Keyword search (3,448 papers available)


Early-life and parental predation risk shape fear acquisition in adult minnows.

Author(s): Crane AL, Meuthen D, Thapa H, Ferrari MCO, Brown GE

Exposure to predation risk can induce a fearful baseline state, as well as fear reactions toward novel situations (i.e., neophobia). Some research indicates that risk exposure during sensitive periods makes adults more prone to acquiring long-term fearful p...

Article GUID: 33125574
Exploring the threat-sensitive predator avoidance hypothesis on mate competition in two wild populations of Trinidadian guppies.

Author(s): Chuard PJC, Grant JWA, Ramnarine IW, Brown GE

The intensity of mate competition is often influenced by predation pressure. The threat-sensitive predator avoidance hypothesis predicts that prey should precisely adjust their fitness-related activities to the level of perceived acute predation risk and th...

Article GUID: 32860863
The propensity for re-triggered predation fear in a prey fish.

Author(s): Crane AL, Feyten LEA, Ramnarine IW, Brown GE

Sci Rep. 2020 Jun 09;10(1):9253 Authors: Crane AL, Feyten LEA, Ramnarine IW, Brown GE

Article GUID: 32518253
Short-term Captivity Drives Hypothalamic Plasticity and Asymmetry in Wild-Caught Northern Red Bellied Dace (Chrosomus eos).

Author(s): Joyce BJ, Brown GE

J Fish Biol. 2020 May 23;: Authors: Joyce BJ, Brown GE

Article GUID: 32447778
Sender and receiver experience alters the response of fish to disturbance cues.

Author(s): Goldman JA, Feyten LEA, Ramnarine IW, Brown GE

Curr Zool. 2020 Jun;66(3):255-261 Authors: Goldman JA, Feyten LEA, Ramnarine IW, Brown GE

Article GUID: 32440286
High-risk environments promote chemical disturbance signalling among socially familiar Trinidadian guppies.

Author(s): Crane AL, Feyten LEA, Ramnarine IW, Brown GE

Oecologia. 2020 Apr 15;: Authors: Crane AL, Feyten LEA, Ramnarine IW, Brown GE

Article GUID: 32296954
An ecological framework of neophobia: from cells to organisms to populations.

Author(s): Crane AL, Brown GE, Chivers DP, Ferrari MCO

Biol Rev Camb Philos Soc. 2019 Oct 10;: Authors: Crane AL, Brown GE, Chivers DP, Ferrari MCO

Article GUID: 31599483
Competition for food in 2 populations of a wild-caught fish.

Author(s): Chuard PJC, Brown GE, Grant JWA

Curr Zool. 2018 Oct;64(5):615-622 Authors: Chuard PJC, Brown GE, Grant JWA

Article GUID: 30323840
Predation risk assessment based on uncertain information: interacting effects of known and unknown cues.

Author(s): Feyten LEA, Demers EEM, Ramnarine IW, Brown GE

Curr Zool. 2019 Feb;65(1):75-76 Authors: Feyten LEA, Demers EEM, Ramnarine IW, Brown GE PMID: 30697241 [PubMed]

Article GUID: 30697241
Title:High-risk environments promote chemical disturbance signalling among socially familiar Trinidadian guppies.
Authors:Crane ALFeyten LEARamnarine IWBrown GE
Link:https://www.ncbi.nlm.nih.gov/pubmed/32296954?dopt=Abstract
DOI:10.1007/s00442-020-04652-6
Category:Oecologia
PMID:32296954
Dept Affiliation: BIOLOGY
1 Department of Biology, Concordia University, Montreal, Canada. adam.crane@concordia.ca.
2 Department of Biology, Concordia University, Montreal, Canada.
3 Department of Life Sciences, University of the West Indies, St. Augustine, Trinidad and Tobago.

Description:

High-risk environments promote chemical disturbance signalling among socially familiar Trinidadian guppies.

Oecologia. 2020 Apr 15;:

Authors: Crane AL, Feyten LEA, Ramnarine IW, Brown GE

Abstract

Under predation threat, many species produce cues that can serve as crucial sources of information for social companions. For instance, chemical cues released when experiencing a disturbing event (i.e. 'disturbance cues'), such as a predator chase, can lead to antipredator avoidance and increased survival for nearby individuals. These chemicals also have potential to be produced as a voluntary signal for communicating threat to others. We found evidence for this hypothesis by manipulating the shoal familiarity of guppies from populations differing in background predation risk and then presenting their disturbance cues to unfamiliar conspecifics from the same populations. Receivers from low-risk sites increased shoal cohesion and decreased area use regardless of whether the disturbance cues were produced in donor groups where members were familiar or unfamiliar with each other. However, receivers from high-risk sites showed strong antipredator reactions towards disturbance chemicals produced in familiar groups and no response towards those produced in unfamiliar groups, suggesting that donors from high-risk sites may alter the quality or quantity of their disturbance cues to influence familiar individuals to enact predator defences. Because high-risk environments strengthen guppy social networks, these environments may facilitate reliance on chemical disturbance signalling to coordinate group defences with familiar individuals.

PMID: 32296954 [PubMed - as supplied by publisher]