Diversity, Functions and Antibiotic Resistance of Sediment Microbial Communities From Lake Geneva Are Driven by the Spatial Distribution of Anthropogenic Contamination

Diversity, Functions and Antibiotic Resistance of Sediment Microbial Communities From Lake Geneva Are Driven by the Spatial Distribution of Anthropogenic Contamination

Lake sediments are natural receptors for a wide range of anthropogenic contaminants including organic matter and toxicants such as trace metals, polycyclic aromatic hydrocarbons, polychlorinated biphenyls that accumulate over time. This contamination can impact benthic communities, including microor...

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Published in:Frontiers in microbiology Vol. 12; p. 738629
Main Authors: Lyautey, Emilie, Bonnineau, Chloé, Billard, Patrick, Loizeau, Jean-Luc, Naffrechoux, Emmanuel, Tlili, Ahmed, Topp, Edward, Ferrari, Benoît J.D., Pesce, Stéphane
Format: Journal Article
Language:English
Published: Frontiers Media 18-10-2021
Frontiers Media S.A
Subjects:
benthic communities
Earth Sciences
Geochemistry
metals
microbial ecotoxicology
Microbiology
organic matter
PAH
PCB
Sciences of the Universe
benthic communities
PAH
organic matter
metals
resistance genes
microbial ecotoxicology
urban contamination
PCB
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Summary:Lake sediments are natural receptors for a wide range of anthropogenic contaminants including organic matter and toxicants such as trace metals, polycyclic aromatic hydrocarbons, polychlorinated biphenyls that accumulate over time. This contamination can impact benthic communities, including microorganisms which play a crucial role in biogeochemical cycling and food-webs. The present survey aimed at exploring whether anthropogenic contamination, at a large lake scale, can influence the diversity, structure and functions of microbial communities associated to surface sediment, as well as their genetic potential for resistance to metals and antibiotics. Changes in the characteristics of these communities were assessed in surface sediments collected in Lake Geneva from eight sampling sites in October 2017 and May 2018. These sampling sites were characterized by a large concentration range of metal and organic compound contamination. Variation between the two sampling periods were very limited for all sampling sites and measured microbial parameters. In contrast, spatial variations were observed, with two sites being distinct from each other, and from the other six sites. Benthic communities from the most contaminated sampling site (Vidy Bay, near the city of Lausanne) were characterized by the lowest bacterial and archaeal diversity, a distinct community composition, the highest abundance of antibiotic resistance genes and functional (respiration, denitrification, methanogenesis, phosphatase, and beta-glucosidase) activity levels. The second sampling site which is highly influenced by inputs from the Rhône River, exhibited low levels of diversity, a distinct community composition, high abundance of antibiotic resistance genes and the highest bacterial abundance. Overall, our results suggest that local anthropogenic contamination, including organic matter and toxicants, is a major driver of the diversity and functioning of sediment-microbial communities in Lake Geneva. This highlights the need to consider benthic microbial communities and a suite of complementary ecotoxicological endpoints for more effective environmental risk assessments of contaminants in lake sediments.
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This article was submitted to Microbiotechnology, a section of the journal Frontiers in Microbiology
Edited by: Carmen Palacios, Université de Perpignan Via Domitia, France
Reviewed by: Kevin Thomas Finneran, Clemson University, United States; Naresh Singhal, The University of Auckland, New Zealand
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2021.738629