冲绳海槽沉积物中海底微生物群落在热液梯度上的变化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
L. Brandt, C. House
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引用次数: 15

摘要

冲绳弧后盆地内的沉积物覆盖在地下热液网络上,形成了强烈的温度梯度,沉积物深度和微生物多样性的潜在限制。我们研究了Iheya北热液系统中45 m的温度梯度为3°C/m的岩心的分类变化。在海底10米以下(mbsf),层段由低温海泥向热液蚀变粘土急剧转变。本文通过对16S rRNA基因的分析得出分类结果,支持了一个概念模型,即普通的海洋地下分类群持续存在于地下,而适应高温的古细菌分类群在热液粘土层中显示出局部丰度峰值。具体而言,绿藻细菌门在10 mbsf以上的微生物群落中占主要比例,而高温古细菌(陆生温泉绿古细菌群和甲烷营养古细菌)在较深的热液粘土层中以不同的局部丰度出现,其原位温度较高(高达55°C, 15 mbsf)。此外,地球化学证据表明,甲烷化可能发生在不同的层位。还有一些遗留DNA(即细胞死亡后保存下来的DNA)在适合微生物群落生存的条件已经停止的地层中继续存在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Marine Subsurface Microbial Community Shifts Across a Hydrothermal Gradient in Okinawa Trough Sediments
Sediments within the Okinawa back-arc basin overlay a subsurface hydrothermal network, creating intense temperature gradients with sediment depth and potential limits for microbial diversity. We investigated taxonomic changes across 45 m of recovered core with a temperature gradient of 3°C/m from the dynamic Iheya North Hydrothermal System. The interval transitions sharply from low-temperature marine mud to hydrothermally altered clay at 10 meters below seafloor (mbsf). Here, we present taxonomic results from an analysis of the 16S rRNA gene that support a conceptual model in which common marine subsurface taxa persist into the subsurface, while high temperature adapted archaeal taxa show localized peaks in abundances in the hydrothermal clay horizons. Specifically, the bacterial phylum Chloroflexi accounts for a major proportion of the total microbial community within the upper 10 mbsf, whereas high temperature archaea (Terrestrial Hot Spring Crenarchaeotic Group and methanotrophic archaea) appear in varying local abundances in deeper, hydrothermal clay horizons with higher in situ temperatures (up to 55°C, 15 mbsf). In addition, geochemical evidence suggests that methanotrophy may be occurring in various horizons. There is also relict DNA (i.e., DNA preserved after cell death) that persists in horizons where the conditions suitable for microbial communities have ceased.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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