The Innovation (May 2024)

Respiratory protein-driven selectivity during the Permian-Triassic mass extinction

  • Haijun Song,
  • Yuyang Wu,
  • Xu Dai,
  • Jacopo Dal Corso,
  • Fengyu Wang,
  • Yan Feng,
  • Daoliang Chu,
  • Li Tian,
  • Huyue Song,
  • William J. Foster

Journal volume & issue
Vol. 5, no. 3
p. 100618

Abstract

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Extinction selectivity determines the direction of macroevolution, especially during mass extinction; however, its driving mechanisms remain poorly understood. By investigating the physiological selectivity of marine animals during the Permian-Triassic mass extinction, we found that marine clades with lower O2-carrying capacity hemerythrin proteins and those relying on O2 diffusion experienced significantly greater extinction intensity and body-size reduction than those with higher O2-carrying capacity hemoglobin or hemocyanin proteins. Our findings suggest that animals with high O2-carrying capacity obtained the necessary O2 even under hypoxia and compensated for the increased energy requirements caused by ocean acidification, which enabled their survival during the Permian-Triassic mass extinction. Thus, high O2-carrying capacity may have been crucial for the transition from the Paleozoic to the Modern Evolutionary Fauna.