The project I'm working on right now has a much longer day than ours, which would result also then in higher thermal swings. Looking at earth and humans, depending on the solar radiation an area gets, the native inhabitants are more likely to have lighter or darker skin tones, in order to absorb harmful solar radiation. But if that radiation is blocked one way or another (i.e. by feathers or underlying skin melanin), I can see the opposite colour gradient occurring to maintain a good heat balance. When less sun is available, you'd want to compensate by absorbing more solar radiation; when more is available, you'd want to do the opposite. My idea here being that a species has evolved with feathers that are, on one side, matte black, and on the other, a sort of shiny white. Basically maximizing the possible range of albedoes. In order to maintain a stabler temperature, these feathers are able to rotate to show one side or the other to the sun, thereby absorbing the desired amount of solar radiation - probably, this would entail a mixed array of black and white for the vast majority of the time. This is a binary planetary system, as well, which means that the second planet will provide a reasonably large source of reflected light at night, allowing this mechanism to function to some degree during both daytime and nighttime.
My question is, would this be a reasonable thermoregulatory strategy? Keep in mind that it can absolutely be supplemented by heat exchange membranes, internal heat generation, etc... I only want to know if this could provide enough useful temperature management to actually develop in the first place.
A couple (edited) extra bits of info that seem potentially important:
- These are flightless birdlike animals, living on a large island chain. They don't have any predators on land and don't ambush hunt.
- Importantly, this is mediation between extremes of day and night temperatures. There are no seasons, just very long days and nights that get much hotter and colder. This is why actually altering or shedding feathers doesn't work.
- Camouflage is not a concern
- This can serve other purposes (i.e. mating display)
- By "black" and "white", I do mean maximum absorption of light and minimum reflection of light, as far as is biologically realistic.
- I've so far understood active thermoregulation to be much more energy intensive than passive, i.e. controlling the amount of energy you absorb rather than generating or dissipating it. Using less energy means less food use, so more can exist in an area with limited food reasources; this is part of why I wanted a passive thermoregulatory mechanism.