Disruptive coloration (also known as disruptive camouflage or disruptive patterning) is a form of
camouflage
Camouflage is the use of any combination of materials, coloration, or illumination for concealment, either by making animals or objects hard to see, or by disguising them as something else. Examples include the leopard's spotted coat, the b ...
that works by breaking up the outlines of an animal, soldier or
military
A military, also known collectively as armed forces, is a heavily armed, highly organized force primarily intended for warfare. It is typically authorized and maintained by a sovereign state, with its members identifiable by their distinct ...
vehicle with a strongly contrasting pattern. It is often combined with other methods of
crypsis including background colour matching and
countershading
Countershading, or Thayer's law, is a method of camouflage in which an animal's coloration is darker on the top or upper side and lighter on the underside of the body. This pattern is found in many species of mammals, reptiles, birds, fish, a ...
; special cases are
coincident disruptive coloration and the
disruptive eye mask seen in some fishes, amphibians, and reptiles. It appears paradoxical as a way of not being seen, since disruption of outlines depends on high contrast, so the patches of colour are themselves conspicuous.
The importance of high-contrast patterns for successful disruption was predicted in general terms by the artist
Abbott Thayer
Abbott Handerson Thayer (August 12, 1849May 29, 1921) was an American artist, naturalist and teacher. As a painter of portraits, figures, animals and landscapes, he enjoyed a certain prominence during his lifetime, and his paintings are represen ...
in 1909 and explicitly by the
zoologist
Zoology ()The pronunciation of zoology as is usually regarded as nonstandard, though it is not uncommon. is the branch of biology that studies the animal kingdom, including the structure, embryology, evolution, classification, habits, and d ...
Hugh Cott
Hugh Bamford Cott (6 July 1900 – 18 April 1987) was a British zoologist, an authority on both natural and military camouflage, and a scientific illustrator and photographer. Many of his field studies took place in Africa, where he was espec ...
in 1940. Later experimental research has started to confirm these predictions. Disruptive patterns work best when all their components match the background.
While background matching works best for a single background, disruptive coloration is a more effective strategy when an animal or a military vehicle may have a variety of backgrounds.
Conversely, poisonous or distasteful animals that advertise their presence with warning coloration (
aposematism) use patterns that emphasize rather than disrupt their outlines. For example,
skunks
Skunks are mammals in the family Mephitidae. They are known for their ability to spray a liquid with a strong, unpleasant scent from their anal glands. Different species of skunk vary in appearance from black-and-white to brown, cream or ging ...
,
salamanders
Salamanders are a group of amphibians typically characterized by their lizard-like appearance, with slender bodies, blunt snouts, short limbs projecting at right angles to the body, and the presence of a tail in both larvae and adults. All ten ...
and
monarch butterflies
The monarch butterfly or simply monarch (''Danaus plexippus'') is a milkweed butterfly (subfamily Danainae) in the family Nymphalidae. Other common names, depending on region, include milkweed, common tiger, wanderer, and black-veined brown. ...
all have high-contrast patterns that display their outlines.
Early research
The artist
Abbott Handerson Thayer
Abbott Handerson Thayer (August 12, 1849May 29, 1921) was an American artist, naturalist and teacher. As a painter of portraits, figures, animals and landscapes, he enjoyed a certain prominence during his lifetime, and his paintings are represen ...
in his 1909 book ''
Concealing-Coloration in the Animal Kingdom'' argued that animals were concealed by a combination of
countershading
Countershading, or Thayer's law, is a method of camouflage in which an animal's coloration is darker on the top or upper side and lighter on the underside of the body. This pattern is found in many species of mammals, reptiles, birds, fish, a ...
and "ruptive" marks, which together "obliterated" their self-shadowing and their shape. Thayer explained that:
Hugh Cott
Hugh Bamford Cott (6 July 1900 – 18 April 1987) was a British zoologist, an authority on both natural and military camouflage, and a scientific illustrator and photographer. Many of his field studies took place in Africa, where he was espec ...
's 1940 book ''
Adaptive Coloration in Animals
''Adaptive Coloration in Animals'' is a 500-page textbook about camouflage, warning coloration and mimicry by the Cambridge zoologist Hugh Cott, first published during the Second World War in 1940; the book sold widely and made him famous.
The ...
