Combined Genomic and Imaging Techniques Show Intense Arsenic Enrichment Caused by Detoxification in a Microbial Mat of the Dead Sea Shore

Thomas, C.; Filella, M.; Ionescu, D.; Sorieul, S.; Pollier, C. G. L.; Oehlert, A. M.; Zahajská, P.; Gedulter, N.; Agnon, A.; Ferreira Sanchez, D.; Ariztegui, D.

doi:10.1029/2023gc011239

Geochem Geophys Geosyst

2024

DOI: 10.1029/2023gc011239

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Combined Genomic and Imaging Techniques Show Intense Arsenic Enrichment Caused by Detoxification in a Microbial Mat of the Dead Sea Shore

C. Thomas,

M. Filella,

D. Ionescu

et al.

Abstract: Microbial mats and microbialites are essential tools for reconstructing early life and its environments. To better understand microbial trace element cycling, a microbial mat was collected from the sinkhole systems of the western shores of the Dead Sea, a dynamic environment exhibiting diverse extreme environments. Intense arsenic enrichment was measured (up to 6.5 million times higher than current concentrations in water, and 400 times the bulk concentration in the mat). Arsenic was found predominantly as As(… Show more

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Taxonomic and functional partitioning of Chloroflexota populations under ferruginous conditions at and below the sediment-water interface

Vuillemin,

Ruiz-Blas,

Yang

et al. 2024

FEMS Microbiology Ecology

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The adaption of the phylum Chloroflexota to various geochemical conditions is thought to have originated in primitive microbial ecosystems, involving hydrogenotrophic energy conservation under ferruginous anoxia. Oligotrophic deep waters displaying anoxic ferruginous conditions, such as those of Lake Towuti, and their sediments may thus constitute a preferential ecological niche for investigating metabolic versatility in modern Chloroflexota. Combining pore water geochemistry, cell counts, sulfate reduction rates, 16S rRNA genes with in-depth analysis of metagenome-assembled genomes, we show that Chloroflexota benefit from cross-feeding on metabolites derived from canonical respiration chains and fermentation. Detailing their genetic contents, we provide molecular evidence that Anaerolineae have metabolic potential to use unconventional electron acceptors, different cytochromes and multiple redox metalloproteins to cope with oxygen fluctuations, and thereby effectively colonizing the ferruginous sediment-water interface. In sediments, Dehalococcoidia evolved to be acetogens, scavenging fatty acids, haloacids and aromatic acids, apparently bypassing specific steps in carbon assimilation pathways to perform energy-conserving secondary fermentations combined with CO2 fixation via the Wood-Ljungdahl pathway. Our study highlights the partitioning of Chloroflexota populations according to alternative electron acceptors and donors available at the sediment-water interface and below. Chloroflexota would have developed analogous primeval features due to oxygen fluctuations in ancient ferruginous ecosystems.

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Taxonomic and functional partitioning of Chloroflexota populations under ferruginous conditions at and below the sediment-water interface

Vuillemin,

Ruiz-Blas,

Yang

et al. 2024

FEMS Microbiology Ecology

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Combined Genomic and Imaging Techniques Show Intense Arsenic Enrichment Caused by Detoxification in a Microbial Mat of the Dead Sea Shore

Cited by 1 publication

References 175 publications

Taxonomic and functional partitioning of Chloroflexota populations under ferruginous conditions at and below the sediment-water interface

Taxonomic and functional partitioning of Chloroflexota populations under ferruginous conditions at and below the sediment-water interface

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