Predator learning favours mimicry of a less-toxic model in poison frogs

Darst, Catherine R.; Cummings, Molly E.

doi:10.1038/nature04297

Cited by 151 publications

(132 citation statements)

References 21 publications

(36 reference statements)

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“…Under these circumstances, a strongly positive, density-driven signal effect (density-dependent generalized avoidance, ref. 24; or another type of Allee effect refs. 25 and 26) may grant novel color morphs a higher likelihood of survival, enabling exploration of an adaptive landscape otherwise made inaccessible by purifying selection.…”

Section: Discussionmentioning

confidence: 99%

A Müllerian mimicry ring in Appalachian millipedes

Marek

Bond

2009

Proc. Natl. Acad. Sci. U.S.A.

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Few biological phenomena provide such an elegant and straightforward example of evolution by natural selection as color mimicry among unrelated organisms. By mimicking the appearance of a heavily defended aposematic species, members of a second species gain protection from predators and, potentially, enhanced fitness. Mimicking a preexisting warning advertisement is economical because a potentially costly novel one can be avoided; simultaneously, the addition of more aposematic individuals enhances the overall warning effect. The better-known mimetic systems comprise tropical taxa, but here, we show a remarkable example of color mimicry in 7 species of blind, cyanide-generating millipedes endemic to the Appalachian Mountains of temperate North America. Because these millipedes lack eyes, there is no sexual selection or intraspecific signaling for coloration, providing an ideal system for mimicry studies. We document a Mü llerian symbiosis where unrelated species vary in color and pattern over geographical space but appear identical where they co-occur. By using spectral color data, estimations of evolutionary history, and detailed field observations of species abundance, we test 4 predictions of Mü llerian mimicry theory and begin to unravel the story of an elaborate mimetic diversification in the forests of Appalachia.aposematic ͉ reflectance ͉ Apheloriini ͉ Diplopoda ͉ Brachoria

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Section: Discussionmentioning

confidence: 99%

A Müllerian mimicry ring in Appalachian millipedes

Marek

Bond

2009

Proc. Natl. Acad. Sci. U.S.A.

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“…Birds use bitterness to estimate the level of toxicity (Skelhorn & Rowe, 2010), and cardenolides are bitter in taste (Malcolm, 1994). The level of toxicity correlates with the taste and birds learn to reject highly distasteful prey faster than less distasteful prey (Holen, 2013), and moderately toxic species are favored over highly toxic species in learning (Darst & Cummings, 2006). However, once learned, birds avoid prey types that are likely above certain level of toxicity or bitterness (Lindström, Lyytinen, Mappes, & Ojala, 2006).…”

Section: Methodsmentioning

confidence: 99%

Does spatial variation in predation pressure modulate selection for aposematism?

Aluthwattha

Harrison²,

Ranawana

et al. 2017

Ecology and Evolution

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It is widely believed that aposematic signals should be conspicuous, but in nature, they vary from highly conspicuous to near cryptic. Current theory, including the honest signal or trade‐off hypotheses of the toxicity–conspicuousness relationship, cannot explain why adequately toxic species vary substantially in their conspicuousness. Through a study of similarly toxic Danainae (Nymphalidae) butterflies and their mimics that vary remarkably in their conspicuousness, we show that the benefits of conspicuousness vary along a gradient of predation pressure. Highly conspicuous butterflies experienced lower avian attack rates when background predation pressure was low, but attack rates increased rapidly as background predation pressure increased. Conversely, the least conspicuous butterflies experienced higher attack rates at low predation pressures, but at high predation pressures, they appeared to benefit from crypsis. Attack rates of intermediately conspicuous butterflies remained moderate and constant along the predation pressure gradient. Mimics had a similar pattern but higher attack rates than their models and mimics tended to imitate the signal of less attacked model species along the predation pressure gradient. Predation pressure modulated signal fitness provides a possible mechanism for the maintenance of variation in conspicuousness of aposematic signals, as well as the initial survival of conspicuous signals in cryptic populations in the process of aposematic signal evolution, and an alternative explanation for the evolutionary gain and loss of mimicry.

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“…The negative effect on models is due to frequency-dependent selection: if mimics exist in large numbers, the predators may take longer to learn an aversion or the potential for evolving innate fear of dangerous prey is lessened. Although studies of the Batesian mimicry have usually emphasised learning as a mechanism for the evolution of mimicry (e.g., [3]), both innate and learned fear of dangerous or distasteful prey can favour the evolution of the Batesian mimicry, as is clear from studies using naïve jumping spiders (Salticidae) as potential predators (e.g., [4]). …”

Section: Introductionmentioning

confidence: 99%

“…Yet polymorphism can also be maintained in populations of the Batesian mimics [17], particularly when more than one model species is available [3]. It is especially noticeable that several species of ant mimics are polymorphic [18,19].…”

Section: Introductionmentioning

confidence: 99%

“…While we traditionally think of dangerous prey as one using bright, contrasting colours as aposematic signals, as in the case of poison dart frogs [3], not all dangerous species that are mimicked use aposematic signals. Correspondingly, deceitful use of aposematic signals appears to be an evolutionary strategy used by some Batesian mimics, but not others.…”

Section: Introductionmentioning

confidence: 99%

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A Predator's Perspective of the Accuracy of Ant Mimicry in Spiders

Nelson

2012

Psyche: A Journal of Entomology

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Among spiders, resemblance of ants (myrmecomorphy) usually involves the Batesian mimicry, in which the spider coopts the morphological and behavioural characteristics of ants to deceive ant-averse predators. Nevertheless, the degree of resemblance between mimics and ants varies considerably. I used Portia fimbriata, a jumping spider (Salticidae) with exceptional eyesight that specialises on preying on salticids, to test predator perception of the accuracy of ant mimicry. Portia fimbriata's response to ants (Oecophylla smaragdina), accurate ant-like salticids (Synageles occidentalis), and inaccurate ant-like salticids (females of Myrmarachne bakeri and sexually dimorphic males of M. bakeri, which have enlarged chelicerae) was assessed. Portia fimbriata exhibited graded aversion in accordance with the accuracy of resemblance to ants (O. smaragdina > S. occidentalis > female M. bakeri > male M. bakeri). These results support the hypothesis that ant resemblance confers protection from visual predators, but to varying degrees depending on signal accuracy.

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Predator learning favours mimicry of a less-toxic model in poison frogs

Cited by 151 publications

References 21 publications

A Müllerian mimicry ring in Appalachian millipedes

A Müllerian mimicry ring in Appalachian millipedes

Does spatial variation in predation pressure modulate selection for aposematism?

A Predator's Perspective of the Accuracy of Ant Mimicry in Spiders

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