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Fish coloration, a subset of
Color change in fishes can be roughly divided into two categories: physiological color change and morphological color change. Physiological color change is considered to be more rapid and consist of motile chromatophore responses, while morphological color change consists of the density and morphology of chromatophores changing. Overall, morphological color changes are considered to be a "physiological phenomena involved in the balance between differentiation f melanophoresand apoptosis of chromatophores" but are still being studied; that is to say it has to do with the synthesis of pigment. The genetic factors behind natural morph variants of color in fish are still mostly undiscovered. Some hormonal factors of morphological color change in fish include α-MSH, prolactin, estrogen, noradrenaline, MCH, and possibly melatonin. Some of these are also involved in physiological color change. In physiological color change, there is also neurohumoral regulation of chromatophores in fish. Additionally, there have been found to be "differences at the intracellular level where fish chromatophores show smaller, better coordinated, and higher speed of the pigment organelles" in comparison to color-changing frogs.
An example of physiological color change is found in the black-spotted rockskipper (''Entomacrodus striatus''). They are known to change color rapidly using their chromatophores, which is thought to enhance their
Enhance Guppy Color
*https://onlinelibrary.wiley.com/doi/full/10.1111/pcmr.12040 Evolution of vertebrates Mimicry Warning coloration Camouflage Articles containing video clips
animal coloration
Animal coloration is the general appearance of an animal resulting from the reflection or emission of light from its surfaces. Some animals are brightly coloured, while others are hard to see. In some species, such as the peafowl, the male h ...
, is extremely diverse. Fish
A fish (: fish or fishes) is an aquatic animal, aquatic, Anamniotes, anamniotic, gill-bearing vertebrate animal with swimming fish fin, fins and craniate, a hard skull, but lacking limb (anatomy), limbs with digit (anatomy), digits. Fish can ...
across all taxa
In biology, a taxon (back-formation from ''taxonomy''; : taxa) is a group of one or more populations of an organism or organisms seen by taxonomists to form a unit. Although neither is required, a taxon is usually known by a particular name and ...
vary greatly in their coloration through special mechanisms, mainly pigment cells called chromatophore
Chromatophores are cells that produce color, of which many types are pigment-containing cells, or groups of cells, found in a wide range of animals including amphibians, fish, reptiles, crustaceans and cephalopod
A cephalopod is any member o ...
s. Fish can have any colors of the visual spectrum on their skin, evolutionarily derived for many reasons. There are three factors to coloration, brightness (intensity of light), hue (mixtures of wavelengths), and saturation (the purity of wavelengths). Fish coloration has three proposed functions: thermoregulation, intraspecific communication, and interspecific communication. Fishes' diverse coloration is possibly derivative of the fact that "fish most likely see colors very differently than humans".
Mechanisms
Fish coloration is produced through specialized cells called chromatophores. The dermal chromatophore is a basic color unit in amphibians, reptiles, and fish which has three cell layers: "the xanthophore (contains carotenoid and pteridinepigment
A pigment is a powder used to add or alter color or change visual appearance. Pigments are completely or nearly solubility, insoluble and reactivity (chemistry), chemically unreactive in water or another medium; in contrast, dyes are colored sub ...
s), the iridophore (reflects color structurally), and the melanophore (contains melanin)". The pigments in the chromatophores are generally classified into two groups: melanin
Melanin (; ) is a family of biomolecules organized as oligomers or polymers, which among other functions provide the pigments of many organisms. Melanin pigments are produced in a specialized group of cells known as melanocytes.
There are ...
(makes browns, grays, and blacks), and carotenoid
Carotenoids () are yellow, orange, and red organic pigments that are produced by plants and algae, as well as several bacteria, archaea, and fungi. Carotenoids give the characteristic color to pumpkins, carrots, parsnips, corn, tomatoes, cana ...
s (makes reds, oranges, and yellows). Xanthophores, iridophores, and melanophores "originate from neural crest‐derived stem cells associated with the dorsal root ganglia of the peripheral nervous system".
