| Literature DB >> 30345536 |
Caio Maximino1, Rhayra X do Carmo Silva1,2, Kimberly Dos Santos Campos3, Jeisiane S de Oliveira3, Sueslene P Rocha3, Maryana P Pyterson1, Dainara P Dos Santos Souza1, Leonardo M Feitosa3, Saulo R Ikeda3, Ana F N Pimentel1, Pâmila N F Ramos3,4, Bruna P D Costa1,4, Anderson M Herculano5, Denis B Rosemberg6, Diógenes H Siqueira-Silva1, Monica Lima-Maximino3.
Abstract
Chemical communication of predation risk has evolved multiple times in fish species, with conspecific alarm substance (CAS) being the most well understood mechanism. CAS is released after epithelial damage, usually when prey fish are captured by a predator and elicits neurobehavioural adjustments in conspecifics which increase the probability of avoiding predation. As such, CAS is a partial predator stimulus, eliciting risk assessment-like and avoidance behaviours and disrupting the predation sequence. The present paper reviews the distribution and putative composition of CAS in fish and presents a model for the neural processing of these structures by the olfactory and the brain aversive systems. Applications of CAS in the behavioural neurosciences and neuropharmacology are also presented, exploiting the potential of model fish [e.g., zebrafish Danio rerio, guppies Poecilia reticulata, minnows Phoxinus phoxinus) in neurobehavioural research.Entities:
Keywords: Ostariophysi; alarm signals; alarm substance; disturbance signals; fish
Mesh:
Year: 2018 PMID: 30345536 DOI: 10.1111/jfb.13844
Source DB: PubMed Journal: J Fish Biol ISSN: 0022-1112 Impact factor: 2.051