A crucial problem for most animals is how to deal with multiple types of predator, which differ in their sensory capabilities and methods of prey detection. For animals capable of rapid colour change, one potential strategy is to change their appearance in relation to the threat posed by different predators. Here, we show that the dwarf chameleon, Bradypodion taeniabronchum, exhibits different colour responses to two predators that differ in their visual capabilities. Using a model of animal colour perception to gain a 'predator's eye view', we show that chameleons showed better background colour matching in response to birds than snakes, yet they appear significantly more camouflaged to the snake visual system because snakes have poorer co...
Natural selection is widely noted to drive divergence of phenotypic traits. Predation pressure can f...
Camouflage is an important component of antipredator behaviors. In many species, rapid color change ...
Camouflage – adaptations that prevent detection and/or recognition – is a key example of evolution b...
Potential prey are often exposed to multiple predators that vary in their foraging tactics and abili...
Camouflage and colour change: antipredator responses to bird and snake predators across multiple pop...
In Batesian mimicry a palatable mimic deceives predators by resembling an unpalatable model. The evo...
Whether general patterns of signal evolution can be explained by selection for signal efficacy (dete...
Many animals display static coloration (e.g. of feathers or fur) that can serve as a reliable sexual...
A core concept of camouflage is that strong phenotype–environment associations are essential, i.e., ...
Chameleons, lizards often synonymous with camouflage for their color-changing abilities, possess a v...
Color change serves many antipredator functions and may allow animals to better match environments o...
Animal colouration is often a trade-off between background matching for camouflage from predators, a...
Selection should favour coloration in organisms that is more conspicuous to their own visual system ...
Predators everywhere impose strong selection pressures on the morphology and behavior of their prey,...
In situations of aggressive mimicry, predators adapt their color to that of the substrate on which t...
Natural selection is widely noted to drive divergence of phenotypic traits. Predation pressure can f...
Camouflage is an important component of antipredator behaviors. In many species, rapid color change ...
Camouflage – adaptations that prevent detection and/or recognition – is a key example of evolution b...
Potential prey are often exposed to multiple predators that vary in their foraging tactics and abili...
Camouflage and colour change: antipredator responses to bird and snake predators across multiple pop...
In Batesian mimicry a palatable mimic deceives predators by resembling an unpalatable model. The evo...
Whether general patterns of signal evolution can be explained by selection for signal efficacy (dete...
Many animals display static coloration (e.g. of feathers or fur) that can serve as a reliable sexual...
A core concept of camouflage is that strong phenotype–environment associations are essential, i.e., ...
Chameleons, lizards often synonymous with camouflage for their color-changing abilities, possess a v...
Color change serves many antipredator functions and may allow animals to better match environments o...
Animal colouration is often a trade-off between background matching for camouflage from predators, a...
Selection should favour coloration in organisms that is more conspicuous to their own visual system ...
Predators everywhere impose strong selection pressures on the morphology and behavior of their prey,...
In situations of aggressive mimicry, predators adapt their color to that of the substrate on which t...
Natural selection is widely noted to drive divergence of phenotypic traits. Predation pressure can f...
Camouflage is an important component of antipredator behaviors. In many species, rapid color change ...
Camouflage – adaptations that prevent detection and/or recognition – is a key example of evolution b...