通过宏基因组学阐明来自孤立南极陆地热液避难所的潜在地方性兼性厌氧异养生物的营养生态位。

Nutritional niches of potentially endemic, facultatively anaerobic heterotrophs from an isolated Antarctic terrestrial hydrothermal refugium elucidated through metagenomics.

作者信息

Herbold Craig W, Noell Stephen E, Lee Charles K, Vickers Chelsea J, Stott Matthew B, Eisen Jonathan A, McDonald Ian R, Cary S Craig

机构信息

Te Aka Mātuatua - School of Science, Te Whare Wānanga O Waikato - University of Waikato, Private Bag 3105, Kirikiriroa - Hamilton, 3240, New Zealand.

International Centre for Terrestrial Antarctic Research, Te Whare Wānanga O Waikato - University of Waikato, Kirikiriroa - Hamilton, New Zealand.

出版信息

Environ Microbiome. 2024 Dec 18;19(1):104. doi: 10.1186/s40793-024-00655-5.

DOI:10.1186/s40793-024-00655-5

PMID:39696719

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11657696/

Abstract

BACKGROUND

Tramway Ridge, a geothermal Antarctic Specially Protected Area (elevation 3340 m) located near the summit of Mount Erebus, is home to a unique community composed of cosmopolitan surface-associated micro-organisms and abundant, poorly understood subsurface-associated microorganisms. Here, we use shotgun metagenomics to compare the functional capabilities of this community to those found elsewhere on Earth and to infer in situ diversity and metabolic capabilities of abundant subsurface taxa.

RESULTS

We found that the functional potential in this community is most similar to that found in terrestrial hydrothermal environments (hot springs, sediments) and that the two dominant organisms in the subsurface carry high rates of in situ diversity which was taken as evidence of potential endemicity. They were found to be facultative anaerobic heterotrophs that likely share a pool of nitrogenous organic compounds while specializing in different carbon compounds.

CONCLUSIONS

Metagenomic insights have provided a detailed understanding of the microbe-based ecosystem found in geothermally heated fumaroles at Tramway Ridge. This approach enabled us to compare Tramway Ridge with other microbial systems, identify potentially endemic taxa and elucidate the key metabolic pathways that may enable specific organisms to dominate the ecosystem.

摘要

背景

电车岭是位于埃里伯斯山山顶附近的一个地热南极特别保护区（海拔3340米），这里有一个独特的群落，由世界性的与地表相关的微生物和丰富但了解甚少的与地下相关的微生物组成。在这里，我们使用鸟枪法宏基因组学来比较这个群落与地球上其他地方发现的群落的功能能力，并推断丰富的地下分类群的原位多样性和代谢能力。

结果

我们发现这个群落的功能潜力与陆地热液环境（温泉、沉积物）中发现的最为相似，并且地下的两种主要生物具有很高的原位多样性，这被视为潜在特有性的证据。它们被发现是兼性厌氧异养生物，可能共享一组含氮有机化合物，同时专门利用不同的碳化合物。

结论

宏基因组学的见解提供了对电车岭地热加热喷气孔中基于微生物的生态系统的详细理解。这种方法使我们能够将电车岭与其他微生物系统进行比较，识别潜在的特有分类群，并阐明可能使特定生物在生态系统中占主导地位的关键代谢途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e1ee/11657696/b36b6a9fb9c9/40793_2024_655_Fig1_HTML.jpg

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通过宏基因组学阐明来自孤立南极陆地热液避难所的潜在地方性兼性厌氧异养生物的营养生态位。

Nutritional niches of potentially endemic, facultatively anaerobic heterotrophs from an isolated Antarctic terrestrial hydrothermal refugium elucidated through metagenomics.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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