丙烷呼吸促进微生物对深海溢油的响应。

Propane respiration jump-starts microbial response to a deep oil spill.

机构信息

Department of Earth Science and Marine Science Institute, University of California, Santa Barbara, CA 93106, USA.

出版信息

Science. 2010 Oct 8;330(6001):208-11. doi: 10.1126/science.1196830. Epub 2010 Sep 16.

DOI:10.1126/science.1196830

PMID:20847236

Abstract

The Deepwater Horizon event resulted in suspension of oil in the Gulf of Mexico water column because the leakage occurred at great depth. The distribution and fate of other abundant hydrocarbon constituents, such as natural gases, are also important in determining the impact of the leakage but are not yet well understood. From 11 to 21 June 2010, we investigated dissolved hydrocarbon gases at depth using chemical and isotopic surveys and on-site biodegradation studies. Propane and ethane were the primary drivers of microbial respiration, accounting for up to 70% of the observed oxygen depletion in fresh plumes. Propane and ethane trapped in the deep water may therefore promote rapid hydrocarbon respiration by low-diversity bacterial blooms, priming bacterial populations for degradation of other hydrocarbons in the aging plume.

摘要

深水地平线事件导致墨西哥湾水柱中悬浮的石油，因为泄漏发生在很大的深度。其他丰富的碳氢化合物成分（如天然气）的分布和归宿对于确定泄漏的影响也很重要，但目前还不完全清楚。2010 年 6 月 11 日至 21 日，我们利用化学和同位素调查以及现场生物降解研究，在深度上调查了溶解烃类气体。丙烷和乙烷是微生物呼吸的主要驱动因素，占新鲜羽流中观察到的氧气消耗的 70%。因此，被困在深水中的丙烷和乙烷可能会通过低多样性细菌的爆发促进烃类的快速呼吸，为老化羽流中其他烃类的降解培育细菌种群。

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丙烷呼吸促进微生物对深海溢油的响应。

Propane respiration jump-starts microbial response to a deep oil spill.

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