Eukaryogenesis != Multicellularity. There are tons of unicellular eukaryotes. Also, multicellularity has evolved a bunch of times, at least in eukaryotes, so I doubt it's that rare.

If your thesis is specifically that oxygen-powered metabolism fueling multicellularity is rare... that wasn't clear. And I'll still say that endosymbiosis being the shortest path to scaling oxygen metabolism is probably Earth happenstance (with a reminder that cellular endosymbiosis is also common). But some critter had to originally evolve oxygen metabolism before being turned into mitochondria. What if that had evolved in a cell prepared to directly take advantage of it?

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JumpCrisscross a day ago | parent [-]

> There are tons of unicellular eukaryotes

But no multicellular prokaryotes. You're right that eukaryotes can be single celled. But my hypothesis is that multicellular life is rare because eukaryotes are rare.

	▲	andrewflnr a day ago \| parent [-]
		The second half of my comment still applies then. I think Earth-style eukaryogenesis is probably just one way to achieve the energy budget and complexity needed for complex multicellularity... bearing in mind, of course, that colonial bacteria that collaborate for survival definitely exist, spirulina for instance, stromatolites, and all the gross things that form biofilms.