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Rocca J. D., Simonin Marie, Bernhardt E. S., Washburne A. D., Wright J. P. (2019). Rare microbial taxa emerge when communities collide : freshwater and marine microbiome responses to experimental mixing. Ecology, [Early Access], e02956 [14 p.]. ISSN 0012-9658

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Lien direct chez l'éditeur doi:10.1002/ecy.2956

Titre
Rare microbial taxa emerge when communities collide : freshwater and marine microbiome responses to experimental mixing
Année de publication2019
Type de documentArticle référencé dans le Web of Science WOS:000511505200001
AuteursRocca J. D., Simonin Marie, Bernhardt E. S., Washburne A. D., Wright J. P.
SourceEcology, 2019, [Early Access], p. e02956 [14 p.]. p. e02956 [14 p.] ISSN 0012-9658
RésuméWhole microbial communities regularly merge with one another, often in tandem with their environments, in a process called community coalescence. Such events impose substantial changes: abiotic perturbation from environmental blending and biotic perturbation of community merging. We used an aquatic mixing experiment to unravel the effects of these perturbations on the whole microbiome response and on the success of individual taxa when distinct freshwater and marine communities coalesce. We found that an equal mix of freshwater and marine habitats and blended microbiomes resulted in strong convergence of the community structure toward that of the marine microbiome. The enzymatic potential of these blended microbiomes in mixed media also converged toward that of the marine, with strong correlations between the multivariate response patterns of the enzymes and of community structure. Exposing each endmember inocula to an axenic equal mix of their freshwater and marine source waters led to a 96% loss of taxa from our freshwater microbiomes and a 66% loss from our marine microbiomes. When both inocula were added together to this mixed environment, interactions amongst the communities led to a further loss of 29% and 49% of freshwater and marine taxa, respectively. Under both the axenic and competitive scenarios, the diversity lost was somewhat counterbalanced by increased abundance of microbial taxa that were too rare to detect in the initial inocula. Our study emphasizes the importance of the rare biosphere as a critical component of microbial community responses to community coalescence.
Plan de classementEcologie, systèmes aquatiques [036] ; Biotechnologies [084] ; Sciences fondamentales / Techniques d'analyse et de recherche [020] ; Sciences du milieu [021]
LocalisationFonds IRD [F B010077886]
Identifiant IRDfdi:010077886
Lien permanenthttp://www.documentation.ird.fr/hor/fdi:010077886

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