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Showing 1–5 of 5 results
Advanced filters: Author: Simon A. F. Darroch Clear advanced filters

  • Rank abundance distribution models reveal that Ediacaran ecological communities were highly complex, probably including species competing for different resources and/or creating niches for other species.

    • Simon A. F. Darroch
    • Marc Laflamme
    • Peter J. Wagner
    Research
    Nature Ecology & Evolution
    Volume: 2, P: 1541-1547

  • Reconstruction of oceanic phosphorus concentrations during a large negative carbon-isotope excursion co-occurring with global oceanic oxygenation and evolution of some of Earth’s earliest animals suggests that decoupled phosphorus and ocean anoxia cycles during the Ediacaran may have prolonged the rise of atmospheric oxygen.

    • Matthew S. Dodd
    • Wei Shi
    • Timothy W. Lyons
    Research
    Nature
    Volume: 618, P: 974-980

  • The fossil record provides a nuanced view of ecosystem collapse over intervals of mass extinction, with abundant, biomineralizing and widespread species preferentially preserved; here the authors collate evidence for ‘mass rarity’ during these intervals, and suggest that the increasing rarity of modern species, rather than their outright extinction, may be a better metric for comparing the current biodiversity crisis to the ‘Big Five’ mass extinctions in the Earth’s history.

    • Pincelli M. Hull
    • Simon A. F. Darroch
    • Douglas H. Erwin
    Reviews
    Nature
    Volume: 528, P: 345-351