Add to ORKGFish nocifensive behavior can be studied and understood similarly to the way pain is studied and understood in more advanced vertebrates. Nocifensive behavior is a behavioral and physiological response to a noxious stimulus that leads to the fish avoiding it in the future. This behavioral flexibility is an important criterion for inferring pain sentience in fish. Modulation of the nocifensive behavior by anxiety, fear, or stress has already been demonstrated in zebrafish. The affective experiences of fish will not be identical to those of human beings, clearly. Empirical research will need to ascertain how similar they are
The target article by Sneddon et al. (2018) presents convincing behavioral and pharmacological evide...
In his target article, Key (2016) reviews the neuroanatomy of human pain and uses what is known abou...
This paper discusses the evidence for pain perception in fish and presents new data on morphine anal...
Fish nocifensive behavior can be studied and understood similarly to the way pain is studied and und...
Recent evidence has shown that fish display aversive behavioral and physiological reactions and a su...
Only humans can report feeling pain. In contrast, pain in animals is typically inferred on the basis...
We review studies claiming that fish feel pain and find deficiencies in the methods used for pain id...
Teleost fish possess similar nociceptive processing systems to those found in terrestrial vertebrate...
Sentience is essential to most definitions of pain, including a detailed definition invoked by Snedd...
A potentially painful experience may modify normal behavioural responses. To gauge the importance of...
The question of whether fish feel pain is muddied by anthropomorphic thinking. Comparing biological ...
The detection of pain and fear in fi sh has been subject to much debate and, since fi sh are a popul...
Pain assessment in fish is particularly challenging due to their evolutionary distance from humans, ...
Recent empirical studies have reported evidence that many aquatic species, including fish, cephalopo...
Nociception is the detection of a noxious tissue-damaging stimulus and is sometimes accompanied by a...
The target article by Sneddon et al. (2018) presents convincing behavioral and pharmacological evide...
In his target article, Key (2016) reviews the neuroanatomy of human pain and uses what is known abou...
This paper discusses the evidence for pain perception in fish and presents new data on morphine anal...
Fish nocifensive behavior can be studied and understood similarly to the way pain is studied and und...
Recent evidence has shown that fish display aversive behavioral and physiological reactions and a su...
Only humans can report feeling pain. In contrast, pain in animals is typically inferred on the basis...
We review studies claiming that fish feel pain and find deficiencies in the methods used for pain id...
Teleost fish possess similar nociceptive processing systems to those found in terrestrial vertebrate...
Sentience is essential to most definitions of pain, including a detailed definition invoked by Snedd...
A potentially painful experience may modify normal behavioural responses. To gauge the importance of...
The question of whether fish feel pain is muddied by anthropomorphic thinking. Comparing biological ...
The detection of pain and fear in fi sh has been subject to much debate and, since fi sh are a popul...
Pain assessment in fish is particularly challenging due to their evolutionary distance from humans, ...
Recent empirical studies have reported evidence that many aquatic species, including fish, cephalopo...
Nociception is the detection of a noxious tissue-damaging stimulus and is sometimes accompanied by a...
The target article by Sneddon et al. (2018) presents convincing behavioral and pharmacological evide...
In his target article, Key (2016) reviews the neuroanatomy of human pain and uses what is known abou...
This paper discusses the evidence for pain perception in fish and presents new data on morphine anal...