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Main Authors: Weintraub, Itay, Perets, Hagai B.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.02571
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author Weintraub, Itay
Perets, Hagai B.
author_facet Weintraub, Itay
Perets, Hagai B.
contents The dynamic nature of life's ability to thrive in diverse and changing planetary environments suggests that habitability and survival depend on the evolutionary path and life adaptation to environmental conditions. Here we explore such "adaptive habitability" through astro-ecological models. We study the interplay between temperature adaptation and environmental fluctuations, particularly those induced by solar activity and orbital dynamics. We present a simplified ecological-evolutionary model to investigate the limits of life's adaptability on a planetary scale. By incorporating complexities such as multiple niches, migration, species interactions, and realistic temperature variations, we demonstrate the potential for adaptive habitability in the face of both gradual and abrupt environmental changes. Through simulations encompassing monotonic, periodic, and secular dynamical evolution-induced temperature profiles, we identify critical thresholds for survival and extinction, highlighting the importance of phenotypic variance and dispersal rates in adapting to varying environmental conditions. These findings underscore the significance of considering temporal variations in assessing exoplanet habitability and expanding the search space for potentially habitable worlds.
format Preprint
id arxiv_https___arxiv_org_abs_2407_02571
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Adaptive Habitability of Exoplanets: Thriving Under Extreme Environmental Change
Weintraub, Itay
Perets, Hagai B.
Earth and Planetary Astrophysics
The dynamic nature of life's ability to thrive in diverse and changing planetary environments suggests that habitability and survival depend on the evolutionary path and life adaptation to environmental conditions. Here we explore such "adaptive habitability" through astro-ecological models. We study the interplay between temperature adaptation and environmental fluctuations, particularly those induced by solar activity and orbital dynamics. We present a simplified ecological-evolutionary model to investigate the limits of life's adaptability on a planetary scale. By incorporating complexities such as multiple niches, migration, species interactions, and realistic temperature variations, we demonstrate the potential for adaptive habitability in the face of both gradual and abrupt environmental changes. Through simulations encompassing monotonic, periodic, and secular dynamical evolution-induced temperature profiles, we identify critical thresholds for survival and extinction, highlighting the importance of phenotypic variance and dispersal rates in adapting to varying environmental conditions. These findings underscore the significance of considering temporal variations in assessing exoplanet habitability and expanding the search space for potentially habitable worlds.
title Adaptive Habitability of Exoplanets: Thriving Under Extreme Environmental Change
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2407.02571