Specific mechanisms by color
* Black: produced by melanin granules dispersing inside the melanophore * Gray and brown: produced by melanin granules concentrating inside the melanophore * White: appears from light reflected by crystals of guanine in iridophores and leucophores * Red, orange, yellow: produced by carotenoids that come from fish's diet * Green, blue, violet: (generally) structural colors produced by the reflection and refraction of light by the skin and scale layers An example of a family of fish that is widely known for their highly varied and bright coloration are the Labridae (wrasses) and Scaridae (parrotfish). These fishes are known to possess all of the above pigments in different ratios depending on where they live in relation to the coral reef environment. Different wavelengths, and thus different colors, travel differently and therefore appear differently depending on the depth of the water and the things on which they are reflecting.Evolutionary function
Signalling
One way that fish coloration can be categorized is into "static" or "dynamic" coloration/displays. Static coloration often serves as an "identification badge" for information such as species, reproductive condition, sex, or age. An example of a type of static coloration that conveys clear information to predators of different species isaposematic coloration
Aposematism is the advertising by an animal, whether terrestrial or marine, to potential predators that it is not worth attacking or eating. This unprofitability may consist of any defenses which make the prey difficult to kill and eat, such ...
. An example of aposematic coloration is in the lionfish
''Pterois'' is a genus of venomous fish, venomous marine fish, commonly known as the lionfish, native to the Indo-Pacific. It is characterized by conspicuous aposematism, warning coloration with red or black bands and ostentatious dorsal fins tip ...
(''Pterois sp.''). Dynamic displays consist of either changes of color or "rapid exposure of colored, previously hidden structures" such as colored fins that can be erected at will, colored mouth opening and closing, or flaring gills with bright coloration on the gill
A gill () is a respiration organ, respiratory organ that many aquatic ecosystem, aquatic organisms use to extract dissolved oxygen from water and to excrete carbon dioxide. The gills of some species, such as hermit crabs, have adapted to allow r ...
margins. For example, grunts have a bright red lining on their mouth that they can show by opening it in a head-to-head encounter. Another common example is the betta fish, or Siamese fighting fish
The Siamese fighting fish (''Betta splendens''), commonly known as the betta, is a freshwater fish native to Southeast Asia, namely Cambodia, Laos, Myanmar, Malaysia, Indonesia, Thailand, and Vietnam. It is one of 76 species of the genus '' Bet ...
, that will flare its gills as an aggressive behavior. These gills have brightly colored margins that contrast the rest of the body.
Camouflage
Some fish are famous for theircamouflage
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 ...
, and it comes in many forms. Camouflage is when a fish is trying to blend in with its background, or not look obvious. Some major forms of camouflage in fish include protective resemblance, disruptive coloration
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 hardware with a strongly contrasting pattern. It is often com ...
, countershading
Countershading, or Thayer's law, is a method of camouflage in which animal coloration, 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, reptile ...
, mirror-siding, and transparency.
Protective resemblance
Protective resemblance is blending in, or resembling an object that is not of interest to a predator and is thus inconspicuous. One example is the juvenile '' Platax orbicularis'' that resembles a leaf floating in the water. Another example is the '' Hippocampus bargibanti'' that resembles the coral it hooks to.
Disruptive coloration
Disruptive coloration in fish functions to break up the fishlike outline. This can be done with stripes, bars, or spot patterns on the fish. Bars are lines that go dorsal to ventral, for example in the blackbanded sunfish. Stripes are lines that go from the snout to the tail, such as in ''Aeoliscus strigatus
''Aeoliscus'' is a genus of shrimpfishes found in the Indian and Pacific Oceans.
Species
There are currently two recognized extant species of Aeoliscus in this genus:
* '' Aeoliscus punctulatus'' ( Bianconi, 1854) (speckled shrimpfish)
* '' Ae ...
''. Stripes and bars often continue through the eye to break up the easily recognized vertebrate eye.
Countershading
Countershading (dark on top and light on the bottom) in fish works well in conjunction with how light comes into the water from above. Looking from below up at a countershaded fish, the light belly will blend in with the light surface of the water. Looking from above down at a countershaded fish, the dark back will blend with the dark water below. An example of countershading in fish is theAtlantic bluefin tuna
The Atlantic bluefin tuna (''Thunnus thynnus'') is a species of tuna in the family Scombridae. It is variously known as the northern bluefin tuna (mainly when including Pacific bluefin as a subspecies), giant bluefin tuna (for individuals excee ...
. Some fish are even known to have reverse countershading, being light on the dorsal side and dark on the ventral side. An example of this is '' Tyrannochromis macrostoma'', which turns upside-down right before it strikes, essentially disappearing.
