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Plio-Pleistocene environmental variability in Africa and its implications for mammalian evolution.

Andrew S CohenAndrew DuJohn RowanChad L YostAnne L BillingsleyChristopher J CampisanoErik T BrownAlan L DeinoCraig S FeibelKatharine M GrantJohn D KingstonRachel L LupienVeronica MuiruriR Bernhart OwenKaye E ReedJames RussellMona Stockhecke
Published in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Understanding the climatic drivers of environmental variability (EV) during the Plio-Pleistocene and EV’s influence on mammalian macroevolution are two outstanding foci of research in African paleoclimatology and evolutionary biology. The potential effects of EV are especially relevant for testing the variability selection hypothesis, which predicts a positive relationship between EV and speciation and extinction rates in fossil mammals. Addressing these questions is stymied, however, by 1) a lack of multiple comparable EV records of sufficient temporal resolution and duration, and 2) the incompleteness of the mammalian fossil record. Here, we first compile a composite history of Pan-African EV spanning the Plio-Pleistocene, which allows us to explore which climatic variables influenced EV. We find that EV exhibits 1) a long-term trend of increasing variability since ∼3.7 Ma, coincident with rising variability in global ice volume and sea surface temperatures around Africa, and 2) a 400-ky frequency correlated with seasonal insolation variability. We then estimate speciation and extinction rates for fossil mammals from eastern Africa using a method that accounts for sampling variation. We find no statistically significant relationship between EV and estimated speciation or extinction rates across multiple spatial scales. These findings are inconsistent with the variability selection hypothesis as applied to macroevolutionary processes.
Keyphrases
  • genome wide
  • south africa
  • risk assessment
  • dna methylation