与加拿大西北地区外麦肯齐河三角洲复杂永久冻土带有关的地质甲烷的来源、迁移途径和大气释放

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Scott R. Dallimore, Laura L. Lapham, Michelle M. Côté, Robert Bowen, Roger MacLeod, Hadley A. McIntosh Marcek, C. Geoff Wheat, Timothy S. Collett
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引用次数: 0

摘要

甲烷从永久冻土层进入大气的来源和通量很大,但在全球气候模型中却没有得到很好的制约。我们介绍了在外麦肯齐河三角洲多变的永久冻土环境中收集到的数据,包括水生甲烷渗流观测、原地甲烷发生的岩芯测定和渗流气体同位素地球化学。原地地质甲烷产生以及水生和大气气体释放的来源和位置似乎受区域地质和永久冻土条件的控制。在永久冻土层厚度为 250 米的地方,深层热成岩气矿床被横向连续、渗透性低的含冰沉积物所隔离,很少有贯通的解冻滑石。因此,观测到的原地甲烷和水生气体渗流似乎以微生物甲烷为主。相比之下,在永久冻土层厚度为 80 米的地方,滑石更有可能是贯通的,为热源气体和生物源气体提供了来自深层的可渗透管道和迁移途径。每年对两个湖泊和一条河道进行的连续流体取样记录了来自微生物源、埋藏更深的热源以及两者混合物的水生甲烷通量。通过对深层岩芯样本中原地甲烷浓度的估算和对原地游离气体出现情况的观察,我们得出结论:冰粘结永久冻土层中的原地地质甲烷储量巨大,而且这些甲烷目前正在随着大气的不断释放而迁移。根据我们的评估,随着永久冻土变暖,所述的永久冻土环境和过程对未来气候变化很敏感。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Source, Migration Pathways, and Atmospheric Release of Geologic Methane Associated With the Complex Permafrost Regimes of the Outer Mackenzie River Delta, Northwest Territories, Canada

Source, Migration Pathways, and Atmospheric Release of Geologic Methane Associated With the Complex Permafrost Regimes of the Outer Mackenzie River Delta, Northwest Territories, Canada

Sources and fluxes of methane to the atmosphere from permafrost are significant but poorly constrained in global climate models. We present data collected from the variable permafrost setting of the outer Mackenzie River Delta, including observations of aquatic methane seepage, core determinations of in situ methane occurrence and seep gas isotope geochemistry. The sources and locations of in situ geologic methane occurrence and aquatic and atmospheric gas release appear to be controlled by the regional geology and permafrost conditions. Where permafrost is >250 m thick, thermogenic gas deposits at depth are isolated by laterally continuous, low permeability ice-bearing sediments with few through-going thawed taliks. Thus, the observed in situ methane and aquatic gas seepage appears to be dominated by microbial methane. In contrast, where permafrost is <80 m thick, taliks are more likely to be through-going, providing permeable conduits from depth and migration pathways for both thermogenic and biogenic gas. Continuous annual fluid sampling of two lakes and a river channel documents aquatic methane flux from microbial sources, more deeply buried thermogenic sources, and mixtures of both. Using estimates of in situ methane concentration from deep core samples and observations of in situ free gas occurrences, we conclude that the reservoir of in situ geologic methane within ice bonded permafrost is substantial and that this methane is presently migrating with ongoing atmospheric release. It is our assessment that the permafrost setting, and processes described are sensitive to future climate change as the permafrost warms.

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来源期刊
Journal of Geophysical Research: Earth Surface
Journal of Geophysical Research: Earth Surface Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
6.30
自引率
10.30%
发文量
162
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