中国保护性耕作碳补偿率的时空分异及其演变趋势

Spatio-temporal differentiation of carbon offset rate of conservation tillage and its evolution trend in China

  • 摘要: 深入研究保护性耕作净碳效应, 可为推进农业绿色低碳转型提供重要依据。本研究以2000—2021年中国30个省(自治区、直辖市, 不包括香港、澳门、台湾和西藏, 下同)的保护性耕作碳补偿率为研究对象, 借助Dagum基尼系数及其分解方法, 揭示粮食主产区、主销区和产销平衡区在保护性耕作碳补偿率上的地区差异及其成因, 并通过空间马尔科夫链和动态收敛模型探讨其动态演变趋势。研究发现: 1)尽管中国及各区域在保护性耕作碳补偿率上展现出显著空间差异性, 但这些差异正逐渐缩小, 而超变密度差异成为中国保护性耕作碳补偿率差异的主要来源。2)中国保护性耕作碳补偿率表现出较强“俱乐部趋同”特征, 省份间存在空间依赖性。3)保护性耕作碳补偿率不具有绝对α收敛态势。动态空间绝对β收敛和条件β收敛表明, 区域差异与区域禀赋条件并不完全相关, 区域保护性耕作呈非均衡态势。鉴于此, 本研究建议强化技术联合应用, 充分发挥其技术创新溢出效应, 同时制定区域均衡化策略, 进而推动中国保护性耕作碳补偿率区域协调发展。

     

    Abstract: An in-depth study of the net carbon effect of conservation tillage can provide an important basis for promoting the green and low-carbon transformation of agriculture. This study takes the carbon offset rate of conservation tillage in 30 provinces in China from 2000 to 2021 as the research object, and with the help of Dagum’s Gini coefficient and its decomposition method, reveals the regional differences in carbon offset rate and its causes among east, middle and west China as well as the main grain producing area, the main marketing area and the balance of production and sales area, and explores the dynamic evolution trend of the rate by using the spatial Markov chain and the dynamic convergence model. The study found that: 1) 1)The carbon offset rate of conservation tillage in China from 2000 to 2021 shows a fluctuating trend of increasing, then stabilizing and then decreasing, with an overall upward trend, an upward trend in the main grain-producing areas, and a fluctuating downward trend in the main grain-marketing areas and the balance-of-production and marketing areas. The national growth rate of carbon offset rate of conservation tillage is 0.71%, and regions show significant spatial variability. Sub regionally speaking, the annual average increase in carbon compensation rates for conservation tillage in major grain producing areas, major sales areas, and balanced areas is 0.40%, −0.73% and −4.70%, respectively, showing significant spatial differences, while the annual average contribution rate of the super variable density difference is as high as 51.01%, becoming the main source of regional differences in carbon compensation rates for conservation tillage in China. 2) China’s conservation tillage carbon offset rate shows a strong“club convergence”, that is, there is a convergence of the development level, the gap is gradually narrowing, reflecting the existence of spatial dependence among provinces. 3) The α value of each region fluctuates, resulting in the national conservation tillage carbon offset rate not having an absolute α convergence trend. The dynamic spatial absolute β and β conditional convergence values are insignificant and negative, which indicates that regional conservation tillage is unbalanced, and regional differences are not fully correlated with regional endowment conditions. Accordingly, it should be recommended to strengthen the joint application of technology, give full play to the spillover effect of its technological innovation, and at the same time formulate a sound institutional strategy and accelerate cross-regional cooperation, so as to promote the coordinated development of China’s conservation tillage carbon offset rate in the region. The results of the study can provide a reference for 30 provinces in China to establish a sound carbon compensation mechanism for conservation tillage that meets regional characteristics, and contribute to the coordinated development of green and low-carbon agricultural economy and the realization of the“dual-carbon”goal.

     

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