Author(s): Brusseau AJP; Feyten LEA; Crane AL; Brown GE;
No abstract available
Article GUID: 38476138
Author(s): Joyce BJ; Brown GE;
Neuroplasticity enables teleosts to promote or downregulate the growth of their brains regionally. To compensate for the effects of predation pressure, teleosts may alter their brain morphology and behavioral responses to mitigate its impact on individual fitness. High-predation environments often promote specific patterns of brain growth and produce bold ...
Article GUID: 37876646
Author(s): Crane AL; Feyten LEA; Preagola AA; Ferrari MCO; Brown GE;
Uncertainty has long been of interest to economists and psychologists and has more recently gained attention among ecologists. In the ecological world, animals must regularly make decisions related to finding resources and avoiding threats. Here, we describe uncertainty as a perceptual phenomenon of decision-makers, and we focus specifically on the functi ...
Article GUID: 37839808
Author(s): Feyten LEA; Ramnarine IW; Brown GE;
In response to uncertain risks, prey may rely on neophobic phenotypes to reduce the costs associated with the lack of information regarding local conditions. Neophobia has been shown to be driven by information reliability, ambient risk and predator diversity, all of which shape uncertainty of risk. We similarly expect environmental conditions to shape un ...
Article GUID: 37753307
Author(s): Feyten LEA; Demers EEM; Ramnarine IW; Brown GE;
Neophobic predator avoidance, where prey actively avoid novel stimuli, is thought to allow prey to cope with the inability to predict predation risk (i.e. uncertainty) while reducing the costs associated with learning. Recent studies suggest that neophobia is elicited as a response to unpredictable and elevated mean predation risk, and is linked to experi ...
Article GUID: 35907447
Author(s): Crane AL; Demers EE; Feyten LEA; Ramnarine IW; Brown GE;
Animals can reduce their uncertainty of predation risk by gathering new information via exploration behaviour. However, a decision to explore may also be costly due to increased predator exposure. Here, we found contextual effects of predation risk on the exploratory activity of Trinidadian guppies Poecilia reticulata in a novel environment. First, guppie ...
Article GUID: 34741669
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 phenotypes. However, chronic risk can also lead to ignoring threats in order to maintain other activi ...
Article GUID: 33125574
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 this effect should be stronger under high background risk. Individuals should compensate during period ...
Article GUID: 32860863
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
Author(s): Joyce BJ, Brown GE
J Fish Biol. 2020 May 23;: Authors: Joyce BJ, Brown GE
Article GUID: 32447778
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
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