The Net GHG Balance and Budget of the Permafrost Region (2000–2020) From Ecosystem Flux Upscaling

IF 5.4 2区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Justine Ramage, McKenzie Kuhn, Anna-Maria Virkkala, Carolina Voigt, Maija E. Marushchak, Ana Bastos, Christina Biasi, Josep G. Canadell, Philippe Ciais, Efrèn López-Blanco, Susan M. Natali, David Olefeldt, Stefano Potter, Benjamin Poulter, Brendan M. Rogers, Edward A. G. Schuur, Claire Treat, Merritt R. Turetsky, Jennifer Watts, Gustaf Hugelius
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Abstract

The northern permafrost region has been projected to shift from a net sink to a net source of carbon under global warming. However, estimates of the contemporary net greenhouse gas (GHG) balance and budgets of the permafrost region remain highly uncertain. Here, we construct the first comprehensive bottom-up budgets of CO2, CH4, and N2O across the terrestrial permafrost region using databases of more than 1000 in situ flux measurements and a land cover-based ecosystem flux upscaling approach for the period 2000–2020. Estimates indicate that the permafrost region emitted a mean annual flux of 12 (−606, 661) Tg CO2–C yr−1, 38 (22, 53) Tg CH4–C yr−1, and 0.67 (0.07, 1.3) Tg N2O–N yr−1 to the atmosphere throughout the period. Thus, the region was a net source of CH4 and N2O, while the CO2 balance was near neutral within its large uncertainties. Undisturbed terrestrial ecosystems had a CO2 sink of −340 (−836, 156) Tg CO2–C yr−1. Vertical emissions from fire disturbances and inland waters largely offset the sink in vegetated ecosystems. When including lateral fluxes for a complete GHG budget, the permafrost region was a net source of C and N, releasing 144 (−506, 826) Tg C yr−1 and 3 (2, 5) Tg N yr−1. Large uncertainty ranges in these estimates point to a need for further expansion of monitoring networks, continued data synthesis efforts, and better integration of field observations, remote sensing data, and ecosystem models to constrain the contemporary net GHG budgets of the permafrost region and track their future trajectory.

Abstract Image

从生态系统流量升尺度得出的永冻土地区温室气体净平衡和预算(2000-2020 年
据预测,在全球变暖的情况下,北部永久冻土地区将从碳的净汇转变为碳的净源。然而,对永冻土地区当代温室气体(GHG)净平衡和预算的估算仍存在很大的不确定性。在这里,我们利用 1000 多个原位通量测量数据库和基于土地覆被的生态系统通量放大方法,首次构建了 2000-2020 年期间陆地永久冻土区二氧化碳、甲烷和一氧化二氮的自下而上的全面预算。估算结果表明,在整个时期内,永冻土地区向大气排放的年均通量为 12 (-606, 661) Tg CO2-C、38 (22, 53) Tg CH4-C 和 0.67 (0.07, 1.3) Tg N2O-N。因此,该地区是甲烷和一氧化二氮的净来源地,而二氧化碳平衡在很大的不确定性范围内接近中性。未受干扰的陆地生态系统的二氧化碳吸收汇为-340 (-836, 156) Tg CO2-C/yr-1。火灾干扰和内陆水域的垂直排放在很大程度上抵消了植被生态系统的吸收汇。当包括横向通量以获得完整的温室气体预算时,永久冻土区是碳和氮的净来源,每年释放 144 (-506, 826) 兆吨碳和 3 (2, 5) 兆吨氮。这些估算值的不确定性范围较大,表明需要进一步扩大监测网络,继续开展数据综合工作,并更好地整合实地观测、遥感数据和生态系统模型,以限制永久冻土区的当代温室气体净预算并跟踪其未来轨迹。
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来源期刊
Global Biogeochemical Cycles
Global Biogeochemical Cycles 环境科学-地球科学综合
CiteScore
8.90
自引率
7.70%
发文量
141
审稿时长
8-16 weeks
期刊介绍: Global Biogeochemical Cycles (GBC) features research on regional to global biogeochemical interactions, as well as more local studies that demonstrate fundamental implications for biogeochemical processing at regional or global scales. Published papers draw on a wide array of methods and knowledge and extend in time from the deep geologic past to recent historical and potential future interactions. This broad scope includes studies that elucidate human activities as interactive components of biogeochemical cycles and physical Earth Systems including climate. Authors are required to make their work accessible to a broad interdisciplinary range of scientists.
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