2016
DOI: 10.1073/pnas.1521544113
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Earth’s oxygen cycle and the evolution of animal life

Abstract: The emergence and expansion of complex eukaryotic life on Earth is linked at a basic level to the secular evolution of surface oxygen levels. However, the role that planetary redox evolution has played in controlling the timing of metazoan (animal) emergence and diversification, if any, has been intensely debated. Discussion has gravitated toward threshold levels of environmental free oxygen (O 2 ) necessary for early evolving animals to survive under controlled conditions. However, defining such thresholds in… Show more

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Cited by 230 publications
(167 citation statements)
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“…This observation, independent of the model constraints, points to generally low O 2 concentrations in post-GOE oceans prior to stage records for Cr enrichment (Reinhard et al, 2013a) and isotopic trends Cole et al, 2016). However, as stressed by Partin et al (2013), Cole et al (2016), and Reinhard et al (2016), such an interpretation is only meant to represent the first-order marine redox landscape and does not preclude the possibility of spatiotemporal variations in atmosphere-ocean redox during midProterozoic time. Indeed, the higher average [Re] sed values from the ca.…”
Section: Constraints On the Extent Of Mid-proterozoic Ocean Anoxiamentioning
confidence: 81%
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“…This observation, independent of the model constraints, points to generally low O 2 concentrations in post-GOE oceans prior to stage records for Cr enrichment (Reinhard et al, 2013a) and isotopic trends Cole et al, 2016). However, as stressed by Partin et al (2013), Cole et al (2016), and Reinhard et al (2016), such an interpretation is only meant to represent the first-order marine redox landscape and does not preclude the possibility of spatiotemporal variations in atmosphere-ocean redox during midProterozoic time. Indeed, the higher average [Re] sed values from the ca.…”
Section: Constraints On the Extent Of Mid-proterozoic Ocean Anoxiamentioning
confidence: 81%
“…Our interpretation is also consistent with Mo concentration and isotope data for these ORM (Kendall et al, 2009(Kendall et al, , 2015b, which constrain the extent of ocean euxinia rather than general ocean anoxia (euxinic plus ferruginous conditions). The model does not preclude the possibility that a significant portion of the low-productivity regions of the deep oceans may have been covered by weakly oxygenated waters (Slack et al, 2007(Slack et al, , 2009, nor does it preclude oxygenated surface waters in highly productive regions (Sperling et al, 2014;Reinhard et al, 2016).…”
Section: Constraints On the Extent Of Mid-proterozoic Ocean Anoxiamentioning
confidence: 99%
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“…Whether the billion-year macroevolutionary gap separating the LECA from the LCA of animals was primarily dictated by environmental-ecological conditions [6,46] or evolutionary contingency [33,40] remains debated (and perhaps an overly simplistic dichotomy -ref. [47]), although animal monophyly is arguably more consistent with the latter scenario [1,[31][32][33]. For example, it has been predicted that coloniality in the unicellular ancestors of animals was selected for its benefits in avoiding engulfment by predatory ciliates and other eukaryote-eating protists, which apparently evolved sometime in the Neoproterozoic Era [6,46].…”
Section: Animal Origins In Context: the Tonian Earth Systemmentioning
confidence: 99%