基于CMIP6试验的21世纪全球和北部高纬度生态系统净产量

Han Qiu, D. Hao, Yelu Zeng, Xuesong Zhang, M. Chen
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引用次数: 2

摘要

摘要气候变暖正在加速全球陆地生态系统的变化,特别是在北部高纬度地区(nhl;向极(50°N),使陆地与大气的碳交换极不确定。耦合模式比对项目第6阶段(CMIP6)采用最新的气候模式来估算由一系列新的社会经济和气候变化途径驱动的陆地生态系统碳动态。通过分析10个CMIP6模式估算的未来(2015-2100)碳通量,我们定量评估了四种情景下全球和NHL碳通量的预估幅度、趋势和不确定性,以及NHL在全球陆地生态系统碳动态中的作用。总体而言,这些模式表明,未来全球和nhl陆地生态系统将是一致的碳汇,并且在辐射强迫较高的情景下,碳汇的规模预计会更大。到本世纪末,在SSP126、SSP245、SSP370和SSP585条件下,NHL净生态系统生产力(NEP)均值分别为0.54±0.77、1.01±0.98、0.97±1.62和1.05±1.83 Pg C yr - 1。与以前的结果相比,不确定性并没有显著降低。,耦合气候-碳循环模式比对项目(C4MIP)。虽然NHL贡献了全球碳汇的一小部分(约13%),但NHL NEP的相对不确定性远远大于全球水平。我们的研究结果提供了对未来情景下碳通量演变的见解,并强调了迫切需要约束与模式预测相关的巨大不确定性,从而制定更好的气候减缓战略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global and northern-high-latitude net ecosystem production in the 21st century from CMIP6 experiments
Abstract. Climate warming is accelerating the changes in the global terrestrial ecosystems and particularly those in the northern high latitudes (NHLs; poleward of 50∘ N) and rendering the land–atmosphere carbon exchange highly uncertain. The Coupled Model Intercomparison Project Phase 6 (CMIP6) employs the most updated climate models to estimate terrestrial ecosystem carbon dynamics driven by a new set of socioeconomic and climate change pathways. By analyzing the future (2015–2100) carbon fluxes estimated by 10 CMIP6 models, we quantitatively evaluated the projected magnitudes, trends, and uncertainties in the global and NHL carbon fluxes under four scenarios plus the role of NHLs in the global terrestrial ecosystem carbon dynamics. Overall, the models suggest that the global and NHL terrestrial ecosystems will be consistent carbon sinks in the future, and the magnitude of the carbon sinks is projected to be larger under scenarios with higher radiative forcing. By the end of this century, the models on average estimate the NHL net ecosystem productivity (NEP) as 0.54 ± 0.77, 1.01 ± 0.98, 0.97 ± 1.62, and 1.05 ± 1.83 Pg C yr−1 under SSP126, SSP245, SSP370, and SSP585, respectively. The uncertainties are not substantially reduced compared with earlier results, e.g., the Coupled Climate–Carbon Cycle Model Intercomparison Project (C4MIP). Although NHLs contribute a small fraction of the global carbon sink (∼ 13 %), the relative uncertainties in NHL NEP are much larger than the global level. Our results provide insights into future carbon flux evolutions under future scenarios and highlight the urgent need to constrain the large uncertainties associated with model projections for making better climate mitigation strategies.
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