Simulation data for tracing snowball bifurcation on an earth-like aquaplanet 
over 4 billion years

Feulner, Georg; Bukenberger, Mona; Petri, Stefan

doi:10.5880/PIK.2022.003

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Simulation data for tracing snowball bifurcation on an earth-like aquaplanet over 4 billion years

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/persons/resource/Georg.Feulner

Feulner, Georg
Potsdam Institute for Climate Impact Research;

/persons/resource/mona.bukenberger

Bukenberger, Mona
Potsdam Institute for Climate Impact Research;

/persons/resource/petri

Petri, Stefan
Potsdam Institute for Climate Impact Research;

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Feulner, G., Bukenberger, M., Petri, S. (2023): Simulation data for tracing snowball bifurcation on an earth-like aquaplanet over 4 billion years.
https://doi.org/10.5880/PIK.2022.003

Zitierlink: https://publications.pik-potsdam.de/pubman/item/item_28368

Zusammenfassung

The atmospheric concentration of CO2 at which global glaciation (snowball) bifurcation occurs, changes throughout Earth's history, most notably because of the slowly increasing solar luminosity. Quantifying this critical CO2 concentration is not only interesting from a climate dynamics perspective, but also an important prerequisite for understanding past Snowball Earth episodes as well as the conditions for habitability on Earth and other planets. Here we use the coupled climate model CLIMBER-3α in an Aquaplanet configuration to scan for the Snowball bifurcation point for time slices spanning the last 4 billion years, thus quantifying the time evolution of the bifurcation and identifying a qualitative shift in critical state dynamics.