Visual acuity and signal color pattern in an <i>Anolis</i> lizard

Fleishman, Leo J.; Yeo, Anna I.; Perez, Carley W.

doi:10.1242/jeb.150458

Cited by 15 publications

(7 citation statements)

References 33 publications

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“…This suggests that certain sections of the wing may be under stronger selection than others and highlights that taking measurements across the whole wing can in fact cloud patterns of inter‐ and intra‐specific variation. The use of highly localized colour patterns as signals has been demonstrated in many other animal taxa (Breuker & Brakefield, 2002; Fleishman et al., 2017) and may partly explain why no sexual dimorphism was apparent across the whole wing measurements of Drosophila simulans (Hawkes et al, 2019).…”

Section: Discussionmentioning

confidence: 99%

Love at first flight: wing interference patterns are species‐specific and sexually dimorphic in blowflies (Diptera: Calliphoridae)

Butterworth

White

Byrne

et al. 2021

J of Evolutionary Biology

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Wing interference patterns (WIPs) are stable structural colours displayed on insect wings which are only visible at specific viewing geometries and against certain backgrounds. These patterns are widespread among flies and wasps, and growing evidence suggests that they may function as species‐ and sex‐specific mating cues in a range of taxa. As such, it is expected that WIPs should differ between species and show clear sexual dimorphisms. However, the true extent to which WIPs vary between species, sexes and individuals is currently unclear, as previous studies have only taken a qualitative approach, without considering how WIPs might be perceived by the insect. Here, we perform the first quantitative analysis of inter‐ and intra‐specific variation in WIPs across seven Australian species of the blowfly genus Chrysomya. Using multispectral digital imaging and a tentative model of blowfly colour vision, we provide quantitative evidence that WIPs are species‐specific, highlight that the extent of divergence is greater in males than in females and demonstrate sexual dimorphisms in several species. These data suggest that WIPs have diversified substantially in blowflies as a result of either sexual or ecological selection.

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Section: Discussionmentioning

confidence: 99%

Love at first flight: wing interference patterns are species‐specific and sexually dimorphic in blowflies (Diptera: Calliphoridae)

Butterworth

White

Byrne

et al. 2021

J of Evolutionary Biology

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“…Lizards are excellent models for understanding the evolution of both colour-and movement-based visual signalling strategies (Fleishman 1988;Nicholson et al 2007;Fleishman et al 2011Fleishman et al , 2017Peters et al 2016;Ramos and Peters 2016). Movement from wind-blown plants has been documented to be an important source of environmental noise that may impact lizard movement-based communication (Peters et al 2008), leading to alterations in speeds, durations and amplitudes of motion signals (Peters et al 2007;Ord and Stamps 2008;Ramos and Peters 2017a).…”

Section: Introductionmentioning

confidence: 99%

Intraspecific variation in behaviour and ecology in a territorial agamid,

2021

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Intraspecific variation as a way to explore factors affecting the evolution of species traits in natural environments is well documented, and also important in the context of preserving biodiversity. In this study, we investigated the extent of behavioural, morphological and ecological variation in the peninsula dragon (Ctenophorus fionni), an endemic Australian agamid that displays extensive variation in colour across three allopatric populations. The aims of the study were to quantify variation across the different populations in terms of the environment, morphometric characteristics and behaviour. We found population level differences in habitat structure and encounter rates. Adult body size of C. fionni, as well as a range of morphometric traits, differed between populations, as well as the frequency of social interactions, which appears to be related to population density and abundance. Analysis of communicative signals showed differences between the southern and central populations, which appear consistent with variations in response to environmental differences between study sites. The findings of the present study, coupled with previous work examining colour variation in this species, show that the three populations of C. fionni have likely undergone substantial differentiation, and would make an interesting study system to explore trait variation in more detail.

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“…How animals perceive and discriminate between spatial chromatic visual cues when making decisions relevant to evolutionary fitness is a fundamental question of visual ecology (Cronin et al, 2014;Endler and Mappes, 2017). Behavioral experiments of the perception and discrimination of stimuli that vary both chromatically and spatially have been conducted in a variety of animal taxa, including honeybees Apis mellifera (Giurfa et al, 1996;Srinivasan and Lehrer, 1988), lizards (Fleishman et al, 2017), and birds (Lind and Kelber, 2011;Potier et al, 2018). In many of these studies, results from a limited number of captive animals subject to extensive training under controlled laboratory settings are considered to be representative and relevant to the model species' natural behaviors and ecologies.…”

Section: Introductionmentioning

confidence: 99%

Visual acuity and egg spatial chromatic contrast predict egg rejection behavior of American robins

Luro

Fernández‐Juricic

Baumhardt

et al. 2020

Journal of Experimental Biology

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Color and spatial vision are critical for recognition and discrimination tasks affecting fitness, including finding food and mates and recognizing offspring. For example, as a counter defense to avoid the cost of raising the unrelated offspring of obligate interspecific avian brood parasites, many host species routinely view, recognize, and remove the foreign egg(s) from their nests. Recent research has shown that host species visually attend to both chromatic and spatial pattern features of eggs; yet how hosts simultaneously integrate these features together when recognizing eggs remains an open question. Here, we tested egg rejection responses of American robins (Turdus migratorius) using a range of 3D-printed model eggs covered with blue and yellow checkered patterns differing in relative square sizes. We predicted that robins would reject a model egg if they could visually resolve the blue and yellow squares as separate features or accept it if the squares blended together and appeared similar in color to the natural blue-green color of robin eggs as perceived by the avian visual system. As predicted, the probability of robins rejecting a model egg increased with greater sizes of its blue and yellow squares. Our results suggest that chromatic visual acuity and viewing distance have the potential to limit the ability of a bird to recognize a foreign egg in its nest, thus providing a limitation to host egg recognition that obligate interspecific avian brood parasites may exploit.

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Visual acuity and signal color pattern in an Anolis lizard

Cited by 15 publications

References 33 publications

Love at first flight: wing interference patterns are species‐specific and sexually dimorphic in blowflies (Diptera: Calliphoridae)

Love at first flight: wing interference patterns are species‐specific and sexually dimorphic in blowflies (Diptera: Calliphoridae)

Intraspecific variation in behaviour and ecology in a territorial agamid,

Visual acuity and egg spatial chromatic contrast predict egg rejection behavior of American robins

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