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Snowball earth bifurcations in a fully-implicit earth system model
Mulder, T.E.; Goelzer, H.; Wubs, F.W.; Dijkstra, H.A. (2021). Snowball earth bifurcations in a fully-implicit earth system model. International Journal of Bifurcation and Chaos 31(06): 2130017. https://dx.doi.org/10.1142/S0218127421300172
In: International Journal of Bifurcation and Chaos. WORLD SCIENTIFIC PUBL CO PTE LTD: Singapore. ISSN 0218-1274; e-ISSN 1793-6551, more
Peer reviewed article  

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Keyword
    Marine/Coastal
Author keywords
    Bifurcation analysis; snowball Earth; Earth system model

Authors  Top 
  • Mulder, T.E.
  • Goelzer, H., more
  • Wubs, F.W.
  • Dijkstra, H.A.

Abstract
    There is now much geological evidence that the Earth was fully glaciated during several periods in the geological past (about 700 Myr ago) and attained a so-called Snowball Earth (SBE) state. Additional support for this idea has come from climate models of varying complexity that show transitions to SBE states and undergo hysteresis under changes in solar radiation. In this paper, we apply large-scale bifurcation analyses to a novel, fully-implicit Earth System Model of Intermediate Complexity (I-EMIC) to study SBE transitions. The I-EMIC contains a primitive equation ocean model, a model for atmospheric heat and moisture transport, a sea ice component and formulations for the adjustment of albedo over snow and ice. With the I-EMIC, high-dimensional branches of the SBE bifurcation diagram are obtained through parameter continuation. We are able to identify stable and unstable equilibria and uncover an intricate bifurcation structure associated with the ice-albedo feedback. Moreover, large-scale linear stability analyses are performed near major bifurcations, revealing the spatial nature of destabilizing perturbations.

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