It would seem the design that can survive the most extinctions would be the clear winner in the end.

  • WarmSoda@lemm.ee
    link
    fedilink
    arrow-up
    37
    arrow-down
    1
    ·
    11 months ago

    There’s isn’t anything doing selecting. A gene mutates and if it stays in the mating cycle enough times to become part of the species as a whole then it’s become “selected”. That includes things that aren’t good for adapting to an environment as well as things that are.

    • Call me Lenny/Leni@lemm.ee
      link
      fedilink
      English
      arrow-up
      4
      ·
      11 months ago

      This makes me wonder, why are there no 100% albino species considering albinos can be found in every species and can only produce other albino offspring when paired with other albinos?

      • IonAddis@lemmy.world
        link
        fedilink
        English
        arrow-up
        14
        ·
        11 months ago

        Aren’t there, in blind cave species where there’s no pressure to select for coloring to protect from the sun or to camouflage or display for mates?

      • intensely_human@lemm.ee
        link
        fedilink
        arrow-up
        10
        ·
        11 months ago

        If they can only albino offspring when paired with other albinos that indicates it’s a recessive gene.

        Recessive genes don’t take over gene pools unless they confer some survival advantage.

        • AwkwardLookMonkeyPuppet@lemmy.world
          link
          fedilink
          English
          arrow-up
          3
          ·
          edit-2
          11 months ago

          And usually albinos are at a distinct disadvantage. Their camouflage doesn’t work, or their mating colors aren’t present, or they get burned up by the sun, or a hundred other disadvantages depending on the species and environment.

          • LibertyLizard@slrpnk.net
            link
            fedilink
            arrow-up
            6
            ·
            11 months ago

            First, the vast majority of species depend on camouflage at least somewhat, since there are very few species that are neither predator nor prey. Also, albinism prevents your skin from properly protecting you from the sun. So even then, it is selected against. As other have pointed out though, caves don’t have either of these forces at play—the darkness makes visual camouflage irrelevant and there is no UV light. So there, as you predicted, most species are albino.

      • raptir@lemdro.id
        link
        fedilink
        English
        arrow-up
        6
        ·
        11 months ago

        Albino is only used as a term when it’s a deviation from the species norm usually. There are all white cave bugs.

  • carl_dungeon@lemmy.world
    link
    fedilink
    English
    arrow-up
    16
    ·
    11 months ago

    I’d say adaptability would be priority in an environment that is subject to frequent change. Environments that are largely static probably favor efficiency.

    • Fluke
      link
      fedilink
      arrow-up
      7
      ·
      11 months ago

      Yeah. Countless examples going both directions. I wouldn’t call crocodilians super adaptable, but they are so well tuned for their specific environs that they’ve been largely unchanged for 94 MILLION years.

      I would argue that being warm blooded makes an animal more adaptable. Interestingly, it seems cold blooded reptiles evolved into warm blooded archosaurs which eventually led to cold blooded crocodilians. Tellingly, these active warm blooded ancestors are all extinct in favor of the passive, cold blooded, low adaptability ambush predator.

      In the opposite direction, the adaptable rat has done much better than the countless specialized species that have disappeared since the industrial revolution and human explosion.

      • intensely_human@lemm.ee
        link
        fedilink
        arrow-up
        4
        ·
        11 months ago

        The thing about coastal areas is they’ll always be a part of Earth’s biosphere. Unlike plains or deserts or deciduous forests, which don’t have to exist, and can completely disappear, coastlines and estuaries can only move, never disappear.

        • Fluke
          link
          fedilink
          arrow-up
          3
          ·
          11 months ago

          This is a cool point. I’ve never thought about that before. It’s a very stable environment allowing for efficiency to be selected for in ways that may decrease adaptability.

        • fishos@lemmy.world
          link
          fedilink
          English
          arrow-up
          2
          arrow-down
          5
          ·
          edit-2
          11 months ago

          A coastline absolutely can vanish(submerged) or be against geography, such as rocky cliffs, that is unsuitable. “Coastlines can’t stop existing, only move” is semantic nonesense.

          EDIT: for ya downvoters, where’s the coastline on an island that vanishes due to rising sea levels? The Marshall Islands have a max elevation of ~7’ and are already having issues with rising sea levels. When the sea rises above them, where does their coastal ecosystem go?

      • LibertyLizard@slrpnk.net
        link
        fedilink
        arrow-up
        1
        ·
        edit-2
        11 months ago

        Cold blood probably makes a lot of sense for an aquatic ambush predator that needs to lie motionless for most of its life. Keeping that body warm the whole time wastes a lot of energy, especially under water. If you conserve energy, you can go longer without food which is important if you are waiting for food to come to you rather than seeking it out.

  • xkforce@lemmy.world
    link
    fedilink
    arrow-up
    7
    ·
    11 months ago

    Natural selection selects for what works well enough. In a more rapidly changing environment, adaptability is what often gets selected for. But in the case of species like the kakapo that live in stable, slowly changing environments, it selects for reproductive stability. The kakapo has a fairly intricate, complicated reproductive cycle that requires specific conditions. This effectively results in their population growth being very very flat. Good for environments that are incredibly stable so they dont really experience boom and bust cycles but if they find themselves in a rapidly changing environment, their population crashes and they dont recover quickly.

  • MartianSands@sh.itjust.works
    link
    fedilink
    arrow-up
    5
    ·
    11 months ago

    Not exactly. There are some species which haven’t changed all that much for millions of years, and those have certainly managed excellent adaptability.

    Others, though, might find themselves evolving to cope with the climate right now at the expense of being vulnerable to some future problem. Say the climate is very hot, but in a few tens of thousands of years there’ll be an ice age. An animal which is well adapted to the ice age will probably go extinct before it arrives, having all been eaten by an animal well adjusted to the heat which is here right now.

    “In the end” isn’t useful if you get outcompeted in the meantime

    • Melatonin@lemmy.dbzer0.comOP
      link
      fedilink
      arrow-up
      5
      ·
      11 months ago

      That was one of the points they made about the two big Devonian extinctions. They said it may have involved a warming, followed by an ice age, followed by another warming, all in rapid succession. The cartilaginous fish came through, the armored fish were all wiped out.

      • Call me Lenny/Leni@lemm.ee
        link
        fedilink
        English
        arrow-up
        6
        ·
        11 months ago

        The biggest one (aside from obvious examples like sponges and jellyfish) has got to be dragonflies. The original dragonfly was as big three-dimensionally as a footlong sub from Subway, though it was a breathing machine (like us, so let this be a true fable for us to learn from) as it needed oxygen that wasn’t in large enough supply. So it simply shrunk in size to adapt once all the air ran out and there was no Druidia to restore it, and ever since then, we’ve had the same tiny dragonfly model ever since, for almost a billion years.