水柱初级产物是中太平洋深海沉积物中古生物地理分布和功能的主要结构元素。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Franziska Wemheuer, Avril Jean Elisabeth von Hoyningen-Huene, Marion Pohlner, Julius Degenhardt, Bert Engelen, Rolf Daniel, Bernd Wemheuer
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引用次数: 10

摘要

关于形成中太平洋海底古菌群落的环境条件的信息有限。本研究旨在调查太平洋深海沉积物中整个和潜在活跃古菌群落的多样性、组成和功能。为此,沿中太平洋180°子午线采集了沉积物样本。通过针对古菌16S rRNA基因和转录物的Illumina标签测序来评估群落组成和多样性。古生物群落主要由Candidatus Nitrosopumilus(Thaumarchaeota)和Nitrosopomilaceae(Thaumaarchaeota。整个和活跃古菌群落的组成与初级生产(叶绿素含量)密切相关,解释了40%以上的差异。此外,我们发现整个古菌群落组成与纬度和硅酸含量密切相关,而活性群落与初级生产力和氧化铁含量显著相关。我们根据16S rRNA数据预测了功能图谱,以评估古菌群落功能。纬度与整个群落的功能特征显著相关,而活跃群落的纬度与硝酸盐和叶绿素含量显著相关。本研究的结果首次深入了解了太平洋海底古菌群落及其多样性、分布和功能的环境条件。此外,它们还可以作为进一步研究古菌在深海沉积物中定居的模板。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Primary Production in the Water Column as Major Structuring Element of the Biogeographical Distribution and Function of Archaea in Deep-Sea Sediments of the Central Pacific Ocean.

Primary Production in the Water Column as Major Structuring Element of the Biogeographical Distribution and Function of Archaea in Deep-Sea Sediments of the Central Pacific Ocean.

Primary Production in the Water Column as Major Structuring Element of the Biogeographical Distribution and Function of Archaea in Deep-Sea Sediments of the Central Pacific Ocean.

Primary Production in the Water Column as Major Structuring Element of the Biogeographical Distribution and Function of Archaea in Deep-Sea Sediments of the Central Pacific Ocean.

Information on environmental conditions shaping archaeal communities thriving at the seafloor of the central Pacific Ocean is limited. The present study was conducted to investigate the diversity, composition, and function of both entire and potentially active archaeal communities within Pacific deep-sea sediments. For this purpose, sediment samples were taken along the 180° meridian of the central Pacific Ocean. Community composition and diversity were assessed by Illumina tag sequencing targeting archaeal 16S rRNA genes and transcripts. Archaeal communities were dominated by Candidatus Nitrosopumilus (Thaumarchaeota) and other members of the Nitrosopumilaceae (Thaumarchaeota), but higher relative abundances of the Marine Group II (Euryarchaeota) were observed in the active compared to the entire archaeal community. The composition of the entire and the active archaeal communities was strongly linked to primary production (chlorophyll content), explaining more than 40% of the variance. Furthermore, we found a strong correlation of the entire archaeal community composition to latitude and silicic acid content, while the active community was significantly correlated with primary production and ferric oxide content. We predicted functional profiles from 16S rRNA data to assess archaeal community functions. Latitude was significantly correlated with functional profiles of the entire community, whereas those of the active community were significantly correlated with nitrate and chlorophyll content. The results of the present study provide first insights into benthic archaeal communities in the Pacific Ocean and environmental conditions shaping their diversity, distribution, and function. Additionally, they might serve as a template for further studies investigating archaea colonizing deep-sea sediments.

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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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