What insects can tell us about the origins of consciousness

Barron, Andrew B.; Klein, Colin

doi:10.1073/pnas.1520084113

Cited by 222 publications

(173 citation statements)

References 141 publications

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“…One remaining dimension is to estimate and test the validity of this metric theoretical paradigm in birds and fishes, and even invertebrates. For instance, the recent proposal of consciousness in insects (Barron and Klein, 2016) requires a challenging evaluation of Phi in this invertebrate class.…”

Section: Boxmentioning

confidence: 99%

“…The integrated picture is enriched because it gives a sense or content to the information; for example, it is not possible to experience visual shapes independently of their colour, or perceive the left half of the visual field independently to the right half (Tononi and Laureys, 2009; see Chapter 2). The integrated relevant information can be made accessible for detecting anomalies and errors, decision making, developing strategies, further planning, inferring the internal or motivation state of other animals and, at least in humans, setting long-term goals and strategies and rational thought (Barron and Klein, 2016;Koch and Tsuchiya, 2007;.…”

Section: Brain Processesmentioning

confidence: 99%

“…Proprioceptors -sensors that provide information about joint angle, muscle length, and muscle tension-, nociceptors -sensors involved in pain perception-, and various chemical sensors in the gut provide information on the posture and spatial position of the body, of possible tissue lesions and of the digestive status. These and other sources of information related for example to memory, need to be compiled by the brain into an integrated image for further use (Barron and Klein, 2016;.…”

Section: Introductionmentioning

confidence: 99%

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Animal Consciousness

Neindre¹,

Bernard

Boissy

et al. 2017

EFSA Supporting Publications

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After reviewing the literature on current knowledge about consciousness in humans, we present a state-of-the art discussion on consciousness and related key concepts in animals. Obviously much fewer publications are available on non-human species than on humans, most of them relating to laboratory or wild animal species, and only few to livestock species. Human consciousness is by definition subjective and private. Animal consciousness is usually assessed through behavioural performance. Behaviour involves a wide array of cognitive processes that have to be assessed separately using specific experimental protocols. Accordingly, several processes indicative of the presence of consciousness are discussed: perception and cognition, awareness of the bodily-self, selfrelated knowledge of the environment (including social environment). When available, specific examples are given in livestock species. Next, we review the existing evidence regarding neuronal correlates of consciousness, and emphasize the difficulty of linking aspects of consciousness to specific neural structures across the phyla because high-level cognitive abilities may have evolved independently along evolution. Several mammalian brain structures (cortex and midbrain) are involved in the manifestations of consciousness, while the equivalent functional structures for birds and fishes would likely be the pallium/tectum and midbrain. Caution is required before excluding consciousness in species not having the same brain structures as the mammalian ones as different neural architectures may mediate comparable processes. Finally, specific neurophysiological mechanisms appear to be strongly linked to the emergence of consciousness, namely neural synchrony and neural feedback. Considering the limited amount of data available and the few animal species studied so far, we conclude that different manifestations of consciousness can be observed in animals but that further refinement is still needed to characterize their level and content in each species. Further research is required to clarify these issues, especially in livestock species.

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Section: Boxmentioning

confidence: 99%

Section: Brain Processesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Animal Consciousness

Neindre¹,

Bernard

Boissy

et al. 2017

EFSA Supporting Publications

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“…Although few would doubt that most mammals are conscious, debates revolve around the possibility of fish, cephalopods, crustaceans or insects being conscious, and more specifically, feeling pain (Allen (2004); Edelman et al (2005); Edelman and Seth (2009);Elwood (2012); Godfrey-Smith (2017); Griffin (1976); Tye (2017)). The most central debate features proponents of consciousness in animals such as fish (Braithwaite (2010); Huntingford et al (2006); Jones (2013); Sneddon (2011)) and insects (Barron and Klein (2016)) versus opponents to the existence of consciousness in those animals (Derbyshire (2016); Rose (2007); Rose et al (2014); Key (2015Key ( , 2016; Key et al (2016)). …”

Section: Introductionmentioning

confidence: 99%

Fish and microchips: on fish pain and multiple realization

Michel¹

2018

Philos Stud

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Opponents to consciousness in fish argue that fish do not feel pain because they do not have a neocortex, which is a necessary condition for feeling pain. A common counter-argument appeals to the multiple realizability of pain: while a neocortex might be necessary for feeling pain in humans, pain might be realized differently in fish. This paper argues, first, that it is impossible to find a criterion allowing us to demarcate between plausible and implausible cases of multiple realization of pain without running into a circular argument. Second, opponents to consciousness in fish cannot be provided with reasons to believe in the multiple realizability of pain. I conclude that the debate on the existence of pain in fish is impossible to settle by relying on the multiple realization argument.

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“…While some researchers have argued invertebrates are conscious (Elwood and Apel 2009;Merker 2007;Tye 2000;Crook, Hanlon and Walter 2013;Mather 2008;Klein and Barron 2016), have beliefs and desires (Tye 2000;Carruthers 2005), and that the humane treatment principle ought to be extended to invertebrates (Cooper 2011;Crook 2013; see also Fischer 2016), little attention has been paid to the ethics of painless killing. Does a painless death harm an invertebrate?…”

mentioning

confidence: 99%

Does a painless death harm an invertebrate?

Hadley

2019

Australian Zoologist

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This paper explains a meaningful sense in which a painless death can be a misfortune for an invertebrate. The account presented is a logical implication of bringing together two distinct pieces of theory: the deprivation account of the harm of death and the biocentric ethical theory developed by the New Zealand philosopher, Nicholas Agar. Combined, the two theories support the following thesis: death harms an invertebrate because it deprives the individual of future biopreference satisfaction.

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What insects can tell us about the origins of consciousness

Cited by 222 publications

References 141 publications

Animal Consciousness

Animal Consciousness

Fish and microchips: on fish pain and multiple realization

Does a painless death harm an invertebrate?

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