Potential of ecosystem carbon sinks to “neutralize” carbon emissions: A case study of Qinghai in west China and a tale of two stages

Q1 Social Sciences Global Transitions Pub Date : 2022-01-01 DOI:10.1016/j.glt.2022.08.001
Ya Gao , Yijia Zhang , Qunxin Zhou , Liangyu Han , Ji Zhou , Yi Zhang , Baoping Li , Weifeng Mu , Chaochao Gao
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引用次数: 3

Abstract

Nature-based climate solutions are playing an increasingly significant role under the long-term goal of carbon-neutrality. Carbon storage and sequestration are important service functions of the ecosystem, but these potential in neutralizing carbon emissions at provincial level is rarely evaluated. Here we take Qinghai province in northwest China to conduct a case study, as it possesses the country's best solar and wind energy resource, one of the largest ecosystem therefore great carbon sequestration potential, and has been strived to set off a carbon neutral pilot in China. We combine the carbon density observation database and the land use/cover change (LUCC) data with the InVEST model to study the spatiotemporal dynamics of the carbon stock for Qinghai's terrestrial ecosystem, which are then compared to the energy related carbon emissions. The results reveal a tale of two stages, as Qinghai transformed from being a fast growing carbon emitter during 2000–2015 to be a carbon neutral player during the 13th Five-Year Plan (2015–2020). Land management interventions can contribute to climate change mitigation through avoided emissions from ecosystem degradation, and through negative emissions via biomass growth and, soil carbon sequestration. The duel-effort of greening the power grid and enhancing the ecosystem carbon sequestration is critical in achieving Qinghai's transition. Practices like agrophotovoltaic power plant in the barren or degraded lands have demonstrated great synergies of harvesting solar energy and enhancing ecosystem carbon sequestration, and offer good example for regions alike.

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生态系统碳汇“中和”碳排放的潜力——以青海省为例及两个阶段的故事
基于自然的气候解决方案在碳中和的长期目标下发挥着越来越重要的作用。碳储存和固碳是生态系统的重要服务功能,但在省级层面上对其中和碳排放的潜力评价较少。这里我们以中国西北的青海省为例进行研究,因为青海省拥有全国最好的太阳能和风能资源,是最大的生态系统之一,因此具有很大的碳封存潜力,并且一直在努力启动中国的碳中和试点。结合碳密度观测数据库和土地利用/覆被变化(LUCC)数据,利用InVEST模型研究青海省陆地生态系统碳储量的时空动态,并与能源相关碳排放进行比较。研究结果显示,青海经历了两个阶段,从2000年至2015年碳排放快速增长的省份转变为“十三五”(2015-2020)期间的碳中和国家。土地管理干预措施可以通过避免生态系统退化造成的排放,以及通过生物量增长和土壤固碳产生的负排放,促进减缓气候变化。绿色电网和增强生态系统固碳的双管齐下是实现青海转型的关键。在贫瘠或退化土地上建立农用光伏电站等做法,在收集太阳能和加强生态系统固碳方面显示出巨大的协同效应,为类似地区提供了良好的示范。
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来源期刊
Global Transitions
Global Transitions Social Sciences-Development
CiteScore
18.90
自引率
0.00%
发文量
1
审稿时长
20 weeks
期刊最新文献
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