Distinct Communities of Bacteria and Unicellular Eukaryotes in the Different Water Masses of Cretan Passage Water Column (Eastern Mediterranean Sea).

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Georgia Charalampous, Konstantinos A Kormas, Eleftheria Antoniou, Nicolas Kalogerakis, Evangelia Gontikaki
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Abstract

Elucidating marine microbiota diversity and dynamics holds significant importance due to their role in maintaining vital ecosystem functions and services including climate regulation. This work aims to contribute in the understanding of microbial ecology and networking in one of the world's most understudied marine regions, the Eastern Mediterranean Sea. High-throughput 16S and 18S rRNA gene sequencing analysis was applied to study the diversity of bacteria and unicellular eukaryotes in the different water masses of the Cretan Passage during two seasonally-different sampling expeditions. We assumed that microbial associations differ between the surface and deepwater masses and created co-occurrence networks to evaluate this hypothesis. Our results unveiled vertical variations in both bacterial and unicellular eukaryotic diversity with species fluctuations indicative of seasonality being recorded in the surface water mass. Heterotrophic taxa and grazers related to organic matter degradation and nutrient cycling were enriched in the deepest water layers. Moreover, surface waters presented a higher number of microbial associations indicating abundant ecological niches compared to the deepest layer, possibly related to the lack of bottom-up resources in the oligotrophic deep ocean. Overall, our data provide insight in a heavily stressed, yet underexplored, marine area that requires further research to unravel the ecological roles of marine microbes. To our knowledge, this is the first study that combines molecular biology tools to provide data on both planktic prokaryotes and unicellular eukaryotes across the different water masses in this marine region of the Eastern Mediterranean basin.

克里特海峡水柱(东地中海)不同水质中细菌和单细胞真核生物群落的差异。
由于海洋微生物群在维持包括气候调节在内的重要生态系统功能和服务方面的作用,阐明海洋微生物群的多样性和动态具有重要意义。这项研究旨在帮助人们了解世界上研究最不充分的海洋区域之一--东地中海--的微生物生态学和网络。在两次不同季节的取样考察中,我们应用高通量 16S 和 18S rRNA 基因测序分析,研究了克里特海峡不同水团中细菌和单细胞真核生物的多样性。我们假设表层水和深层水的微生物关联不同,并创建了共现网络来评估这一假设。我们的结果揭示了细菌和单细胞真核生物多样性的垂直变化,表层水体中的物种波动表明了季节性。与有机物降解和营养循环有关的异养类群和食草动物在最深的水层中富集。此外,与最深水层相比,表层水呈现出更多的微生物关联,表明生态位丰富,这可能与寡营养深海缺乏自下而上的资源有关。总之,我们的数据深入揭示了一个压力巨大但开发不足的海洋区域,该区域需要进一步研究,以揭示海洋微生物的生态作用。据我们所知,这是第一项结合分子生物学工具提供地中海东部盆地这一海洋区域不同水团中浮游原核生物和单细胞真核生物数据的研究。
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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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