The evolution of warning signals as reliable indicators of prey defense.
about
Motion dazzle and camouflage as distinct anti-predator defensesContrasting coloration in terrestrial mammalsLinking the evolution and form of warning coloration in natureThe evolution of Müllerian mimicryThe evolution of müllerian mimicry in multispecies communities.A mechanism for diversity in warning signals: conspicuousness versus toxicity in poison frogsInversely related aposematic traits: reduced conspicuousness evolves with increased toxicity in a polymorphic poison-dart frog.Wing shape variation associated with mimicry in butterflies.Spatial and temporal instability of local biotic community mediate a form of aposematic defense in newts, consisting of carotenoid-based coloration and tetrodotoxin.Changes in predator community structure shifts the efficacy of two warning signals in Arctiid moths.From cues to signals: evolution of interspecific communication via aposematism and mimicry in a predator-prey system.Protruding structures on caterpillars are controlled by ectopic Wnt1 expressionThe diversification of Heliconius butterflies: what have we learned in 150 years?Conspicuous Coloration in Males of the Damselfly Nehalennia irene (Zygoptera: Coenagrionidae): Do Males Signal Their Unprofitability to Other Males?The signal environment is more important than diet or chemical specialization in the evolution of warning colorationArtificial neural networks and the study of evolution of prey colorationPeriodic Wnt1 expression in response to ecdysteroid generates twin-spot markings on caterpillars.Brighter-colored paper wasps (Polistes dominula) have larger poison glandsDoes spatial variation in predation pressure modulate selection for aposematism?Ontogenetic colour change and the evolution of aposematism: a case study in panic moth caterpillars.Antagonistic evolution in an aposematic predator-prey signaling system.Diversification and convergence of aposematic phenotypes: truncated receptors and cellular arrangements mediate rapid evolution of coloration in harlequin poison frogs.Once a Batesian mimic, not always a Batesian mimic: mimic reverts back to ancestral phenotype when the model is absent.Investigating Müllerian mimicry: predator learning and variation in prey defences.Biased generalization of salient traits drives the evolution of warning signals.The aerodynamic costs of warning signals in palatable mimetic butterflies and their distasteful models.Aposematism and crypsis combined as a result of distance dependence: functional versatility of the colour pattern in the swallowtail butterfly larva.Predator perception and the interrelation between different forms of protective coloration.Do unprofitable prey evolve traits that profitable prey find difficult to exploit?PERSPECTIVE: THE EVOLUTION OF WARNING COLORATION IS NOT PARADOXICALChemical aposematism
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P2860
The evolution of warning signals as reliable indicators of prey defense.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
The evolution of warning signals as reliable indicators of prey defense.
@en
The evolution of warning signals as reliable indicators of prey defense.
@nl
type
label
The evolution of warning signals as reliable indicators of prey defense.
@en
The evolution of warning signals as reliable indicators of prey defense.
@nl
prefLabel
The evolution of warning signals as reliable indicators of prey defense.
@en
The evolution of warning signals as reliable indicators of prey defense.
@nl
P356
P1476
The evolution of warning signals as reliable indicators of prey defense.
@en
P2093
Christopher D Beatty
Thomas N Sherratt
P304
P356
10.1086/378047
P577
2003-10-16T00:00:00Z