Rare methanotrophs adapt to broader environmental gradients than abundant methanotrophs in the riparian zone of the Three Gorges Reservoir DOI Open Access
Jiajia Li, Muhammad Arif, Changxiao Li

et al.

Land Degradation and Development, Journal Year: 2023, Volume and Issue: 35(1), P. 249 - 263

Published: Sept. 28, 2023

Abstract Soil communities are intricately linked to ecosystem functioning. Uncovering the responses of rare and abundant taxa environmental change is vital for understanding methanotrophic community assembly function. It unclear what proportions different in riparian soil how may impact these, thereby affect structure communities. Considering both taxa, we investigated thresholds phylogenetic signals related ecological preferences under complex gradients, explore factors that influence their assembly. has significance predicting will gather response changing conditions. was found methanotrophs had network patterns across land‐use types, with complexity being higher grasslands woodlands than taxa. Different preference were observed between subcommunities zone, possessing potentially broader adaptation capabilities. Rare phylogenetically clustered closer together The dominated by stochastic processes, whereas deterministic processes. pH played an important role regulating balance processes subcommunities. increased values. We revealed a co‐occurring network, identified mediators assembly, examined adaptability species gradients. These findings indicate it possible predict generation maintenance diversity studying respond changes zone during vegetation restoration projects.

Language: Английский

Rare methanotrophs adapt to broader environmental gradients than abundant methanotrophs in the riparian zone of the Three Gorges Reservoir DOI Open Access
Jiajia Li, Muhammad Arif, Changxiao Li

et al.

Land Degradation and Development, Journal Year: 2023, Volume and Issue: 35(1), P. 249 - 263

Published: Sept. 28, 2023

Abstract Soil communities are intricately linked to ecosystem functioning. Uncovering the responses of rare and abundant taxa environmental change is vital for understanding methanotrophic community assembly function. It unclear what proportions different in riparian soil how may impact these, thereby affect structure communities. Considering both taxa, we investigated thresholds phylogenetic signals related ecological preferences under complex gradients, explore factors that influence their assembly. has significance predicting will gather response changing conditions. was found methanotrophs had network patterns across land‐use types, with complexity being higher grasslands woodlands than taxa. Different preference were observed between subcommunities zone, possessing potentially broader adaptation capabilities. Rare phylogenetically clustered closer together The dominated by stochastic processes, whereas deterministic processes. pH played an important role regulating balance processes subcommunities. increased values. We revealed a co‐occurring network, identified mediators assembly, examined adaptability species gradients. These findings indicate it possible predict generation maintenance diversity studying respond changes zone during vegetation restoration projects.

Language: Английский

Citations

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