Abstract Designing interstellar starships for human migration to exoplanets requires establishing the starship population, which factors into many variables including closed-ecosystem design, architecture, mass and propulsion. I review the central issues of population genetics (effects of mutation, migration, selection and drift) for human populations on such voyages, specifically referencing a roughly 5-generation (c. 150-year) voyage currently in the realm of thought among Icarus Interstellar's Project Hyperion research group. I present several formulae as well as concrete numbers that can be used to help determine populations that could survive such journeys in good health. I find that previously proposed such populations, on the order of a few hundred individuals, are significantly too low to consider based on current understanding of vertebrate (including human) genetics and population dynamics. Population genetics theory, calculations and computer modeling determine that a properly screened and age- and sex-structured total founding population (N c) of anywhere from roughly 14,000 to 44,000 people would be sufficient to survive such journeys in good health. A safe and well-considered N c figure is 40,000, an Interstellar Migrant Population (IMP) composed of an Effective Population [N e] of 23,400 reproductive males and females, the rest being pre- or post-reproductive individuals. This number would maintain good health over five generations despite (a) increased inbreeding resulting from a relatively small human population, (b) depressed genetic diversity due to the founder effect, (c) demographic change through time and (d) expectation of at least one severe population catastrophe over the 5-generation voyage.

    Highlights I review the literature on human populations for multigenerational interstellar travel. I find previous estimates might be possible but are risky over multiple generations. I suggest space voyaging populations on the order of 20,000–40,000. Other figures can be proposed providing they are safe through multiple generations.


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    Titel :

    Estimation of a genetically viable population for multigenerational interstellar voyaging: Review and data for project Hyperion


    Beteiligte:

    Erschienen in:

    Acta Astronautica ; 97 ; 16-29


    Erscheinungsdatum :

    2013-12-20


    Format / Umfang :

    14 pages




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch







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