Diversity in warning coloration : selective paradox or the norm?
Briolat, E. S., Burdfield-Steel, E., Paul, S. C., Rönkä, K., Seymoure, B. M., Stankowich, T., & Stuckert, A. M.M. (2019). Diversity in warning coloration : selective paradox or the norm?. Biological Reviews, 94(2), 388-414. https://doi.org/10.1111/brv.12460
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Biological ReviewsAuthors
Date
2019Discipline
Ekologia ja evoluutiobiologiaBiologisten vuorovaikutusten huippututkimusyksikköEcology and Evolutionary BiologyCentre of Excellence in Biological Interactions ResearchCopyright
© The Authors, 2018.
Aposematic theory has historically predicted that predators should select for warning signals to converge on a single
form, as a result of frequency-dependent learning. However, widespread variation in warning signals is observed
across closely related species, populations and, most problematically for evolutionary biologists, among individuals in
the same population. Recent research has yielded an increased awareness of this diversity, challenging the paradigm
of signal monomorphy in aposematic animals. Here we provide a comprehensive synthesis of these disparate lines
of investigation, identifying within them three broad classes of explanation for variation in aposematic warning
signals: genetic mechanisms, differences among predators and predator behaviour, and alternative selection pressures
upon the signal. The mechanisms producing warning coloration are also important. Detailed studies of the genetic
basis of warning signals in some species, most notably Heliconius butterflies, are beginning to shed light on the
genetic architecture facilitating or limiting key processes such as the evolution and maintenance of polymorphisms,
hybridisation, and speciation. Work on predator behaviour is changing our perception of the predator community as a
single homogenous selective agent, emphasising the dynamic nature of predator–prey interactions. Predator variability
in a range of factors (e.g. perceptual abilities, tolerance to chemical defences, and individual motivation), suggests
that the role of predators is more complicated than previously appreciated. With complex selection regimes at work,
polytypisms and polymorphisms may even occur in M¨ullerian mimicry systems. Meanwhile, phenotypes are often
multifunctional, and thus subject to additional biotic and abiotic selection pressures. Some of these selective pressures,
primarily sexual selection and thermoregulation, have received considerable attention, while others, such as disease
risk and parental effects, offer promising avenues to explore. As well as reviewing the existing evidence from both
empirical studies and theoretical modelling, we highlight hypotheses that could benefit from further investigation in
aposematic species. Finally by collating known instances of variation in warning signals, we provide a valuable resource
for understanding the taxonomic spread of diversity in aposematic signalling and with which to direct future research.
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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John Wiley & Sons Ltd; Cambridge Philosophical SocietyISSN Search the Publication Forum
1464-7931Keywords
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