Mimicry
Mimicry
In evolutionary biology, mimicry is an evolved resemblance between an organism and another object, often an organism of another species. Mimicry may evolve between different species, or between individuals of the same species. In the simples ...
is defined as an animal resembling a different animal that is avoided or not commonly preyed upon and is thus conspicuous. There are two types of mimicry: Müllerian mimicry
Müllerian mimicry is a natural phenomenon in which two or more well-defended species, often foul-tasting and sharing common predators, have come to mimicry, mimic each other's honest signal, honest aposematism, warning signals, to their mutuali ...
and Batesian mimicry
Batesian mimicry is a form of mimicry where a harmless species has evolved to imitate the warning signals of a harmful species directed at a predator of them both. It is named after the English naturalist Henry Walter Bates, who worked on butt ...
. An example of Batesian mimicry in fishes are the Centrogeniidae (false scorpionfishes), that resemble the Scorpaenidae
The Scorpaenidae (also known as scorpionfish) are a family (biology), family of mostly ocean, marine fish that includes many of the world's most venomous species. As their name suggests, scorpionfish have a type of "sting" in the form of sharp ...
(scorpionfishes). Another example of Batesian mimicry is the ringed snake eel ('' Myrichthys colubrinus'') that mimics the venomous sea snake ''Laticauda colubrina
The yellow-lipped sea krait (''Laticauda colubrina''), also known as the banded sea krait or colubrine sea krait, is a species of highly venomous snake found in tropical Indo-Pacific oceanic waters. The snake has distinctive black stripes and a ...
''. An example of Müllerian mimicry is in saber-toothed blennies. The ''Meiacanthus atrodorsalis
''Meiacanthus atrodorsalis'', the forktail blenny, is a species of combtooth blenny found in coral reefs in the western Pacific ocean. This species grows to a length of TL. This venomous species can also be found in the aquarium
An aqua ...
'' and the ''Plagiotremus laudandus
''Plagiotremus laudandus'', the bicolour fangblenny, false harptail-blenny, poison-fang blenny mimic, yellow-tailed blenny or the yellowtail fangblenny mimic, is a species of combtooth blenny found in coral reefs in the western Pacific ocean. Th ...
'', both venomous, resemble each other and the '' Meiacanthus oualanensis'' and the ''Plagiotremus laudandus flavus'', also both venomous, resemble each other.
Color change
Color change in fishes can be roughly divided into two categories: physiological color change and morphological color change. Physiological color change is considered to be more rapid and consist of motile chromatophore responses, while morphological color change consists of the density and morphology of chromatophores changing. Overall, morphological color changes are considered to be a "physiological phenomena involved in the balance between differentiation f melanophoresand apoptosis of chromatophores" but are still being studied; that is to say it has to do with the synthesis of pigment. The genetic factors behind natural morph variants of color in fish are still mostly undiscovered. Some hormonal factors of morphological color change in fish include α-MSH, prolactin, estrogen, noradrenaline, MCH, and possibly melatonin. Some of these are also involved in physiological color change. In physiological color change, there is also neurohumoral regulation of chromatophores in fish. Additionally, there have been found to be "differences at the intracellular level where fish chromatophores show smaller, better coordinated, and higher speed of the pigment organelles" in comparison to color-changing frogs.
An example of physiological color change is found in the black-spotted rockskipper (''Entomacrodus striatus''). They are known to change color rapidly using their chromatophores, which is thought to enhance their crypsis
In ecology, crypsis is the ability of an animal or a plant to avoid observation or detection by other animals. It may be part of a predation strategy or an antipredator adaptation. Methods include camouflage, nocturnality, subterranean life ...
in the "high-contrast environment of the rock wall". Another example of physiological color change is in the body and the eyes of guppy juveniles and Nile tilapia.
An example of morphological color change is in the Midas cichlid (''Amphilophus citrinellus''), that has "normal" and "gold" polymorphisms. Most of these cichlids maintain a "normal" grayish color pattern from juvenile to adult. However some of these species undergo morphological color change over their lifetimes, growing to be a gold or white color pattern as an adult. Another example of a fish that undergo morphological color change is the ''Hyphessobrycon myrmex'' sp. nov.. Juveniles are pale yellow and females maintain that color as adults. Males undergo morphological color change and become red or orange
References
{{ReflistExternal links
*https://reefci.com/2013/10/31/significance-of-colors-and-patterns-of-coral-reef-fishes-an-overview/ *https://www.jstor.org/stable/2407979 *https://doi.org/10.1111/ele.13180Enhance Guppy Color
*https://onlinelibrary.wiley.com/doi/full/10.1111/pcmr.12040 Evolution of vertebrates Mimicry Warning coloration Camouflage Articles containing video clips