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Terrestrial carbon sinks in China and around the world and their contribution to carbon neutrality

Yuanhe Yang, Yue Shi, Wenjuan Sun, Jinfeng Chang, JianXiao ZHU, Leiyi Chen, Xin Wang, Yanpei Guo, Zhang Hongtu, Lingfei Yu, Shuqing Zhao, Kang Xu, Jiangling Zhu, Haihua Shen, Yuanyuan Wang, Peng Yunfeng, Xia Zhao, Xiangping Wang, Huifeng Hu, Shiping Chen, Mei Huang, Xuefa Wen, Shaopeng Wang, Biao Zhu, Shuli Niu, Zhiyao Tang, Lingli Liu, Jingyun Fang

2021Scientia Sinica Vitae67 citationsDOI

Abstract

<p indent="0mm">Enhancing the terrestrial ecosystem carbon sink (referred to as terrestrial C sink) is an important way to slow down the continuous increase in atmospheric carbon dioxide (CO<sub>2</sub>) concentration and to achieve carbon neutrality target. To better understand the characteristics of terrestrial C sinks and their contribution to carbon neutrality, this review summarizes major progress in terrestrial C budget researches during the past decades, clarifies spatial patterns and drivers of terrestrial C sources and sinks in China and around the world, and examines the role of terrestrial C sinks in achieving carbon neutrality target. According to recent studies, the global terrestrial C sink has been increasing from a source of (−0.2±0.9) Pg C yr<sup>−1</sup> (1 Pg=<sc>10<sup>15</sup> g)</sc> in the 1960s to a sink of (1.9±1.1) Pg C yr<sup>−1</sup> in the 2010s. By synthesizing the published data, we estimate terrestrial C sink of 0.20–0.25 Pg C yr<sup>−1</sup> in China during the past decades, and predicted it to be 0.15–0.52 Pg C yr<sup>−1</sup> by 2060. The terrestrial C sinks are mainly located in the mid- and high latitudes of the Northern Hemisphere, while tropical regions act as a weak C sink or source. The C balance differs much among ecosystem types: forest is the major C sink; shrubland, wetland and farmland soil act as C sinks; and whether the grassland functions as C sink or source remains unclear. Desert might be a C sink, but the magnitude and the associated mechanisms are still controversial. Elevated atmospheric CO<sub>2</sub> concentration, nitrogen deposition, climate change, and land cover change are the main drivers of terrestrial C sinks, while other factors such as fires and aerosols would also affect ecosystem C balance. The driving factors of terrestrial C sink differ among regions. Elevated CO<sub>2</sub> concentration and climate change are major drivers of the C sinks in North America and Europe, while afforestation and ecological restoration are additionally important forcing factors of terrestrial C sinks in China. For future studies, we recommend the necessity for intensive and long-term ecosystem C monitoring over broad geographic scale to improve terrestrial biosphere models for accurately evaluating terrestrial C budget and its dynamics under various climate change and policy scenarios.

Topics & Concepts

Carbon neutralityCarbon fibersCarbon sinkChinaNeutralityEnvironmental scienceCarbon cycleEarth scienceGeographyGreenhouse gasMaterials scienceClimate changeEcologyPolitical scienceGeologyBiologyArchaeologyEcosystemLawComposite materialComposite numberAtmospheric and Environmental Gas DynamicsFire effects on ecosystemsAtmospheric chemistry and aerosols