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Outer Limits of the Habitable Zones in Terms of Climate Mode and Climate Evolution of Earth-like Planets

2019; IOP Publishing; Volume: 875; Issue: 1 Linguagem: Inglês

10.3847/1538-4357/ab0aef

1538-4357

Shintaro Kadoya, Eiichi Tajika,

Geology and Paleoclimatology Research

Abstract We investigate the climate modes and climate evolution of Earth-like planets—specifically planets that receive lower insolation than the present Earth—to discuss the outer limits of the habitable zones (HZs) associated with main-sequence stars. The HZ outer limit is discussed in terms of the insolation above which a planet maintains liquid water on its surface (e.g., warm climate). We call this a “warm start limit.” However, an alternative outer limit exists above which a planet characterized by a snowball climate transitions to a warm climate, which we call a “cold start limit.” The cold start limit is determined by two different mechanisms: condensation of CO 2 and maximum CO 2 greenhouse effect. The threshold insolation is always higher than the warm start limit. We find that for the initial few billion years following the formation of a planetary system, the location of its outer HZ limit does not evolve away from the initial warm start limit. It subsequently moves in accordance with the evolution of the cold start limit. We also find that when the luminosity increase of the central star is slow relative to the decrease in the CO 2 degassing rate, the location of the outer limit of the HZ may even move inward. We conclude that the cold start limit should be treated as the outer limit of the HZ given the prevailing uncertainties, including the evolution of the CO 2 degassing rate and continental growth.