2020
DOI: 10.1101/2020.05.26.116590
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Chloroflexi persisting for millions of years in oxic and anoxic deep-sea clay

Abstract: Significance statement: Chloroflexi are widespread in energy-limited subseafloor sediments, both in 29 oxic subseafloor sediments that are energetically limited by the availability of electron donors (organic 30 matter) and in anoxic sediments that are energetically limited by the availability of high energy terminal 31 electron acceptors. How Chloroflexi respond to these different forms of energy limitation over long time 32 scales is poorly understood. We present new data that demonstrates how key difference… Show more

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Cited by 6 publications
(5 citation statements)
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“…Moreover, in culture experiments from the first cultivated representative of the Atribacteria, the presence of an H2-consuming methanogenic partner increased the growth rate of Atribacteria by more than 100 fold (43). Based on this experimental result, we speculate that the relatively high abundance of the Atribacteria in our sampled ancient anoxic sediment could be attributed to an as-of-yet unidentified syntrophic or semi-syntrophic partner organism, from the Chloroflexi, for example Dehalococcoidia (74,75).…”
Section: Gene Expression Analysismentioning
confidence: 53%
“…Moreover, in culture experiments from the first cultivated representative of the Atribacteria, the presence of an H2-consuming methanogenic partner increased the growth rate of Atribacteria by more than 100 fold (43). Based on this experimental result, we speculate that the relatively high abundance of the Atribacteria in our sampled ancient anoxic sediment could be attributed to an as-of-yet unidentified syntrophic or semi-syntrophic partner organism, from the Chloroflexi, for example Dehalococcoidia (74,75).…”
Section: Gene Expression Analysismentioning
confidence: 53%
“…Moreover, in culture experiments from the first cultivated representative of the atribacteria, the presence of an H 2 -consuming methanogenic partner increased the growth rate of atribacteria by more than 100-fold (43). Based on this experimental result, we speculate that the relatively high abundance of the atribacteria in our sampled ancient anoxic sediment could be attributed to an as-of-yet-unidentified syntrophic or semisyntrophic partner organism, from the Chloroflexi, for example, Dehalococcoidia (74,75).…”
Section: ϫmentioning
confidence: 55%
“…Similarly, Anaerolineae (Chloroflexi) , which constituted a significant portion of the deep anoxic microbial community (14%) (Figure 5), benefit from the hydrogen‐producing bacteria. Even though the members of this genus are typically photoautotrophs and photoheterotrophs, they are capable of growing in the dark using hydrogen and H 2 S as electron donors, and a wide variety of organic substances, such as sugars or amino acids, as carbon source (Vuillemin et al, 2020).…”
Section: Resultsmentioning
confidence: 99%