[1] P JIANG, C SONNE, S YOU. Dynamic carbon-neutrality assessment needed to tackle the impacts of global crises. Environmental Science & Technology, 56, 9851-9853(2022).

[2] N HÖHNE, M J GIDDEN, M DEN ELZEN et al. Wave of net zero emission targets opens window to meeting the Paris Agreement. Nature Climate Change, 11, 820-822(2021).

[3] J HAO, F GAO, X FANG et al. Multi-factor decomposition and multi-scenario prediction decoupling analysis of China's carbon emission under dual carbon goal. Science of the Total Environment, 841, 156788(2022).

[4] S CHEN, N LU, B FU et al. Current and future carbon stocks of natural forests in China. Forest Ecology and Management, 511, 120137(2022).

[6] Y YANG, Y SHI, W SUN et al. Terrestrial carbon sinks in China and around the world and their contribution to carbon neutrality. Scientia Sinica Vitae(2021).

[7] L POORTER, F BONGERS, T M AIDE et al. Biomass resilience of Neotropical secondary forests. Nature, 530, 211-214(2016).

[8] L M MERCADO, N BELLOUIN, S SITCH et al. Impact of changes in diffuse radiation on the global land carbon sink. Nature, 458, 1014-1017(2009).

[9] N LABRIÈRE, S J DAVIES, M I DISNEY et al. Toward a forest biomass reference measurement system for remote sensing applications. Global Change Biology, 29, 827-840(2023).

[10] Cuicui JIAO, Guirui YU, Nianpeng HE et al. Spatial patterns of above-ground biomass in Eurasian grasslands and their relationship with environmental factors. Journal of Geography, 71, 781-796(2016).

[11] V H A HEINRICH, R DALAGNOL, H L G CASSOL et al. Large carbon sink potential of secondary forests in the Brazilian Amazon to mitigate climate change. Nature Communications, 12, 1785(2021).

[12] T LI, Y ZOU, Y LIU et al. Mountain forest biomass dynamics and its drivers in southwestern China between 1979 and 2017. Ecological Indicators, 142, 109289(2022).

[13] D REQUENA SUAREZ, D M A ROZENDAAL, SY V DE et al. Estimating aboveground net biomass change for tropical and subtropical forests： Refinement of IPCC default rates using forest plot data. Global Change Biology, 25, 3609-3624(2019).

[14] W R L ANDEREGG, A T TRUGMAN, G BADGLEY et al. Climate-driven risks to the climate mitigation potential of forests. Science, 368(2020).

[15] Junbang WANG, Yihan YANG, Chan ZUO et al. Determining the impact of climate change and human activities on total primary productivity of terrestrial ecosystems in China. Journal of Ecology, 41, 7085-7099(2021).

[16] Z DU, L YU, J YANG et al. A global map of planting years of plantations. Scientific Data, 9, 141(2022).

[17] W SHEN, M LI, C HUANG et al. Local land surface temperature change induced by afforestation based on satellite observations in Guangdong plantation forests in China. Agricultural and Forest Meteorology, 276-277, 107641(2019).

[18] W SHANGGUAN, Y DAI, Q DUAN et al. A global soil data set for earth system modeling. Journal of Advances in Modeling Earth Systems, 6, 249-263(2014).

[19] M C HANSEN, P V POTAPOV, R MOORE et al. High-resolution global maps of 21st-century forest cover change. Science, 342, 850-853(2013).

[20] Zhuo WU, Erfu DAI, Quansheng GE et al. Simulation of the effects of land use and climate change on above-ground forest biomass-Taihe County，Jiangxi Province as an example. Journal of Geography, 72, 1539-1554(2017).

[21] F J RICHARDS. A flexible growth function for empirical Use. Journal of Experimental Botany, 10, 290-301(1959).

[22] A BEHNAMIAN, K MILLARD, S N BANKS et al. A systematic approach for variable selection with random forests：Achieving stable variable importance values. IEEE Geoscience and Remote Sensing Letters, 14, 1988-1992(2017).

[23] Yanhong ZHAO, Peng HOU, Jinbao JIANG et al. Advances in research methods for quantitative inversion of vegetation ecological remote sensing parameters. Journal of Remote Sensing, 25, 2173-2197(2021).

[24] S CHAPIN, MATSON P.A, H MOONEY. Principles of terrestrial ecosystem ecology. A，, 2021(2002).

[25] K S PREGITZER, E S EUSKIRCHEN. Carbon cycling and storage in world forests：Biome patterns related to forest age. Global Change Biology, 10, 2052-2077(2004).

[26] M L Roderick, G D Farquhar, S L Berry et al. On the direct effect of clouds and atmospheric particles on the productivity and structure of vegetation. Oecologia, 129, 21-30(2001).

[27] O L LANGE, R LÖSCH, E D SCHULZE et al. Responses of stomata to changes in humidity. Planta, 100, 76-86(1971).