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Article Dans Une Revue Frontiers in Microbiology Année : 2018

Environmental concentrations of copper, alone or in mixture with arsenic, can impact river sediment microbial community structure and functions

Des concentrations environnementales de cuivre, seul ou en mélange avec l'arsenic, peuvent impacter la structure et les fonctions des communautés microbiennes du sédiment

Résumé

In many aquatic ecosystems, sediments are an essential compartment, which supports high levels of specific and functional biodiversity thus contributing to ecological functioning. Sediments are exposed to inputs from ground or surface waters and from surrounding watershed that can lead to the accumulation of toxic and persistent contaminants potentially harmful for benthic sediment-living communities, including microbial assemblages. As benthic microbial communities play crucial roles in ecological processes such as organic matter recycling and biomass production, we performed a 21-day laboratory channel experiment to assess the structural and functional impact of metals on natural microbial communities chronically exposed to sediments spiked with copper (Cu) and/or arsenic (As) alone or mixed at environmentally relevant concentrations (40 mg kg-1 for each metal). Heterotrophic microbial community responses to metals were evaluated both in terms of genetic structure (using ARISA analysis) and functional potential (using exoenzymatic, metabolic and functional genes analyses). Exposure to Cu had rapid marked effects on the structure and most of the functions of the exposed communities. Exposure to As had almost undetectable effects, possibly due to both lack of As bioavailability or toxicity toward the exposed communities. However, when the two metals were combined, certain functional responses suggested a possible interaction between Cu and As toxicity on heterotrophic communities. We also observed temporal dynamics in the functional response of sediment communities to chronic Cu exposure, alone or in mixture, with some functions being resilient and others being impacted throughout the experiment or only after several weeks of exposure. Taken together, these findings reveal that metal contamination of sediment could impact both the genetic structure and the functional potential of chronically exposed microbial communities. Given their functional role in aquatic ecosystems, it poses an ecological risk as it may impact ecosystem functioning.
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hal-01927769 , version 1 (20-11-2018)

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A. Mahamoud Ahmed, E. Lyautey, C. Bonnineau, Aymeric Dabrin, Stéphane Pesce. Environmental concentrations of copper, alone or in mixture with arsenic, can impact river sediment microbial community structure and functions. Frontiers in Microbiology, 2018, 9, 13 p. ⟨10.3389/fmicb.2018.01852⟩. ⟨hal-01927769⟩
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