Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1780986 | Planetary and Space Science | 2015 | 15 Pages |
Abstract
The different stellar spectral energy distributions lead to different surface temperatures and due to ozone heating to very different vertical temperature structures. As previous 1D studies we find higher surface temperatures for the Earth-like planet around the K-type star, and lower temperatures for the planet around the F-type star compared to an Earth-like planet around the Sun. However, this effect is more pronounced in the 3D model results than in the 1D model because the 3D model accounts for feedback processes such as the ice-albedo and the water vapor feedback. Whether the 1D model may approximate the global mean of the 3D model results strongly depends on the choice of the relative humidity profile in the 1D model, which is used to determine the water vapor profile. Hence, possible changes in the hydrological cycle need to be accounted for when estimating the potential habitability of an extrasolar planet.
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
Geophysics
Authors
M. Godolt, J.L. Grenfell, A. Hamann-Reinus, D. Kitzmann, M. Kunze, U. Langematz, P. von Paris, A.B.C. Patzer, H. Rauer, B. Stracke,