Do you have any good evidence that this assertion applies to Cephalopods?
Cephalopods in general have actually been shown to be rather intelligent. Some species of squid even engage in courtship rituals. There’s no good reason to assume that given the fact that they engage in courtship, predator/prey response, and have been shown to respond to simple irritants with aggressive responses that they do not experience at the very least the emotions of lust, fear, and anger.
(Note: I model “animal intelligence” in terms of emotional responses; while these can often be very sophisticated, it lacks abstract reasoning. Many animals are more intelligent beyond ‘simple’ animal intelligence; but those are the exception rather than the norm.)
I agree, but I’m not sure the examples you gave are good reasons to assume the opposite. They’re certainly evidence of intelligence, and there are even signs of something close to self-awareness (some species apparently can recognize themselves in mirrors).
But emotions are a rather different thing, and I’m rather more reluctant to assume them. (Particularly because I’m even less sure about the word than I am about “intelligence”. But it also just occurred to me that between people emotions seem much easier to fake than intelligence, which stated the other way around means we’re much worse at detecting them.)
Also, the reason I specifically asked about Cephalopods is that they’re pretty close to as far away from humans as they can be and still be animals; they’re so far away we can’t even find fossil evidence of the closest common ancestor. It still had a nervous system, but it was very simple as far as I can tell (flatworm-level), so I think it’s pretty safe to assume that any high level neuronal structures have evolved completely separately between us and cephalopods.
Which is why I’m reluctant to just assume things like emotions, which in my opinion are harder to prove.
On the other hand, this means any similarity we do find between the two kinds of nervous systems (including, if demonstrated, having emotions) would be pretty good evidence that the common feature is likely universal for any brain based on neurons. (Which can be interesting for things like uploading, artificial neuronal networks, and uplifting.)
Cephalopods in general have actually been shown to be rather intelligent. Some species of squid even engage in courtship rituals. There’s no good reason to assume that given the fact that they engage in courtship, predator/prey response, and have been shown to respond to simple irritants with aggressive responses that they do not experience at the very least the emotions of lust, fear, and anger.
(Note: I model “animal intelligence” in terms of emotional responses; while these can often be very sophisticated, it lacks abstract reasoning. Many animals are more intelligent beyond ‘simple’ animal intelligence; but those are the exception rather than the norm.)
I agree, but I’m not sure the examples you gave are good reasons to assume the opposite. They’re certainly evidence of intelligence, and there are even signs of something close to self-awareness (some species apparently can recognize themselves in mirrors).
But emotions are a rather different thing, and I’m rather more reluctant to assume them. (Particularly because I’m even less sure about the word than I am about “intelligence”. But it also just occurred to me that between people emotions seem much easier to fake than intelligence, which stated the other way around means we’re much worse at detecting them.)
Also, the reason I specifically asked about Cephalopods is that they’re pretty close to as far away from humans as they can be and still be animals; they’re so far away we can’t even find fossil evidence of the closest common ancestor. It still had a nervous system, but it was very simple as far as I can tell (flatworm-level), so I think it’s pretty safe to assume that any high level neuronal structures have evolved completely separately between us and cephalopods.
Which is why I’m reluctant to just assume things like emotions, which in my opinion are harder to prove.
On the other hand, this means any similarity we do find between the two kinds of nervous systems (including, if demonstrated, having emotions) would be pretty good evidence that the common feature is likely universal for any brain based on neurons. (Which can be interesting for things like uploading, artificial neuronal networks, and uplifting.)