2016
DOI: 10.1017/s1473550415000579
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Cyanobacterial evolution during the Precambrian

Abstract: Life on Earth has existed for at least 3.5 billion years. Yet, relatively little is known of its evolution during the first two billion years, due to the scarceness and generally poor preservation of fossilized biological material. Cyanobacteria, formerly known as blue green algae were among the first crown Eubacteria to evolve and for more than 2.5 billion years they have strongly influenced Earth's biosphere. Being the only organism where oxygenic photosynthesis has originated, they have oxygenated Earth's a… Show more

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Cited by 130 publications
(113 citation statements)
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References 156 publications
(256 reference statements)
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“…The main problems with molecular clocks include differences in fossil-based calibration points, differences in molecular clock rate models, differences in amino acid substitution rates among various parts of the dataset and uncertainty in the phylogenetic tree, thus limiting the precision that can be achieved in estimates of ancient molecular timescales (dos Reis et al, 2015). Cyanobacteria are at least 2.3-3 Ga old from molecular clock studies (Dvorák et al, 2014;Sanchez-Baracaldo, 2015), whereas fossil evidence (stromatolites, microfossils, carbon isotopes, biomarkers, signs of oxygen) from Greenland, Australia and elsewhere have raised the possibility of cyanobacteria older than 3 Gy, although these claims are disputed (Schirrmeister et al, 2016).…”
Section: Changing Si Biogeochemistry In the Precambrian Oceansmentioning
confidence: 99%
“…The main problems with molecular clocks include differences in fossil-based calibration points, differences in molecular clock rate models, differences in amino acid substitution rates among various parts of the dataset and uncertainty in the phylogenetic tree, thus limiting the precision that can be achieved in estimates of ancient molecular timescales (dos Reis et al, 2015). Cyanobacteria are at least 2.3-3 Ga old from molecular clock studies (Dvorák et al, 2014;Sanchez-Baracaldo, 2015), whereas fossil evidence (stromatolites, microfossils, carbon isotopes, biomarkers, signs of oxygen) from Greenland, Australia and elsewhere have raised the possibility of cyanobacteria older than 3 Gy, although these claims are disputed (Schirrmeister et al, 2016).…”
Section: Changing Si Biogeochemistry In the Precambrian Oceansmentioning
confidence: 99%
“…Regarding the timing of origin, the fossil record of Cyanobacteria is not conclusive (Schirrmeister et al, 2016). A fundamental question in biology is when oxygenic photosynthesis first evolved.…”
Section: What Is the Evidence For The Origin Of Oxygenic Photosyntmentioning
confidence: 99%
“…1) (Hug et al, 2016;Ward et al, 2019). At the organismal level, phylogenomic approaches unravel the evolutionary history of organisms that are currently able to perform oxygenic photosynthesis (Blank & S anchez-Baracaldo, 2010;Schirrmeister et al, 2013Schirrmeister et al, , 2016. While, to an extent, it is reasonable to interchange both terms, there are significant differences when referring to oxygenic photosynthesis and Cyanobacteria.…”
Section: The Origin Of Photosystem II (Psii) Vs the Origin Of Cymentioning
confidence: 99%
“…Most research on cyanobacteria is guided by evolutionary, ecological, ecotoxicological, biochemical, and taxonomic concerns (for a review on common investigation topics regarding cyanobacteria see Sciuto and Moro, 2015). Cyanobacteria were amongst the earliest organisms on the planet and synthesized important molecules for primitive life (Banack et al, 2012; Schirrmeister et al, 2016). Later, microorganisms of this phylum were responsible for oxygenating Earth's atmosphere (Shih et al, 2017) and originating chloroplasts (Alda et al, 2014).…”
Section: Introductionmentioning
confidence: 99%