'' introduced ideas such as "maximum disruptive contrast". This uses streaks of boldly contrasting colour, which paradoxically make animals or military vehicles less visible by breaking up their outlines. He explains that in ideal conditions, background colour matching together with countershading would "suffice to render an animal absolutely invisible against a plain background", but at once adds that conditions are hardly ever ideal, as they are constantly changing, as is the light. Therefore, Cott argues, camouflage has to break up the perceived continuous surfaces of an object and its outlines. In his own words, "for effective concealment, it is essential that the tell-tale appearance of form should be destroyed." He draws an analogy with a pickpocket who carefully distracts your attention, arguing that:
Further, Cott criticises unscientific attempts at camouflage, early in the
Second World War
World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the vast majority of the world's countries—including all of the great powers—forming two opposi ...
, for not understanding the principles involved:
The pioneering work of Thayer and Cott is endorsed in the 2006 review of disruptive coloration by
Martin Stevens and colleagues, which notes that they proposed a "different form of camouflage" from the traditional "strategy of background matching" proposed by authors such as
Alfred Russel Wallace (''
Darwinism'', 1889),
Edward Bagnall Poulton
Sir Edward Bagnall Poulton, FRS HFRSE FLS (27 January 1856 – 20 November 1943) was a British evolutionary biologist, a lifelong advocate of natural selection through a period in which many scientists such as Reginald Punnett doubted its ...
(''
The Colours of Animals
''The Colours of Animals'' is a zoology book written in 1890 by Sir Edward Bagnall Poulton (1856–1943). It was the first substantial textbook to argue the case for Darwinian selection applying to all aspects of animal coloration. The book a ...
'', 1890) and
Frank Evers Beddard
Frank Evers Beddard FRS FRSE (19 June 1858 – 14 July 1925) was an English zoologist. He became a leading authority on annelids, including earthworms. He won the Linnean Medal in 1916 for his book on oligochaetes.
Life
Beddard was born in ...
(''
Animal Coloration'', 1895); Stevens observes that background matching on its own would always fail because of "discontinuities between the boundary of the animal and the background".
[
]
In animals
Disruptive patterns use strongly contrasting markings such as spots or stripes to break up the outlines of an animal or military vehicle. Some predators, like the leopard, and some potential prey like the Egyptian nightjar, use disruptive patterns. Disruptive patterns are defined by A. Barbosa and colleagues as "characterized by high-contrast light and dark patches, in a nonrepetitive configuration, that also provide camouflage by disrupting the recognizable shape or orientation of the animal", as in the cuttlefish.
The strategy appears paradoxical and counter-intuitive as a method of camouflage, since disrupting outlines depends on using patches of colour which contrast strongly with each other, so the patches are themselves conspicuous. While background matching works best for a single background, disruptive coloration is a more effective strategy when an animal or a military vehicle may have a variety of backgrounds.[
Martin Stevens and colleagues in 2006 made what they believed was the first experimental test that "disruptive coloration is effective even when some colour patches do not match the background and have a high contrast with both the background and adjacent pattern elements (disruptive contrast)".][ They used "moth-like targets", some matching the lightness of the background ]oak
An oak is a tree or shrub in the genus ''Quercus'' (; Latin "oak tree") of the beech family, Fagaceae. There are approximately 500 extant species of oaks. The common name "oak" also appears in the names of species in related genera, notably ''L ...
tree bark, other mismatching it, each with a dead mealworm. If the mealworm was removed it was assumed a bird predator had taken it: this could be distinguished from visits by other predators. They found that disruptive coloration provided the best protection from bird predators when the pattern was matched to background luminance, but even when elements in a pattern did not match, disruptive patterns were still better at reducing predation than either non-disruptive patterns or plain (unpatterned) control targets.[
Disruptive patterns can also conceal specific features. Animals such as fish, birds, frogs and snakes can readily be detected by their eyes, which are necessarily round and dark. Many species conceal the eye with a disruptive eye mask, sometimes contrasting with a stripe above the eye, making it seem just part of a dark area of background. Cott called this a special case of a " coincident disruptive pattern".
Another camouflage mechanism, distractive markings, also involves conspicuous marks and has for a century since Thayer's initial description been conflated with it, but the two require different kinds of marking. For distraction, the markings should be small and should avoid the prey's outline so as to take attention away from it, whereas disruptive markings should contact the outline so as to break it up.]
