et al. Ammonia in typical planting industry in the middle and lower reaches of the Yangtze River Characteristics and key technologies of emission reduction [J]. Journal of Ecological Agriculture of China, 2021,29 (12): 1981-1989.

Xiong Wu, Xia Yongqiu, Zhou Wei, et al. The relationship between nitrogen fertilizer amount and N2O emission in vegetable fields and the effect of nitrification inhibitor [J]. Journal of Soil Science, 2013,50 (4): 743-751.

Wang Lihua, Lin Qi. Effect of pyrolysis temperature on the properties of biomass charcoal prepared from livestock and poultry manure [J]. Journal of Zhejiang University (Science Edition), 2014,41 (2): 185-190.

Li Feiyue, Wu Xuan, Li Junsuo, et al. Estimation of carbon fixation and nutrient content of animal manure biochar and prediction of potential risks in field application [J]. Journal of Agricultural Environmental Sciences, 2019,38 (9): 2202-2209.

Tian Yishui. Standard Coal Biogas of Livestock and Poultry Manure Resources in China Large-scale Farms Evaluation of production potential [J]. Journal of Agricultural Engineering, 2012,28 (8): 230-234.

Zheng Jufeng, Chen Shuotong. Soil organic matter and soil carbon fixation [J]. Science, 2021,73(6):13-17.

Zhang Xuhui, Pan Genxing. Enlightenment of rice fields and rice farming on carbon neutrality [J].Science, 2021,73 (6): 18-21.

Zhou Sheng, Song Xiangfu, Yan Xiaoyuan. Research progress of low-carbon rice production [J]. In National Rice Science, 2013, 27 (2): 213-222.

Peng Shizhang, Li Daoxi, Fu Xiyun, et al. Seasonal variation of methane emission from rice fields under water-saving irrigation mode [J]. Journal of Zhejiang University: Agriculture and Life Sciences Edition, 2006,32: 546-550.

Jiang Kaiyang, Wang Lixia, Pang Lihao, et al. Analysis of straw biogas potential and carbon footprint in Jiangsu Province from 2008 to 2017 [J]. Jiangsu Agricultural Sciences, 2020,48 (7): 290-295.

Liu Zhiwei, Zhu Mengtao, Guo Wenjie, et al. Comparative study on soil organic carbon stability and greenhouse gas emission potential under direct straw returning and carbonization returning [J]. Soil Bulletin, 2017,48 (6): 1371-1378.

Han Jiming, Pan Genxing, Liu Zhiwei, et al. Effects of straw carbonization and direct return on crop yield and comprehensive greenhouse effect in dryland under nitrogen reduction [J]. Journal of Nanjing Agricultural University, 2016,39 (6): 986-995.

lin li, Zhang Hailin, Chen Fu, et al. Flux of CO2 emission from farmland and its relationship with soil temperature in winter wheat growing season under different tillage measures [J]. Journal of Applied Ecology, 2007,18 (12): 2765-2770.

Lu Yao, Duan Zongyan, Hu Wan Li, et al. Effects of conservation tillage and planting patterns on CO2 content in the topsoil of vegetables [J]. Southwest Agricultural Journal, 2011,24 (4): 1404-1408.

Zhao Liying, Dong Wenxu, Hu Chunsheng, et al. Effects of farming mode change on greenhouse gas emission and yield of farmland in winter wheat season [J]. Journal of Ecological Agriculture of China, 2018,26 (11): 1613-1623.



21 November 2022

How to Cite

Li, R. (2022). On the Realization of Double Carbon Goal from the Perspective of Cultivated Land Quality Protection. Academic Journal of Science and Technology, 3(3), 153–156. https://doi.org/10.54097/ajst.v3i3.2922