Diversity and potential biogeochemical impacts of viruses in bulk and rhizosphere soils

Summary Viruses can affect microbial dynamics, metabolism and biogeochemical cycles in aquatic ecosystems. However, viral diversity and functions in agricultural soils are poorly known, especially in the rhizosphere. We used virome analysis of eight rhizosphere and bulk soils to study viral diversit...

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Published in:Environmental microbiology Vol. 23; no. 2; pp. 588 - 599
Main Authors: Bi, Li, Yu, Dan‐Ting, Du, Shuai, Zhang, Li‐Mei, Zhang, Li‐Yu, Wu, Chuan‐Fa, Xiong, Chao, Han, Li‐Li, He, Ji‐Zheng
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-02-2021
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Summary:Summary Viruses can affect microbial dynamics, metabolism and biogeochemical cycles in aquatic ecosystems. However, viral diversity and functions in agricultural soils are poorly known, especially in the rhizosphere. We used virome analysis of eight rhizosphere and bulk soils to study viral diversity and potential biogeochemical impacts in an agro‐ecosystem. The order Caudovirales was the predominant viral type in agricultural soils, with Siphoviridae being the most abundant family. Phylogenetic analysis of the terminase large subunit of Caudovirales identified high viral diversity and three novel groups. Viral community composition differed significantly between bulk and rhizosphere soils. Soil pH was the main environmental driver of the viral community structure. Remarkably, abundant auxiliary carbohydrate‐active enzyme (CAZyme) genes were detected in viromes, including glycoside hydrolases, carbohydrate esterases and carbohydrate‐binding modules. These results demonstrate that virus‐encoded putative auxiliary metabolic genes or metabolic genes that may change bacterial metabolism and indirectly contribute to biogeochemical cycling, especially carbon cycling, in agricultural soil.
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ISSN:1462-2912
1462-2920
DOI:10.1111/1462-2920.15010