Metaproteomic Comparison of Cryoconite Communities from Caucasian and Novaya Zemlya Glaciers

Q3 Agricultural and Biological Sciences

Biological Communications Pub Date : 2021-11-30 DOI:10.21203/rs.3.rs-999957/v1

B. Zainullina, I. Babkina, A. Lobov, R. Tembotov, E. Abakumov

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Abstract

Anthropogenic pollution strongly affects glacial microbiological communities and promotes glacial melting. In the early stages of glacial melting formation of small cylindrical holes (cryoconite) occurs. While the microbiome of cryoconite is well described, the effect of anthropogenic pollution on cryoconite microbiological communities still has not been fully understood. Thus, we performed an unbiased functional comparison of the cryoconite communities from the highly polluted Caucasian glaciers and from less polluted glaciers in Novaya Zemlya. For this purpose, we used the shotgun metaproteomics approach which has not been used for cryoconite microbiome analysis previously. We identified 475 protein groups, a third of which were found in both glaciers. Cryoconites in both glaciers have similar microbiological communities with Cyanobacteria as dominant phyla. Nevertheless, we found a slight shift from the dominance of phototrophic Cyanobacteria in Novaya Zemlya to heterotrophic bacteria in the Caucasus. We assume that it might be caused by anthropogenic pollution, but other factors such as differences in seasonal dynamics of microbiological communities should be tested in the future.

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高加索和新地岛冰川冰晶群落的元蛋白质组学比较

人为污染强烈影响冰川微生物群落，并促进冰川融化。在冰川融化的早期阶段，会形成小的圆柱形孔（冰锥岩）。尽管人们对冰晶石的微生物组有很好的描述，但人类污染对冰晶石微生物群落的影响仍未完全了解。因此，我们对Novaya-Zemlya污染严重的高加索冰川和污染较轻的冰川的冰锥岩群落进行了无偏的功能比较。为此，我们使用了霰弹枪超蛋白质组学方法，该方法以前从未用于冷冻锥菌微生物组分析。我们鉴定了475个蛋白质组，其中三分之一在两座冰川中都有发现。两座冰川中的冰锥菌具有相似的微生物群落，蓝细菌是优势门。尽管如此，我们发现Novaya Zemlya的光养蓝细菌的优势向高加索的异养细菌略有转变。我们假设它可能是由人为污染引起的，但其他因素，如微生物群落季节动态的差异，应该在未来进行测试。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.70

自引率

0.00%

发文量