Chemical multi-contamination drives benthic prokaryotic diversity in the anthropized Toulon Bay

Chemical multi-contamination drives benthic prokaryotic diversity in the anthropized Toulon Bay

Investigating the impact of human activities on marine coastal ecosystems remains difficult because of the co-occurrence of numerous natural and human-induced gradients. Our aims were (i) to evaluate the links between the chemical environment as a whole and microbial diversity in the benthic compart...

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Veröffentlicht in:The Science of the total environment 2016-06, Vol.556, p.319-329
Hauptverfasser: Misson, Benjamin, Garnier, Cédric, Lauga, Béatrice, Dang, Duc Huy, Ghiglione, Jean-François, Mullot, Jean-Ulrich, Duran, Robert, Pringault, Olivier
Format: Artikel
Sprache:eng
Schlagworte:
Archaea
Biodiversity
Biodiversity and Ecology
Ecotoxicology
Environmental Monitoring
Environmental Sciences
Life Sciences
Marine sediment
Microbial ecotoxicology
Multi-contamination
Prokaryotic diversity
Seawater - microbiology
Toxicology
Vietnam
Water Microbiology
Water Pollutants, Chemical - analysis
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container_end_page 329
container_issue
container_start_page 319
container_title The Science of the total environment
container_volume 556
creator Misson, Benjamin
Garnier, Cédric
Lauga, Béatrice
Dang, Duc Huy
Ghiglione, Jean-François
Mullot, Jean-Ulrich
Duran, Robert
Pringault, Olivier
description Investigating the impact of human activities on marine coastal ecosystems remains difficult because of the co-occurrence of numerous natural and human-induced gradients. Our aims were (i) to evaluate the links between the chemical environment as a whole and microbial diversity in the benthic compartment, and (ii) to compare the contributions of anthropogenic and natural chemical gradients to microbial diversity shifts. We studied surface sediments from 54 sampling sites in the semi-enclosed Toulon Bay (NW Mediterranean) exposed to high anthropogenic pressure. Previously published chemical data were completed by new measurements, resulting in an in depth geochemical characterization by 29 representative environmental variables. Bacterial and archaeal diversity was assessed by terminal restriction fragment length polymorphism profiling on a selection of samples distributed along chemical gradients. Multivariate statistical analyses explained from 45% to 80% of the spatial variation in microbial diversity, considering only the chemical variables. A selection of trace metals of anthropogenic origin appeared to be strong structural factors for both bacterial and archaeal communities. Bacterial terminal restriction fragment (T-RF) richness correlated strongly with both anthropogenic and natural chemical gradients, whereas archaeal T-RF richness demonstrated fewer links with chemical variables. No significant decrease in diversity was evidenced in relation to chemical contamination, suggesting a high adaptive potential of benthic microbial communities in Toulon Bay. [Display omitted] •Investigating links between coastal sediment geochemistry and microbial communities•Disentangling natural and anthropogenic gradients' influences on microbial diversity•Genetic fingerprinting of the biosphere and geochemical analyses in hydrosphere•The chemical environment as a whole explained most of biological structure shifts•Trace metal contamination was the most influent factor in Toulon bay sediment.
doi_str_mv 10.1016/j.scitotenv.2016.02.038
format Article
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subjects Archaea
Biodiversity
Biodiversity and Ecology
Ecotoxicology
Environmental Monitoring
Environmental Sciences
Life Sciences
Marine sediment
Microbial ecotoxicology
Multi-contamination
Prokaryotic diversity
Seawater - microbiology
Toxicology
Vietnam
Water Microbiology
Water Pollutants, Chemical - analysis
title Chemical multi-contamination drives benthic prokaryotic diversity in the anthropized Toulon Bay
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