Model output for aerosol-induced cooling after the Chicxulub impact

Brugger, Julia; Feulner, Georg; Petri, Stefan

doi:10.5880/PIK.2021.002

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Model output for aerosol-induced cooling after the Chicxulub impact

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/persons/resource/julia.brugger

Brugger, Julia
Potsdam Institute for Climate Impact Research;

/persons/resource/Georg.Feulner

Feulner, Georg
Potsdam Institute for Climate Impact Research;

/persons/resource/petri

Petri, Stefan
Potsdam Institute for Climate Impact Research;

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Brugger, J., Feulner, G., Petri, S. (2021): Model output for aerosol-induced cooling after the Chicxulub impact.
https://doi.org/10.5880/PIK.2021.002

Cite as: https://publications.pik-potsdam.de/pubman/item/item_26561

Abstract

The simulations of the end‐Cretaceous climate and the effects of the impact are carried out with a coupled climate model consisting of a modified version of the ocean general circulation model MOM3, a dynamic/thermodynamic sea ice model, and a fast statistical‐dynamical atmosphere model. Our impact simulations are based on a climate simulation of the end‐Cretaceous climate state using a Maastrichtian (70 Ma) continental configuration. The solar constant is scaled to 1354 W/m2, based on the present‐day solar constant of 1361 W/m2 and a standard solar model. A baseline simulation with 500 ppm of atmospheric CO2 and a sensitivity experiment at 1000 ppm CO2 concentration. The impact is assumed to release 100 Gt sulfur and 1400 Gt CO2. We simulate stratospheric residence times of 2.1 y, 4.3 y and 10.6 y. More information about the model can be found in the manuscript (https://doi.org/10.1002/2016GL072241).