Learning about aposematic prey
TLDR
The aim of the review is to promote the view that predators do not simply learn to avoid aposematic prey, but rather make adaptive decisions about both when to gather information about defended prey and when to include them in their diets.Abstract:
The question, "Why should prey advertise their presence to predators using warning coloration?" has been asked for over 150 years. It is now widely acknowledged that defended prey use conspicuous or distinctive colors to advertise their toxicity to would-be predators: a defensive strategy known as aposematism. One of the main approaches to understanding the ecology and evolution of aposematism and mimicry (where species share the same color pattern) has been to study how naive predators learn to associate prey’s visual signals with the noxious effects of their toxins. However, learning to associate a warning signal with a defense is only one aspect of what predators need to do to enable them to make adaptive foraging decisions when faced with aposematic prey and their mimics. The aim of our review is to promote the view that predators do not simply learn to avoid aposematic prey, but rather make adaptive decisions about both when to gather information about defended prey and when to include them in their diets. In doing so, we reveal what surprisingly little we know about what predators learn about aposematic prey and how they use that information when foraging. We highlight how a better understanding of predator cognition could advance theoretical and empirical work in the field.read more
Citations
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Journal ArticleDOI
The biology of color
Innes C. Cuthill,William L. Allen,Kevin Arbuckle,Barbara A. Caspers,George Chaplin,Mark E. Hauber,Mark E. Hauber,Geoffrey E. Hill,Nina G. Jablonski,Chris D. Jiggins,Almut Kelber,Johanna Mappes,Justin Marshall,Richard M. Merrill,Daniel Osorio,Richard O. Prum,Nicholas W. Roberts,Alexandre Roulin,Hannah M. Rowland,Hannah M. Rowland,Thomas N. Sherratt,John Skelhorn,Michael P. Speed,Martin Stevens,Mary Caswell Stoddard,Devi Stuart-Fox,Laszlo Talas,Elizabeth A. Tibbetts,Tim Caro +28 more
TL;DR: A roadmap of technological advances and key questions for the future of animal coloration research are provided, to identify hitherto unrecognized challenges for this multi- and interdisciplinary field.
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Lectures on Conditioned Reflexes
TL;DR: Gantt as mentioned in this paper presents a collection and re-publication of general reviews written by a single author, Ivan Petrovitch Pavlov, on Conditioned Reflexes and Psychiatry.
Journal ArticleDOI
Diversity in warning coloration: selective paradox or the norm?
Emmanuelle Sophie Briolat,Emily Burdfield-Steel,Sarah Catherine Paul,Sarah Catherine Paul,Katja Rönkä,Katja Rönkä,Brett M. Seymoure,Theodore Stankowich,Adam M. M. Stuckert +8 more
TL;DR: A greater appreciation of the extent of variation in aposematic species, and of the selective pressures and constraints which contribute to this once‐paradoxical phenomenon, yields a new perspective for the field of Aposematic signalling.
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The current and future state of animal coloration research.
John A. Endler,Johanna Mappes +1 more
TL;DR: A diagram of the processes affecting colour patterns is provided and used to summarize their functions and put the other papers in a broad context to identify significant ‘holes’ in the field.
Journal ArticleDOI
How to fight multiple enemies: target-specific chemical defences in an aposematic moth.
Bibiana Rojas,Emily Burdfield-Steel,Hannu Pakkanen,Kaisa Suisto,Michael Maczka,Stefan Schulz,Johanna Mappes +6 more
TL;DR: This study is the first to show evidence of a single species producing separate chemical defences targeted to different predator types, highlighting the importance of taking into account complex predator communities in studies on the evolution of prey defence diversity.
References
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Book
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