Niche expansion for phototrophic sulfur bacteria at the Proterozoic - Phanerozoic transition

dc.contributor.authorCui, Xingqian
dc.contributor.authorLiu, Xiao-Lei
dc.contributor.authorShen, Gaozhong
dc.contributor.authorMa, Jian
dc.contributor.authorHusain, Fatima
dc.contributor.authorRocher, Donald
dc.contributor.authorZumberge, John E.
dc.contributor.authorBryant, Donald A.
dc.contributor.authorSummons, Roger E.
dc.date.accessioned2022-02-02T21:08:24Z
dc.date.available2022-02-02T21:08:24Z
dc.date.issued2020-07
dc.description.abstractFossilized carotenoid hydrocarbons provide a window into the physiology and biochemistry of ancient microbial phototrophic communities for which only a sparse and incomplete fossil record exists. However, accurate interpretation of carotenoid-derived biomarkers requires detailed knowledge of the carotenoid inventories of contemporary phototrophs and their physiologies. Here we report two distinct patterns of fossilized C40 diaromatic carotenoids. Phanerozoic marine settings show distributions of diaromatic hydrocarbons dominated by isorenieratane, a biomarker derived from low-light-adapted phototrophic green sulfur bacteria. In contrast, isorenieratane is only a minor constituent within Neoproterozoic marine sediments and Phanerozoic lacustrine paleoenvironments, for which the major compounds detected are renierapurpurane and renieratane, together with some novel C39 and C38 carotenoid degradation products. This latter pattern can be traced to cyanobacteria as shown by analyses of cultured taxa and laboratory simulations of sedimentary diagenesis. The cyanobacterial carotenoid synechoxanthin, and its immediate biosynthetic precursors, contain thermally labile, aromatic carboxylic-acid functional groups, which upon hydrogenation and mild heating yield mixtures of products that closely resemble those found in the Proterozoic fossil record. The Neoproterozoic–Phanerozoic transition in fossil carotenoid patterns likely reflects a step change in the surface sulfur inventory that afforded opportunities for the expansion of phototropic sulfur bacteria in marine ecosystems. Furthermore, this expansion might have also coincided with a major change in physiology. One possibility is that the green sulfur bacteria developed the capacity to oxidize sulfide fully to sulfate, an innovation which would have significantly increased their capacity for photosynthetic carbon fixation.en_US
dc.identifier.citationCui, Xingqian, Xiao-Lei Liu, Gaozhong Shen, Jian Ma, Fatima Husain, Donald Rocher, John E. Zumberge, Donald A. Bryant, and Roger E. Summons. “Niche Expansion for Phototrophic Sulfur Bacteria at the Proterozoic–Phanerozoic Transition.” Proceedings of the National Academy of Sciences 117, no. 30 (July 9, 2020): 17599–17606. doi:10.1073/pnas.2006379117.en_US
dc.identifier.issn0027-8424
dc.identifier.urihttps://scholarworks.montana.edu/handle/1/16618
dc.language.isoen_USen_US
dc.rights© 2020 This final published version is made available under the CC-BY-NC-ND 4.0 license.en_US
dc.rights© 2020 This final published version is made available under the CC-BY-NC-ND 4.0 license.en_US
dc.rights.urihttps://creativecommons.org/licenses/by-nc-nd/4.0/en_US
dc.titleNiche expansion for phototrophic sulfur bacteria at the Proterozoic - Phanerozoic transitionen_US
dc.typeArticleen_US
mus.citation.extentfirstpage17599en_US
mus.citation.extentlastpage17606en_US
mus.citation.issue30en_US
mus.citation.journaltitleProceedings of the National Academy of Sciencesen_US
mus.citation.volume117en_US
mus.data.thumbpage2en_US
mus.identifier.doi10.1073/pnas.2006379117en_US
mus.relation.collegeCollege of Letters & Scienceen_US
mus.relation.departmentChemistry & Biochemistry.en_US
mus.relation.universityMontana State University - Bozemanen_US

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