Soils of two Antarctic Dry Valleys exhibit unique microbial community structures in response to similar environmental disturbances.

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY Environmental Microbiome Pub Date : 2024-07-26 DOI:10.1186/s40793-024-00587-0
Mafalda S Baptista, Charles K Lee, Maria R Monteiro, Luís Torgo, S Craig Cary, Catarina Magalhães
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Abstract

Background: Isolating the effects of deterministic variables (e.g., physicochemical conditions) on soil microbial communities from those of neutral processes (e.g., dispersal) remains a major challenge in microbial ecology. In this study, we disturbed soil microbial communities of two McMurdo Dry Valleys of Antarctica exhibiting distinct microbial biogeographic patterns, both devoid of aboveground biota and different in macro- and micro-physicochemical conditions. We modified the availability of water, nitrogen, carbon, copper ions, and sodium chloride salts in a laboratory-based experiment and monitored the microbial communities for up to two months. Our aim was to mimic a likely scenario in the near future, in which similar selective pressures will be applied to both valleys. We hypothesized that, given their unique microbial communities, the two valleys would select for different microbial populations when subjected to the same disturbances.

Results: The two soil microbial communities, subjected to the same disturbances, did not respond similarly as reflected in both 16S rRNA genes and transcripts. Turnover of the two microbial communities showed a contrasting response to the same environmental disturbances and revealed different potentials for adaptation to change. These results suggest that the heterogeneity between these microbial communities, reflected in their strong biogeographic patterns, was maintained even when subjected to the same selective pressure and that the 'rare biosphere', at least in these samples, were deeply divergent and did not act as a reservoir for microbiota that enabled convergent responses to change in environmental conditions.

Conclusions: Our findings strongly support the occurrence of endemic microbial communities that show a structural resilience to environmental disturbances, spanning a wide range of physicochemical conditions. In the highly arid and nutrient-limited environment of the Dry Valleys, these results provide direct evidence of microbial biogeographic patterns that can shape the communities' response in the face of future environmental changes.

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两个南极干谷的土壤在类似的环境干扰下表现出独特的微生物群落结构。
背景:将决定性变量(如物理化学条件)对土壤微生物群落的影响与中性过程(如扩散)的影响区分开来,仍然是微生物生态学的一大挑战。在这项研究中,我们扰乱了南极洲两个麦克默多干谷的土壤微生物群落,这两个干谷都没有地面生物群,而且宏观和微观物理化学条件不同,表现出截然不同的微生物生物地理格局。我们在实验室实验中改变了水、氮、碳、铜离子和氯化钠盐的供应,并对微生物群落进行了长达两个月的监测。我们的目的是模拟不久的将来可能发生的情况,即两个山谷都将面临类似的选择性压力。我们假设,由于两个山谷的微生物群落各具特色,当受到相同的干扰时,它们会选择不同的微生物种群:结果:两个土壤微生物群落在受到相同干扰时的反应并不相似,这反映在 16S rRNA 基因和转录本上。两个微生物群落的更替对相同的环境干扰做出了截然不同的反应,并显示出对变化的不同适应潜力。这些结果表明,即使受到相同的选择压力,这些微生物群落之间的异质性(反映在其强烈的生物地理格局中)仍能保持,而且 "稀有生物圈",至少在这些样本中,是深度分化的,并没有成为微生物群落的储藏库,使其能够对环境条件的变化做出趋同的反应:我们的研究结果有力地支持了地方性微生物群落的存在,这些群落在各种物理化学条件下对环境干扰表现出结构性的恢复能力。在干谷高度干旱和养分有限的环境中,这些结果提供了微生物生物地理模式的直接证据,这些模式可以塑造群落在面对未来环境变化时的反应。
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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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