Abstract
AbstractThis article introduces and defends the “pathological complexity thesis” as a hypothesis about the evolutionary origins of minimal consciousness, or sentience, that connects the study of animal consciousness closely with work in behavioral ecology and evolutionary biology. I argue that consciousness is an adaptive solution to a design problem that led to the extinction of complex multicellular animal life following the Avalon explosion and that was subsequently solved during the Cambrian explosion. This is the economic trade-off problem of having to deal with a complex body with high degrees of freedom, what I call “pathological complexity.” By modeling the explosion of this computational complexity using the resources of state-based behavioral and life history theory we will be able to provide an evolutionary bottom-up framework to make sense of subjective experience and its function in nature by paying close attention to the ecological lifestyles of different animals.
Publisher
Springer Science and Business Media LLC
Subject
History and Philosophy of Science,Ecology, Evolution, Behavior and Systematics
Reference123 articles.
1. Arendt D, Tosches MA, Marlow H (2016) From nerve net to nerve ring, nerve cord and brain—evolution of the nervous system. Nat Rev Neurosci 17(1):61
2. Aristotle (1991) On the soul. The complete works of Aristotle: the revised Oxford translation, vol. 1 (ed: Barnes J; trans: Smith JA). Princeton University Press, Princeton
3. Balasko M, Cabanac M (1998a) Behavior of juvenile lizards (Iguana iguana) in a conflict between temperature regulation and palatable food. Brain Behav Evol 52(6):257–262
4. Balasko M, Cabanac M (1998b) Motivational conflict among water need, palatability, and cold discomfort in rats. Physiol Behav 65(1):35–41
5. Barron AB, Søvik E, Cornish JL (2010) The roles of dopamine and related compounds in reward-seeking behavior across animal phyla. Front Behav Neurosci 4:163
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