On the probability of habitable planets

TL;DR

This paper reviews the progress in understanding the probability of habitable planets, focusing on climate models and atmospheric evolution, and discusses the potential rarity of Earth-like habitability in the galaxy.

Contribution

It highlights recent advances in climate modeling and atmospheric studies that improve estimates of planetary habitability and emphasizes the need to understand geophysical feedbacks for sustaining life.

Findings

3D climate models improve habitability predictions

Atmospheric evolution processes are crucial for habitability

Earth's habitability may be a rare case

Abstract

In the past 15 years, astronomers have revealed that a significant fraction of the stars should harbor planets and that it is likely that terrestrial planets are abundant in our galaxy. Among these planets, how many are habitable, i.e. suitable for life and its evolution? These questions have been discussed for years and we are slowly making progress. Liquid water remains the key criterion for habitability. It can exist in the interior of a variety of planetary bodies, but it is usually assumed that liquid water at the surface interacting with rocks and light is necessary for the emergence of a life able to modify its environment and evolve. A first key issue is thus to understand the climatic conditions allowing surface liquid water assuming a suitable atmosphere. This have been studied with global mean 1D models which has defined the "classical habitable zone", the range of orbital distances within which worlds can maintain liquid water on their surfaces (Kasting et al. 1993). A new generation of 3D climate models based on universal equations and tested on bodies in the solar system is now available to explore with accuracy climate regimes that could locally allow liquid water. A second key issue is now to better understand the processes which control the composition and the evolution of the atmospheres of exoplanets, and in particular the geophysical feedbacks that seems to be necessary to maintain a continuously habitable climate. From that point of view, it is not impossible that the Earth's case may be special and uncommon.