Slashdot Mirror


How Many People Does It Take To Colonize Another Star System?

Hugh Pickens DOT Com writes: "The nearest star systems — such as our nearest neighbor, Proxima Centauri, which is 4.2 light-years from home — are so far away, reaching them would require a generational starship. Entire generations of people would be born, live, and die before the ship reached its destination. This brings up the question of how many people you need to send on a hypothetical interstellar mission to sustain sufficient genetic diversity. Anthropologist Cameron Smith has calculated how many people would be required to maintain genetic diversity and secure the success of the endeavor. William Gardner-O'Kearney helped Smith build the MATLAB simulations to calculate how many different scenarios would play out during interstellar travel and ran some simulations specially to show why the success of an interstellar mission depends crucially on the starting population size. Gardner-O'Kearny calculated each population's possible trajectory over 300 years, or 30 generations. Because there are a lot of random variables to consider, he calculated the trajectory of each population 10 times, then averaged the results.

A population of 150 people, proposed by John Moore in 2002, is not nearly high enough to maintain genetic variation. Over many generations, inbreeding leads to the loss of more than 80 percent of the original diversity found within the hypothetical gene. A population of 500 people would not be sufficient either, Smith says. "Five hundred people picked at random today from the human population would not probably represent all of human genetic diversity . . . If you're going to seed a planet for its entire future, you want to have as much genetic diversity as possible, because that diversity is your insurance policy for adaptation to new conditions." A starting population of 40,000 people maintains 100 percent of its variation, while the 10,000-person scenario stays relatively stable too. So, Smith concludes that a number between 10,000 and 40,000 is a pretty safe bet when it comes to preserving genetic variation. Luckily, tens of thousands of pioneers wouldn't have to be housed all in one starship. Spreading people out among multiple ships also spreads out the risk. Modular ships could dock together for trade and social gatherings, but travel separately so that disaster for one wouldn't spell disaster for all. 'With 10,000,' Smith says, 'you can set off with good amount of human genetic diversity, survive even a bad disease sweep, and arrive in numbers, perhaps, and diversity sufficient to make a good go at Humanity 2.0.'"

3 of 392 comments (clear)

  1. How many Earthworms? by mbone · · Score: 5, Interesting

    To me, the question is not really how many people, but how many earthworms, and in general plants, bugs, birds, animals, etc.? At present, we really have no idea what is needed, nor in how much variation within each species, but I suspect the real answer will always be "more that we think."

  2. Starship Diversity? by NEDHead · · Score: 5, Interesting

    On a vaguely related note: Assume you send N ships on this voyage. Do you send N copies of the same ship, and hope the design has no fatal flaw (while acknowledging the advantages of parts redundancy) . Or do you send N different designs in the hope that diversity of design is overall more reliable?

  3. Re:Sure, but... by hawguy · · Score: 5, Interesting

    to be honest what is the use of this? Why do we want embryos on an other planet. Having to much people on earth won't be solved by sending embryos to other planet... As long as they can't send a large group of people in a short time to an other planet. This whole traveling to other planets is useless...

    Redundancy. Overpopulation is not the reason -- that's a self-correcting problem.

    Having all of humanity stuck on a single planet in a single solar system leaves mankind open to extinction from a rare planet ending or even a more rare solar system ending event. Though we probably need to get out of the Galaxy for true redundancy. I don't think there's any way to avoid the eventual end of the universe, whether its ends in a big freeze or big crunch...But we have a bit of time before that happens, so it can be left for future generations, as long as we don't end up killing ourselves or depleting our resources before we can get off the planet.

    And who says, we didn't already do this? Send out lots of ships to other planets. After that we got some water problems, like Noah's story. After that only a few people survived, started to multiply and created a new civilization. Those people we send out there, are now living happily. And yes, there comes a bunch of embryo's again....

    I'm pretty sure the fossil record is complete enough to rule out modern humans suddenly popping up from seeded embryos.