Assuming the suit is free of breaches, the worst that solar radiation can do is cook the bacteria on the face if the sunshield was flipped up. EVAwear is designed to block the part of the spectrum that would harm biological processes.
That’s an interesting point / question. Decomposition is living organisms (insects, bacteria, microbes, etc.) breaking down the thing. Obviously we have tons of those inside us, but could the space suit keep them alive? For how long?
This ended up leading me down a bit of a google rabbit hole, but this answer seems reasonable to me (though I don’t have the background to verify it):
I am assuming in spacesuit here, on the face (lit side) of the moon. Bodily degradation involves much more than external fungi and bacteria.
Cells that receive no oxygen or nutrients die. We talk of such tissue death as dry gangrene when it affects extremities, such as fingers, feet, etc. However, we also recognize gangrenous bowel, etc. which results in tissue necrosis.
Such necrotic cell death is the consequence of acute disruption of cellular metabolism, leading to ATP depletion, ion dysregulation, mitochondrial and cellular swelling, activation of degradative enzymes, plasma membrane failure and cell lysis [1]
Lysis is messy and wet. Combined with the fluids in our bodies, what one would end up with is a mushy, smelly degraded body, not a preserved body. For a while, anaerobic bowel bacteria would flourish (which smell terrible).
Add to this the extremes of temperature (253° F in the sun and -243° F in the dark.) The suit would have lost it’s heating and cooling mechanisms, so the body would alternately spend 14 days in the heat and 14 days in the freezing cold depending exactly where it was (lets say the equator of the moon.) These freeze/bake cycles would further contribute to degradation through ice crystal formation and thawing.
Eventually, because there was no new substrate, degradation would come to a halt, but I’m not sure at what stage this would be. I assume, though, there would be a vast difference between a mummified body (done by dehydration) and a body left to degrade in a spacesuit.
I wonder what decomp would be like on the Moon. I imagine at worst this dino would be a mummy, but it’d be pretty wild to find a barely rotten T Rex.
Wouldn’t the direct sun exposure mess up things?
Assuming the suit is free of breaches, the worst that solar radiation can do is cook the bacteria on the face if the sunshield was flipped up. EVAwear is designed to block the part of the spectrum that would harm biological processes.
Assuming they were wearing a space suit, probably nothing very different from ordinary decomposition except the lack of insects
A lot of the tiny critters responsible for decomp are aerobic, though, right? So once the air in the suit ran out they’d die, too.
The bacterial mix would probably be very different, but I don’t see why the anaerobic critters couldn’t finish the job.
That’s an interesting point / question. Decomposition is living organisms (insects, bacteria, microbes, etc.) breaking down the thing. Obviously we have tons of those inside us, but could the space suit keep them alive? For how long?
This ended up leading me down a bit of a google rabbit hole, but this answer seems reasonable to me (though I don’t have the background to verify it):
Ppl like you make the Internet worth using.