My Blog

Categoría: Sentience in Insects

  • The search for invertebrate consciousness

    There is no agreement on whether any invertebrates are conscious and no agreement on a methodology that could settle the issue. How can the debate move forward? I distinguish three broad types of approach: theory‐heavy, theory‐neutral and theory‐light. Theory‐heavy and theory‐neutral approaches face serious problems, motivating a middle path: the theory‐light approach. At the core of the theory‐light approach is a minimal commitment about the relation between phenomenal consciousness and cognition that is compatible with many specific theories of consciousness: the hypothesis that phenomenally conscious perception of a stimulus facilitates, relative to unconscious perception, a cluster of cognitive abilities in relation to that stimulus. This “facilitation hypothesis” can productively guide inquiry into invertebrate consciousness. What is needed? At this stage, not more theory, and not more undirected data gathering. What is needed is a systematic search for consciousness‐linked cognitive abilities, their relationships to each other, and their sensitivity to masking.

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  • What is the problem of consciousness?

    The problem of consciousness can be formulated as follows: how is it that, from a purely material basis (a brain or a centralized nervous system), consciousness emerges? This is what the problem of consciousness really boils down to. Answering this requires answering the question, what structures must be present in an organism and how would they function for consciousness to be possible? In other words, of all the different ways that the bodies of animals are arranged, which ones contain structures and arrangements that give rise to consciousness? There is no reason to suppose that only a human-like central nervous system will give rise to consciousness, and a great deal of evidence that very different types of animals are conscious. An example is bird brains, which have many structural similarities to mammalian brains, but different arrangements of neurons. Yet their brain circuits seem to be wired in a different way that creates a similar effect in terms of consciousness and cognition. An octopus is an invertebrate with a very different type of nervous system. But an octopus exhibits behavior and responds to her environment like a conscious being.

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  • List of Animals That Have Passed the Mirror Test

    When conducting the mirror test, scientists place a visual marking on an animal’s body, usually with scentless paints, dyes, or stickers. They then observe what happens when the marked animal is placed in front of a mirror. The researchers compare the animal’s reaction to other times when the animal saw itself in the mirror without any markings on its body.

    Animals that pass the mirror test will typically adjust their positions so that they can get a better look at the new mark on their body, and may even touch it or try to remove it. They usually pay much more attention to the part of their body that bears a new marking.

    Currently, nine non-human animal species pass the mirror test. Not all individuals of each species pass, but many do.

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  • Scientists put 3D glasses on cuttlefish and showed them film clips. The results were surprising

    The researchers successfully demonstrated that, like humans, cuttlefish brains can compute distance using incoming information from both eyes at once. However, they write in the paper, «Cuttlefish stereopsis is likely afforded by a different algorithm than in humans, and not just a different implementation.

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  • Dustmites: Everything You Might Not Want To Know

    A typical used mattress may have anywhere from 100,000 to 10 million mites inside.

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