Communications Biology (Aug 2024)

Cross-biome microbial networks reveal functional redundancy and suggest genome reduction through functional complementarity

  • Fernando Puente-Sánchez,
  • Alberto Pascual-García,
  • Ugo Bastolla,
  • Carlos Pedrós-Alió,
  • Javier Tamames

DOI
https://doi.org/10.1038/s42003-024-06616-5
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 11

Abstract

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Abstract The structure of microbial communities arises from a multitude of factors, including the interactions of microorganisms with each other and with the environment. In this work, we sought to disentangle those drivers by performing a cross-study, cross-biome meta-analysis of microbial occurrence data in more than 5000 samples, applying a novel network clustering algorithm aimed to capture conditional taxa co-occurrences. We then examined the phylogenetic and functional composition of the resulting clusters, and searched for global patterns of assembly both at the community level and in the presence/absence of individual metabolic pathways. Our analysis highlighted the prevalence of functional redundancy in microbial communities, particularly between taxa that co-occur in more than one environment, pointing to a relationship between functional redundancy and environmental adaptation. In spite of this, certain pathways were observed in fewer taxa than expected by chance, suggesting the presence of auxotrophy, and presumably cooperation among community members. This hypothetical cooperation may play a role in genome reduction, since we observed a negative relationship between the size of bacterial genomes and the size of the community they belong to. Overall, our results suggest the microbial community assembly is driven by universal principles that operate consistently across different biomes and taxonomic groups.