Litcius/Paper detail

Arctic ice and the ecological rise of the dinosaurs

Paul E. Olsen, Jingeng Sha, Yanan Fang, Clara Chang, Jessica H. Whiteside, Sean Kinney, Hans‐Dieter Sues, Dennis V. Kent, Morgan F. Schaller, Vivi Vajda

2022Science Advances49 citationsDOIOpen Access PDF

Abstract

Abundant lake ice-rafted debris in Late Triassic and earliest Jurassic strata of the Junggar Basin of northwestern China (paleolatitude ~71°N) indicates that freezing winter temperatures typified the forested Arctic, despite a persistence of extremely high levels of atmospheric P co 2 (partial pressure of CO 2 ). Phylogenetic bracket analysis shows that non-avian dinosaurs were primitively insulated, enabling them to access rich deciduous and evergreen Arctic vegetation, even under freezing winter conditions. Transient but intense volcanic winters associated with massive eruptions and lowered light levels led to the end-Triassic mass extinction (201.6 Ma) on land, decimating all medium- to large-sized nondinosaurian, noninsulated continental reptiles. In contrast, insulated dinosaurs were already well adapted to cold temperatures, and not only survived but also underwent a rapid adaptive radiation and ecological expansion in the Jurassic, taking over regions formerly dominated by large noninsulated reptiles.

Topics & Concepts

EvergreenArcticExtinction eventExtinction (optical mineralogy)DeciduousGeologyEcologyVegetation (pathology)PaleontologyPermafrostPlateau (mathematics)Physical geographyOceanographyGeographyBiologySociologyMathematicsPopulationPathologyDemographyMathematical analysisMedicineBiological dispersalPaleontology and Evolutionary BiologyEvolution and Paleontology StudiesIchthyology and Marine Biology