The opposite case: aposematism
Many poisonous or distasteful animals that advertise their presence with warning coloration ( aposematism) use patterns that emphasize rather than disrupt their outlines. For example, skunks
Skunks are mammals in the family Mephitidae. They are known for their ability to spray a liquid with a strong, unpleasant scent from their anal glands. Different species of skunk vary in appearance from black-and-white to brown, cream or ging ...
, salamanders
Salamanders are a group of amphibians typically characterized by their lizard-like appearance, with slender bodies, blunt snouts, short limbs projecting at right angles to the body, and the presence of a tail in both larvae and adults. All ten ...
and monarch butterflies
The monarch butterfly or simply monarch (''Danaus plexippus'') is a milkweed butterfly (subfamily Danainae) in the family Nymphalidae. Other common names, depending on region, include milkweed, common tiger, wanderer, and black-veined brown. ...
all have high contrast patterns that display their outlines. These advertising patterns exploit the opposite principle to disruptive coloration, for what is in effect the exactly opposite effect: to make the animal as conspicuous as possible. Some Lepidoptera, including the wood tiger moth, are aposematic and disruptively coloured; against a green, vegetative background their bright aposematic coloration stands out, but on the ground their wings camouflage them among dead leaves and dirt.
A disputed case: the giraffe
The presence of bold markings does not in itself prove that an animal relies on camouflage.[ Roosevelt attacks Thayer on page 191, arguing that neither zebra nor giraffe are "'adequately obliterated' by countershading or coloration pattern or anything else."] According to Mitchell, adult giraffes are "inescapably conspicuous", making the conclusion that their patterns are for camouflage appear counterintuitive: but when standing among trees and bushes, their camouflage is effective at even a few metres' distance.
Further, young giraffes are much more vulnerable to predation than adults: between 60% and 75% of calves die within a year. Mothers hide their calves, which spend much of the time lying down in cover. Since the presence of a mother does not affect survival, Mitchell suggests that young giraffes must be extremely well camouflaged. This is supported by the fact that coat markings are strongly inherited. Conversely, far from hiding, adult giraffes move about to gain the best view of an approaching predator, relying on their size and ability to defend themselves even from lions.
Other ways of hiding outlines
The outlines of an animal's body can be made hard to see by other methods, such as by using a highly irregular outline. For example, the comma butterfly, ''Polygonia c-album'', is highly cryptic when its wings are closed, with cryptic colours, disruptive pattern, and irregular outer margins to the wings.
In plants
The possibility of protective coloration in plants has been little studied. T. J. Givnish and Simcha Lev-Yadun have proposed that leaf variegation with white spots may serve as camouflage in forest understory plants, where there is a dappled background. Lev-Yadun has also suggested, however, that similar markings serve as conspicuous warning coloration in well-defended thorny plants of open habitats, where the background is uniformly bright. Givnish found a correlation of leaf mottling with closed habitats. Disruptive camouflage would have a clear evolutionary advantage in plants: they would tend to escape from being eaten by herbivores; and the hypothesis is testable.
Military usage
Disruptive coloration is common in military usage, for military vehicles, for firing positions and other installations, and for individual soldiers, where uniforms, equipment such as helmets, and face paint may be used to break up outlines and features. Disruptive coloration, however, does not always achieve crypsis on its own, as an animal or a military target may be given away by other factors including shape, shine, and shadow.
Many military camouflage patterns since the 1940s have been disruptively coloured, and with the issue of US Woodland pattern to United States armed forces
The United States Armed Forces are the military forces of the United States. The armed forces consists of six service branches: the Army, Marine Corps, Navy, Air Force, Space Force, and Coast Guard. The president of the United States is ...
from 1981, disruptive pattern became a dominant feature of military uniforms. From 1969, Disruptive Pattern Material
Disruptive Pattern Material (DPM) is the commonly used name of a camouflage pattern used by the British Armed Forces as well as many other armed forces worldwide, particularly in former British colonies.
The main variants of DPM are a four-colo ...
(DPM) began to replace plain material for uniforms in the British Armed Forces and was later used by many other armies.
