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Coincident disruptive coloration or coincident disruptive patterns are patterns of disruptive coloration in animals that go beyond the usual camouflage function of breaking up the continuity of an animal's shape, to join up parts of the body that are separate. This is seen in extreme form in frogs such as ''
Cott concluded that the effect was concealment "so long as the false configuration is recognized in preference to the real one".
Several moths and butterflies make use of the mechanism; these include the oak beauty moth ''
One form of coincident disruptive coloration has special importance. Disruptive eye masks camouflage the
Afrixalus fornasini
''Afrixalus fornasini'' is a species of frog in the family Hyperoliidae and is native to Africa. Its common name is Fornasini's spiny reed frog or the greater leaf-folding frogCarruthers, V. (2001). ''First Field Guide to Frogs of Southern Afric ...
'' where the camouflage pattern extends across the body, head, and all four limbs, making the animal look quite unlike a frog when at rest with the limbs tucked in.
A special case is the disruptive eye mask
Disruptive eye masks are camouflage markings that conceal the eyes of an animal from its predators or prey. They are used by prey, to avoid being seen by predators, and by predators to help them approach their prey. The eye has a distinctive shap ...
that camouflages the most conspicuous feature of many animals, the eye.
Camouflage mechanism
Historical description
The English zoologist and camouflage expert Hugh Cott explained, while discussing "a little frog known as ''Megalixalus fornasinii''" in the chapter on coincident disruptive coloration in his 1940 book '' Adaptive Coloration in Animals'', that
Cott concluded that the effect was concealment "so long as the false configuration is recognized in preference to the real one".
Taxonomic range
Coincident disruptive coloration is seen in other amphibians including the common frog, '' Rana temporaria'', in which the dark and light bands that cross the body and hind legs coincide in the resting position, joining separate anatomical structures visually and breaking up and taking attention away from the body's actual outlines.
Several moths and butterflies make use of the mechanism; these include the oak beauty moth ''Biston strataria
''Biston strataria'', the oak beauty, is a moth of the family Geometridae. It is native to Europe, the Balkan countries and the Black Sea region as far as Asia Minor and the Caucasus. The species was Species description, first described by Joha ...
'' and the scalloped oak moth '' Crocallis elinguaria'', in which the pattern on the forewing coincides with the pattern on the narrow strip of the hindwing which is visible in the moth's habitual resting position. Many moths and butterflies which often rest with the wings closed, such as the orange-tip '' Anthocharis cardamines'', do the same but on the cryptically-coloured underside of the wings.
Disruptive eye mask
One form of coincident disruptive coloration has special importance. Disruptive eye masks camouflage the eye
Eyes are organs of the visual system. They provide living organisms with vision, the ability to receive and process visual detail, as well as enabling several photo response functions that are independent of vision. Eyes detect light and conv ...
s of a variety of animals, both invertebrates such as grasshopper
Grasshoppers are a group of insects belonging to the suborder Caelifera. They are among what is possibly the most ancient living group of chewing herbivorous insects, dating back to the early Triassic around 250 million years ago.
Grasshopp ...
s and vertebrates such as fishes, frogs, birds
Birds are a group of warm-blooded vertebrates constituting the class Aves (), characterised by feathers, toothless beaked jaws, the laying of hard-shelled eggs, a high metabolic rate, a four-chambered heart, and a strong yet lightweigh ...
and snakes; some mammals have similar patterns. The eye has a distinctive shape and dark coloration dictated by its function, and it is housed in the vulnerable head, making it a natural target for predators. It can be camouflaged by a suitable disruptive pattern arranged to run up to or through the eye, in other words to coincide with it, such as the camouflage eyestripe of the Mexican vine snake and certain fishes.
Created in active camouflage
Cephalopod
A cephalopod is any member of the molluscan class Cephalopoda (Greek plural , ; "head-feet") such as a squid, octopus, cuttlefish, or nautilus. These exclusively marine animals are characterized by bilateral body symmetry, a prominent head ...
s are capable of active camouflage, by day used for signalling as well as camouflage. At night, 86% of giant Australian cuttlefish, '' Sepia apama'', were seen to select camouflage patterns. Most often (41%), these were disruptive, the patterns coinciding across the cuttlefish's body parts.
Experimental test
The effect was tested in two experiments in 2009 by Innes Cuthill and Aron Székely. The first experiment presented wild insect-eating birds with edible pastry targets resembling moths, with or without coincident disruptive patterns. The second experiment showed similar targets to humans on computer screens. They found in both experiments that coincident disruption was "an effective mechanism for concealing an otherwise revealing body form".Evidence for natural selection
In the words of the camouflage researchers Innes Cuthill and A. Székely, Cott's book provided "persuasive arguments for the survival value of coloration, and foradaptation
In biology, adaptation has three related meanings. Firstly, it is the dynamic evolutionary process of natural selection that fits organisms to their environment, enhancing their evolutionary fitness. Secondly, it is a state reached by the po ...
in general, at a time when natural selection was far from universally accepted within evolutionary biology." In particular, they argued, Cott's category of "Coincident Disruptive Coloration" "made Cott's drawings the most compelling evidence for natural selection enhancing survival through disruptive camouflage
Disruptive coloration (also known as disruptive camouflage or disruptive patterning) is a form of camouflage that works by breaking up the outlines of an animal, soldier or military vehicle with a strongly contrasting pattern. It is often comb ...
."
Such patterns, Cott stressed, embody considerable precision. The markings must line up accurately between the folded limbs and body for the disguise to work. Cott's description and in particular his drawings convinced biologists that the markings must have survival value, rather than occurring by chance. Further, as Cuthill and Székely indicate, the bodies of animals that have such patterns must therefore have been shaped by natural selection.
References
{{Camouflage Camouflage