Climate Variations in the Past 250 Million Years and Contributing Factors

Journal Article (Journal Article)

We simulate climate variations in the past 250 million years (Myr), using the fully coupled Community Earth System Model version 1.2.2 (CESM1.2.2) with the Community Atmosphere Model version 4 (CAM4). Three groups of simulations are performed, each including 26 simulations, with a 10-million-year interval. The Control group is constrained by paleogeography, increasing solar radiation, and reconstructed global mean surface temperatures (GMSTs) by tuning CO2 concentrations. No ice sheets are prescribed for all simulations except for the pre-industrial (PI) simulation in which modern geography, ice sheets and vegetation are used. Simulated zonal mean surface temperatures are always higher than those of proxy reconstructions in the tropics, but lower than those of proxy reconstructions at middle latitudes. The relative importance of individual contributing factors for surface temperature variations in the past 250 Myr is diagnosed, using the energy-balance analysis. Results show that greenhouse gases are the major driver in regulating GMST variations, with a maximum contribution of 12.2°C. Varying surface albedo contributes to GMST variations by 3.3°C. Increasing solar radiation leads to GMST increases by 1.5°C. Cloud radiative effects have relatively weak impacts on GMST variations, less than ±0.8°C. For comparison, two groups of sensitivity simulations are performed. One group has the CO2 concentration fixed at 10 times the PI value, and the other group has fixed CO2 concentration of 10 times the PI value and fixed solar radiation at the present-day value, showing that varying both paleogeography and solar constant and varying paleogeography alone result in GMST changes by 7.3°C and 5.6°C, respectively.

Full Text

Duke Authors

Cited Authors

  • Li, X; Hu, Y; Yang, J; Wei, M; Guo, J; Lan, J; Lin, Q; Yuan, S; Zhang, J; Wei, Q; Liu, Y; Nie, J; Xia, Y; Hu, S

Published Date

  • February 1, 2023

Published In

Volume / Issue

  • 38 / 2

Electronic International Standard Serial Number (EISSN)

  • 2572-4525

International Standard Serial Number (ISSN)

  • 2572-4517

Digital Object Identifier (DOI)

  • 10.1029/2022PA004503

Citation Source

  • Scopus