Stratospheric Temperatures and Water Loss from Moist Greenhouse Atmospheres of Earth-like Planets
Authors:
Kasting et al
Abstract:
A radiative-convective climate model is used to calculate stratospheric temperatures and water vapor concentrations for ozone-free atmospheres warmer than that of modern Earth. Cold, dry stratospheres are predicted at low surface temperatures, in agreement with recent 3-D calculations. However, at surface temperatures above 350 K, the stratosphere warms and water vapor becomes a major upper atmospheric constituent, allowing water to be lost by photodissociation and hydrogen escape. Hence, a 'moist greenhouse' explanation for loss of water from Venus, or some exoplanet receiving a comparable amount of stellar radiation, remains a viable hypothesis. Temperatures in the upper parts of such atmospheres are well below those estimated for a gray atmosphere, and this factor should be taken into account when performing 'inverse' climate calculations to determine habitable zone boundaries using 1-D models.
Monday, November 30, 2015
Water Loss in Moist Greenhouse Atmospheres of Terrestrial Exoplanets
Labels:
exoatmosphere,
habitability,
habitable zone,
terrestrial planets,
water
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