Why the leopard got its spots: relating pattern development to ecology in felids

Allen, William L.; Cuthill, Innes C.; Scott‐Samuel, Nicholas E.; Baddeley, Roland

doi:10.1098/rspb.2010.1734

Cited by 121 publications

(123 citation statements)

References 48 publications

(63 reference statements)

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“…In none of them has it reached fixation, but rather always exists as a polymorphic phenotype, and it is present only in two species of Panthera: the leopard (P. pardus) and the jaguar (P. onca) in contrast of the spotted wild phenotype present in these species. These observations support the hypothesis that melanism can provide an adaptive advantage in certain ecological conditions [6,16], and exists the hypothesis of an association between darker individuals and wetter areas with dense vegetation (e.g., tropical forests) [1,4,10,17]. In addition, there have also been suggestions of the potential for negative selection against dark individuals in open areas where the sunlight/radiation levels and mean temperatures are high [5,10,17,18].…”

Section: Introductionsupporting

confidence: 84%

Ecology and Evolution of Melanism in Big Cats: Case Study with Black Leopards and Jaguars

Silva¹

2017

Big Cats

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Variations in animal coloration have intrigued evolutionary biologists for a long time. Among the observed pigmentation polymorphisms, melanism has been reported in multiple organisms (influencing several biological factors), and classical hypothesis has suggested that such variant can present adaptive advantages under certain ecological conditions. In leopards (Panthera pardus) and jaguars (Panthera onca), melanism is caused by recessive and dominant mutations in the ASIP and MC1R genes, respectively. This chapter is focused on melanism in these two species, aiming to analyze its geographic pattern. About 623 leopard and 980 jaguar records that were used as baseline for modeling and statistical analyses were obtained. The frequency of melanism was 10% for both species. In leopards, melanism was present in five subspecies and strongly associated with moist forests, especially in Southeast Asia. In jaguars, melanism was totally absent from open and periodically flooded landscapes; in contrast, forests displayed a frequency that was similar to the expectations. The analyses of the environmental predictors suggest a relevant role for factors such as moisture and temperature. These observations support the hypothesis that melanism in big cats is not a neutral polymorphism (influenced by natural selection), leading to a nonrandom geographic distribution of this coloration phenotype.

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Section: Introductionsupporting

confidence: 84%

Ecology and Evolution of Melanism in Big Cats: Case Study with Black Leopards and Jaguars

Silva¹

2017

Big Cats

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“…Cryptic camouflage relies on the body pattern in some sense matching its background. At present there is no simple way to predict whether two visual textures will match, yet the quality of camouflage patterns is striking, especially considering the complexity of generating naturalistic visual textures in computer graphics (Portilla & Simoncelli 2000;Peyré 2009;Allen et al 2011;Rosenholtz 2013). The lack of a simple theory for the classification of visual textures, as envisaged by Julesz (1981Julesz ( , 1984Kiltie et al 1995), has limited progress in understanding of camouflage, which leaves this area open.…”

Section: Principles Of Camouflagementioning

confidence: 99%

Camouflage and Perceptual Organization in the Animal Kingdom

Osorio

Cuthill²

2014

Oxford Handbooks Online

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General rightsThis document is made available in accordance with publisher policies. Please cite only the published version using the reference above. Full terms of use are available: http://www.bristol.ac.uk/pure/about/ebr-terms AbstractCamouflage allows the bearer to 'hide in plain sight' by means of colour patterns that interfere with detection. Basic principles of camouflage that were proposed over a century ago by artists and natural historians have informed recent studies that seek to tease apart the different mechanisms by which camouflage exploits perception. The probability of detection is lowered by matching background colours and textures or using sharply contrasting colours to disrupt the body's outline or salient features such as eyes. The effectiveness of much animal camouflage against humans, even though the patterns evolved to fool different viewers, suggests that diverse visual systems share similar principles of perceptual organization. As such, animal camouflage might reveal universal principles that apply regardless of retinal organisation and neural architecture. We review the recent literature on animal camouflage in this light, from experimental studies of texture perception by fish and cephalopod molluscs, to the visual effects used to defeat figure ground segregation of 2-D and 3-D objects in birds and mammals.

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“…Colour patterns with eyespots (ocellae) are widespread in the animal world and have obviously a great adaptive significance (Allen et al 2011). Besides in various groups of seaslugs, ocellae may be present on the head-foot (as, e.g., in many ranellids and a few cancellariids) or mantle (as, e.g., in many ovulids and some eulimids) of shelled gastropods, or, alternatively, they may be part of the colour pattern of the shell (as, e.g., in various phasianellids, cowries, and columbellids).…”

Section: Introductionmentioning

confidence: 99%

Not all spotted cats are leopards: evidence for a Hemilienardia ocellata species complex (Gastropoda: Conoidea: Raphitomidae)

Fedosov

Stahlschmidt

Puillandre

et al. 2017

EJT

619

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This work is licensed under a Creative Commons Attribution 3.0 License. D N A L i b r a r y o f L i f e , r e s e a r c h a r t i c l eurn:lsid:zoobank.org:pub:E0654D20-49F5-477D-ABA1-3DC89B96939D Abstract. The small conoidean Hemilienardia ocellata is one of the easily recognizable Indo-Pacific "turrids", primarily because of its remarkable eyespot colour pattern. Morphological and molecular phylogenetic analyses revealed four species that share this "characteristic" colour pattern but demonstrate consistent differences in size and shell proportions. Three new species -Hemilienardia acinonyx sp. nov. from the Philippines, H. lynx sp. nov. from Papua New Guinea and H. pardus sp. nov. from the Society and Loyalty Islands -are described based on the results of phylogenetic analyses. Although the H. ocellata species complex clade falls in a monophyletic Hemilienardia, H. ocellata and H. acinonyx sp. nov. possess a radula with semi-enrolled or notably flattened triangular marginal teeth, a condition that diverges substantially from the standard radular morphology of Hemilienardia and other raphitomids.

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Why the leopard got its spots: relating pattern development to ecology in felids

Cited by 121 publications

References 48 publications

Ecology and Evolution of Melanism in Big Cats: Case Study with Black Leopards and Jaguars

Ecology and Evolution of Melanism in Big Cats: Case Study with Black Leopards and Jaguars

Camouflage and Perceptual Organization in the Animal Kingdom

Not all spotted cats are leopards: evidence for a Hemilienardia ocellata species complex (Gastropoda: Conoidea: Raphitomidae)

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