Challenges
Three major challenges face the design of disruptively patterned uniforms. Firstly, units frequently move from one terrain to another, where the background colours and contrasts may differ greatly. A uniform designed for woodland will be too strongly contrasting for desert use, and too green for urban use. Therefore, no single camouflage pattern is effective in all terrains. The American UCP of 2004 attempted to suit all environments but was withdrawn after a few years of service. Terrain specific patterns like "Berlin camouflage", which was applied to British vehicles operating in Berlin
Berlin ( , ) is the capital and List of cities in Germany by population, largest city of Germany by both area and population. Its 3.7 million inhabitants make it the European Union's List of cities in the European Union by population within ci ...
during the Cold War, have sometimes been developed but are ineffective in other terrains. Secondly, the effectiveness of any pattern in disrupting a soldier's outlines varies with lighting, depending on the weather and the height of the sun in the sky. And thirdly, any given patch of printed colour varies in apparent size with distance from the enemy observing the pattern. A pattern printed with small patches of colour blends into a single perceived mass at a certain range, defeating the disruptive effect. Conversely, a pattern printed with large patches of colour appears conspicuous at shorter ranges. This problem has been solved with pixellated shapes, often designed digitally, that provide a fractal-like range of patch sizes, enabling them to be effectively disruptive both at close range and at a distance. The first genuinely digital camouflage pattern was the Canadian CADPAT
Canadian Disruptive Pattern (CADPAT; french: links=no, dessin de camouflage canadien, DcamC) is the computer-generated digital camouflage pattern developed for use by the Canadian Armed Forces. Four operational variations of CADPAT have been use ...
, soon followed by the American MARPAT
MARPAT (short for Marine pattern) is a multi-scale camouflage pattern in use with the United States Marine Corps, designed in 2001 and introduced from late 2002 to early 2005 with the Marine Corps Combat Utility Uniform (MCCUU), which replace ...
. A pixellated appearance is not essential for this effect, though it is simpler to design and to print.
Examples
File:WoodFrog DarienLakesStatePark 2020-06-16 (02).jpg, Wood frog
''Lithobates sylvaticus'' or ''Rana sylvatica'', commonly known as the wood frog, is a frog species that has a broad distribution over North America, extending from the boreal forest of the north to the southern Appalachians, with several nota ...
among fallen leaves.
File:Great male Leopard in South Afrika-JD.JPG, alt=photo of a leopard, Leopard: a disruptively camouflaged (and countershaded
Countershading, or Thayer's law, is a method of camouflage in which an animal's coloration is darker on the top or upper side and lighter on the underside of the body. This pattern is found in many species of mammals, reptiles, birds, fish, a ...
) predator
File:Ptarmigan and five chicks.JPG, alt=photo of a hen ptarmigan and her chicks, A ptarmigan
''Lagopus'' is a small genus of birds in the grouse subfamily commonly known as ptarmigans (). The genus contains three living species with numerous described subspecies, all living in tundra or cold upland areas.
Taxonomy and etymology
The ge ...
and five chicks with exceptional disruptive camouflage
File:Jumping spider with prey.jpg, alt=photo of a jumping spider, Jumping spider
Jumping spiders are a group of spiders that constitute the family Salticidae. As of 2019, this family contained over 600 described genera and over 6,000 described species, making it the largest family of spiders at 13% of all species. Jumping spi ...
: a disruptively camouflaged invertebrate predator
File:Armoured personnel carriers, Eriboll - geograph.org.uk - 1316295.jpg, alt=photo of armoured vehicles easy to see on bare hillside, "Shape, shine, shadow" make these "camouflaged" military vehicles easily visible, their outlines not disrupted
File:Challenger 2 Tank MOD 45148907.jpg, alt=photo of a Challenger 2 tank at speed on grassy plain, A British Challenger 2
The FV4034 Challenger 2 (MOD designation "CR2") is a third generation British main battle tank (MBT) in service with the armies of the United Kingdom and Oman. It was designed and built by the British company Vickers Defence Systems (now known ...
tank painted in bold disruptive pattern of sand and green
File:Chaetodon striatus Brasil.jpg, The banded butterflyfish, '' Chaetodon striatus'', has strong disruptive bands through the body and concealing the eye.
File:US Navy WWII ship camouflage measures - detail of USS Alabama in measure 16.jpg, USS ''Alabama'' wearing Measure 12 ship camouflage during World War II
File:A-7D Corsairs 354th TFW at Korat 1972.JPG, Disruptively camouflaged A-7D Corsairs on a disruptively painted concrete surface, Thailand, 1972
References
Sources
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{{camouflage
Camouflage
Military camouflage