Horse colors: Difference between revisions
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Horses have coats in shades of black, red, white, brown and grey, and mane and tail colors that either match, or contrast, with color of the coat. Those colors lend a distinctive appearance to the individual horse, and sometimes, typify an entire [[horse breed]]. The genetics behind the inheritance of these colors is a fascinating subject in and of itself, and of practical interest to the horse breeder. Knowledge of colors and markings are important in identifying horses, and in breeding selection for desireable traits. Not only are some colors and patterns in increased demand, but sometimes these features are written in to the breed standard of purbred horses. The [[Paint horse]], and the [[Appaloosa]], for example, were originally defined largely for the pattern of their coats and their value is affected by these qualities. The [[Lipizzaner horse]]s, famous as the "dancing white stallions" are (like almost ''all'' "white" horses) almost always grey. Speculation about just how color and pattern is inherited in horses has probably been around as long as horse breeding has been, but it is only in the last decades that an understanding of the genetics has become sophisticated enough to go beyond speculation. Several [[DNA]] tests for color genes are now available, and a blood or hair root sample can reveal the [[genotype]] of a mare and stallion, allowing the breeder to predict the appearance of their offspring. Since some of those genes also influence eye and skin color, and the color of hoofs, as well as the patterns of color on the coat and the probability of white markings like socks, snipes, and blazes, accuracy of that prediction can go beyond simple base coat color. | Horses have coats in shades of black, red, white, brown and grey, and mane and tail colors that either match, or contrast, with color of the coat. Those colors lend a distinctive appearance to the individual horse, and sometimes, typify an entire [[horse breed]]. The genetics behind the inheritance of these colors is a fascinating subject in and of itself, and of practical interest to the horse breeder. Knowledge of colors and markings are important in identifying horses, and in breeding selection for desireable traits. Not only are some colors and patterns in increased demand, but sometimes these features are written in to the breed standard of purbred horses. The [[Paint horse]], and the [[Appaloosa]], for example, were originally defined largely for the pattern of their coats and their value is affected by these qualities. The [[Lipizzaner horse]]s, famous as the "dancing white stallions" are (like almost ''all'' "white" horses) almost always grey. Other varieties of horses, like the American [[Mustang horse|mustang]] are noted to come in all patterns and colors [http://www.mustangs4us.com/colors_and_color_patterns.htm]. Speculation about just how color and pattern is inherited in horses has probably been around as long as horse breeding has been, but it is only in the last decades that an understanding of the genetics has become sophisticated enough to go beyond speculation. Several [[DNA]] tests for color genes are now available, and a blood or hair root sample can reveal the [[genotype]] of a mare and stallion, allowing the breeder to predict the appearance of their offspring. Since some of those genes also influence eye and skin color, and the color of hoofs, as well as the patterns of color on the coat and the probability of white markings like socks, snipes, and blazes, accuracy of that prediction can go beyond simple base coat color. | ||
=Solid colors= | =Solid colors= | ||
The basic pigments that color horses are red and black[[http://www.horsecolor.com/basics/starting_point.htm]]. Other genes modify the expression of these pigments. | |||
==Red: chestnut and sorrel== | ==Red: chestnut and sorrel== | ||
Red haired horses are called | Red-haired horses are called different names by English-speaking people in different geographic areas. Equestrians from the [[United Kingdom]], and the British commonwealth, as well as Americans from the East Coast usually call these horses ''chestnut'', whereas Americans from Western USA, and advocates of western style riding, refer to them as ''sorrel''. That distinction carries over to breeds that are most typically used for either English or Western styles of riding - so that the [[quarter horse]]s so popular for [[western riding]] will be called sorrel, but a [[warmblood]] or [[thoroughbred-draft cross]] competing in high level [[dressage]] or jumping a [[Grand Prix]] will be called chestnut, despite the fact that all might be the very same shade of red, and might be competing in the very same location. However, whatever its called, colorwise, red is red; and genetically, sorrel and chestnut horses are the same. What makes their hair that color is a pigment called [[phaeomelanin]]. By and large, every horse produces this pigment. The exceptions will be discussed in a later section (see [True White]). | ||
