Microbial generalist or specialist: Intraspecific variation and dormancy potential matter

Microbial generalists and specialists coexist in the soil environment while having distinctive impacts on microbial community dynamics. In microbial ecology, the underlying mechanisms as to why a species is a generalist or a specialist remain ambiguous. Herein, we collected soils across a national s...

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Veröffentlicht in:	Molecular ecology 2022-01, Vol.31 (1), p.161-173
Hauptverfasser:	Xu, Qicheng, Luo, Gongwen, Guo, Junjie, Xiao, Yan, Zhang, Fengge, Guo, Shiwei, Ling, Ning, Shen, Qirong
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation, Physiological Assembly Bacteria - genetics Biological Evolution BiSSE model Control stability Dormancy dormancy potential Environmental changes Humans intraspecific variation Microbiota Microorganisms Niche breadth Nucleotides Soil Soil dynamics Soil environment Species Stochastic processes Variation
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container_title	Molecular ecology
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creator	Xu, Qicheng Luo, Gongwen Guo, Junjie Xiao, Yan Zhang, Fengge Guo, Shiwei Ling, Ning Shen, Qirong
description	Microbial generalists and specialists coexist in the soil environment while having distinctive impacts on microbial community dynamics. In microbial ecology, the underlying mechanisms as to why a species is a generalist or a specialist remain ambiguous. Herein, we collected soils across a national scale and identified bacterial generalists and specialists according to niche breadth at the species level (OTU level), and the single‐nucleotide differences in each species were measured to investigate intraspecific variation (at zero‐radius OTU level). Compared with that of the specialists, the intraspecific variation of the generalists was much higher, which ensured their wider niche breadth and lower variability. The higher asynchrony and different niche preferences of conspecific individuals and the higher dormancy potential within the generalists further contributed to their stability in varying environments. Besides, generalists were less controlled by environmental filtering, which was indicated by the stronger signature of stochastic processes in their assembly, and had higher diversification and transition rates that allowed them to adapt to environmental changes to a greater extent than specialists. Overall, this study provides a new comprehensive understanding of the rules of assembly and the evolutionary roles of bacterial generalists and specialists. It also highlights the importance of intraspecific variation and the dormancy potential in the stability of species.
doi_str_mv	10.1111/mec.16217
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Besides, generalists were less controlled by environmental filtering, which was indicated by the stronger signature of stochastic processes in their assembly, and had higher diversification and transition rates that allowed them to adapt to environmental changes to a greater extent than specialists. Overall, this study provides a new comprehensive understanding of the rules of assembly and the evolutionary roles of bacterial generalists and specialists. 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subjects	Adaptation, Physiological Assembly Bacteria - genetics Biological Evolution BiSSE model Control stability Dormancy dormancy potential Environmental changes Humans intraspecific variation Microbiota Microorganisms Niche breadth Nucleotides Soil Soil dynamics Soil environment Species Stochastic processes Variation
title	Microbial generalist or specialist: Intraspecific variation and dormancy potential matter
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