北极苔原活动层变暖导致大量一氧化碳和甲烷排放。

Large emissions of CO and CH due to active-layer warming in Arctic tundra.

作者信息

Torn Margaret S, Abramoff Rose Z, Vaughn Lydia J S, Chafe Oriana E, Curtis J Bryan, Zhu Biao

机构信息

Climate and Ecosystem Sciences Division, Berkeley Lab, Berkeley, CA, USA.

Energy and Resources Group, University of California, Berkeley, CA, USA.

出版信息

Nat Commun. 2025 Jan 2;16(1):124. doi: 10.1038/s41467-024-54990-9.

DOI:10.1038/s41467-024-54990-9

PMID:39746927

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11696372/

Abstract

Climate warming may accelerate decomposition of Arctic soil carbon, but few controlled experiments have manipulated the entire active layer. To determine surface-atmosphere fluxes of carbon dioxide and methane under anticipated end-of-century warming, here we used heating rods to warm (by 3.8 °C) to the depth of permafrost in polygonal tundra in Utqiaġvik (formerly Barrow), Alaska and measured fluxes over two growing seasons. We show that ecosystem respiration is ~30% higher in warmed plots than in control plots (0.99 μmol m s versus 0.67 μmol m s, p < 0.0001, n = 79). Additionally, the observed temperature sensitivity (Q of 2.8) is higher than that imposed for soil in Earth system models or reported by arctic experiments warming only the surface. A shoulder-season warming experiment revealed that rapid snow melt, which is becoming a more common event, can result in large methane emissions that may have otherwise been oxidized to carbon dioxide. Thus, warming promotes greenhouse gas emissions from the whole, deepening active layer and may contribute to climate change amplification.

摘要

气候变暖可能会加速北极土壤碳的分解，但很少有对照实验对整个活跃层进行过调控。为了确定在预计的本世纪末变暖情况下二氧化碳和甲烷的地表-大气通量，我们在这里使用加热棒将阿拉斯加乌特恰维克（原巴罗）多边形冻原的永久冻土深度加热（升温3.8°C），并在两个生长季节测量通量。我们发现，变暖地块的生态系统呼吸比对照地块高约30%（分别为0.99微摩尔·米²·秒⁻¹和0.67微摩尔·米²·秒⁻¹，p<0.0001，n = 79）。此外，观测到的温度敏感性（Q₂₀为2.8）高于地球系统模型中对土壤设定的值，也高于仅加热地表的北极实验所报告的值。一项过渡季节变暖实验表明，快速融雪这一越来越常见的事件会导致大量甲烷排放，否则这些甲烷可能会被氧化成二氧化碳。因此，变暖会促使整个不断加深的活跃层排放温室气体，并可能导致气候变化加剧。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/09a5/11696372/833ae5e89ece/41467_2024_54990_Fig1_HTML.jpg

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本文引用的文献

Spatial heterogeneity and environmental predictors of permafrost region soil organic carbon stocks.多年冻土区土壤有机碳储量的空间异质性及环境预测因子

Sci Adv. 2021 Feb 24;7(9). doi: 10.1126/sciadv.aaz5236. Print 2021 Feb.

Alaskan carbon-climate feedbacks will be weaker than inferred from short-term experiments.阿拉斯加的碳-气候反馈作用将弱于短期实验推断的结果。

Nat Commun. 2020 Nov 16;11(1):5798. doi: 10.1038/s41467-020-19574-3.

Dependence of the evolution of carbon dynamics in the northern permafrost region on the trajectory of climate change.北方永久冻土区碳动态演变对气候变化轨迹的依赖性。

Proc Natl Acad Sci U S A. 2018 Apr 10;115(15):3882-3887. doi: 10.1073/pnas.1719903115. Epub 2018 Mar 26.

Predicting soil carbon loss with warming.预测变暖情况下的土壤碳损失。

Nature. 2018 Feb 21;554(7693):E4-E5. doi: 10.1038/nature25745.

The whole-soil carbon flux in response to warming.土壤碳通量对变暖的响应。

Science. 2017 Mar 31;355(6332):1420-1423. doi: 10.1126/science.aal1319. Epub 2017 Mar 9.

Quantifying global soil carbon losses in response to warming.量化全球土壤碳损失对变暖的响应。

Nature. 2016 Nov 30;540(7631):104-108. doi: 10.1038/nature20150.

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北极苔原活动层变暖导致大量一氧化碳和甲烷排放。

Large emissions of CO and CH due to active-layer warming in Arctic tundra.

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