雪蚀高山冻原的非稳态碳排放证据。

Evidence for non-steady-state carbon emissions from snow-scoured alpine tundra.

机构信息

Institute of Arctic and Alpine Research, University of Colorado Boulder, UCB 450, Boulder, CO, 80309-0450, USA.

School of Geography and Development, The University of Arizona, Earth and Natural Resources 2 Building, South 4th Floor, Tucson, AZ, 85721-0137, USA.

出版信息

Nat Commun. 2019 Mar 21;10(1):1306. doi: 10.1038/s41467-019-09149-2.

DOI:10.1038/s41467-019-09149-2

PMID:30898997

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6428862/

Abstract

High-latitude warming is capable of accelerating permafrost degradation and the decomposition of previously frozen carbon. The existence of an analogous high-altitude feedback, however, has yet to be directly evaluated. We address this knowledge gap by coupling a radiocarbon-based model to 7 years (2008-2014) of continuous eddy covariance data from a snow-scoured alpine tundra meadow in Colorado, USA, where solifluction lobes are associated with discontinuous permafrost. On average, the ecosystem was a net annual source of 232 ± 54 g C m (mean ± 1 standard deviation) to the atmosphere, and respiration of relatively radiocarbon-depleted (i.e., older) substrate contributes to carbon emissions during the winter. Given that alpine soils with permafrost occupy 3.6 × 10 km land area and are estimated to contain 66.3 Pg of soil organic carbon (4.5% of the global pool), this scenario has global implications for the mountain carbon balance and corresponding resource allocation to lower elevations.

摘要

高纬度变暖能够加速永久冻土的退化和先前冻结碳的分解。然而，类似的高空反馈的存在尚未得到直接评估。我们通过将基于放射性碳的模型与美国科罗拉多州一个被雪冲刷的高山苔原草甸的 7 年（2008-2014 年）连续涡度相关数据耦合来解决这一知识空白，在那里，融冻滑塌块与不连续的永久冻土有关。平均而言，生态系统每年向大气净释放 232±54g C m（平均值±1 个标准差），在冬季，相对放射性碳（即较老）基质的呼吸作用导致碳排放。鉴于含有永久冻土的高山土壤占地 3.6×10平方公里，据估计含有 66.3 Pg 的土壤有机碳（占全球碳库的 4.5%），这种情况对山区碳平衡和相应的资源分配到较低海拔地区具有全球意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/06ba/6428862/dc44f682fceb/41467_2019_9149_Fig1_HTML.jpg

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雪蚀高山冻原的非稳态碳排放证据。

Evidence for non-steady-state carbon emissions from snow-scoured alpine tundra.

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