[[Image:Image:Mounted police officer in Helsinki Finland.jpg| left| caption: Chestnut police horse with blaze.]] | [[Image:Image:Mounted police officer in Helsinki Finland.jpg| left| caption: Chestnut police horse with blaze.]] | ||
[[Image:Image:Chestnut head.jpg|right| This thoroughbred mare is chestnut. The most famous chestnut thoroughbred was probably the great racehorse, [[Secretariat]].]] | [[Image:Image:Chestnut head.jpg|right| This thoroughbred mare is chestnut. The most famous chestnut thoroughbred was probably the great racehorse, [[Secretariat]].]] | ||
==Black hairs: the E gene== | ==Black hairs: the E gene== | ||
The black color of horse hair is made by the pigment [[eumelanin]]. When a hair is colored by both red and black pigment, the black is what shows, masking the red, One portion of the horse's genome is the "extension locus". There are two possible alleles for this trait, E, the dominant form, and, e, the recessive form. If the horse has one or two copies of E, black pigment will appear in the hairs. If the animal has no dominant extension allele, meaning it is homozygous (has two copies) of the recessive allele, e, the black pigment is blocked, and the horse is red. | |||
===Black or bay? : the agouti gene=== | |||
The Agouti locus determines whether the black pigment of a hair is spread out evenly over the body or preferentially concentrated in certain areas. The dominant allele, A, causes eumelanin (black pigment) to be restricted to the horse's points (mane, tail, legs). leaving the rest of the body red-brown, and so a horse that is EE Aa or EEAA is a bay horse. | |||
The recessive Agouti allele, a, allows eumelanin to be fully expressed all over the hair on the horse's entire body, and so a horse that is EE aa is black. | |||
===Bay=== | ===Bay=== | ||
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===Black=== | ===Black=== | ||
When a horse with black coat pigment is ''doubly'' recessive for the Agouti gene, pigment is spread evenly over each hair and the apearance is black rather than bay. Since a single copy of the dominant allele of an Agouti gene will make that horse bay, and there are two agouti genes in each horse, overall, black horses are unusual. When breeds of horses | When a horse with black coat pigment is ''doubly'' recessive for the Agouti gene, pigment is spread evenly over each hair and the apearance is black rather than bay. Since a single copy of the dominant allele of an Agouti gene will make that horse bay, and there are two agouti genes in each horse, overall, black horses are unusual. When breeds of horses are characteristically black, both parents will carry a pair of recessive ag genes, and their foals will share their color. [[Fresians]], a particularly elegant draft breed, are almost always black, for this reason. | ||
[[Image:Image:Murgese5 stehend Gang.jpg| left| caption: A black stallion]] | [[Image:Image:Murgese5 stehend Gang.jpg| left| caption: A black stallion]] | ||
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====True black or barn black?==== | ====True black or barn black?==== | ||
Many black horses are referred to as "barn black", because, unless they are kept out of the sun (in the barn) their color fades so much that the horse looks dark brown rather than black. Some horses have a coat that is true, or non-fading, black - a color that is both unusual, and highly coveted. The differences in the color genes between barn black and non-fading black horses are not yet known. Both are EE aa. | |||
==Grey horses== | ==Grey horses== | ||
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===Buckskin=== | ===Buckskin=== | ||
Dilution of a bay horse results in buckskin coloration. This horse will have at least one copy of the dominant agouti gene, | Dilution of a bay horse results in buckskin coloration (EE Aa Crcr) . This horse will have at least one copy of the dominant agouti gene, A, so that black pigment on the coat is relegated to the mane, tail and points. A well-marked buckskin horse has a tan body, black mane and tail, and black "socks". | ||
There are additional modifications to the body coat color that are known by the colloquial terms "smutty buckskin", "sooty buckskin" and "black buckskin", when a percentage of body hairs are entirely dark. | There are additional modifications to the body coat color that are known by the colloquial terms "smutty buckskin", "sooty buckskin" and "black buckskin", when a percentage of body hairs are entirely dark. | ||
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===Smoky black=== | ===Smoky black=== | ||
Dilution of a black horse results in smoky black coloration. Such a horse, like all black horses, will be doubly recessive for the agouti allele | Dilution of a black horse results in smoky black coloration. Such a horse, like all black horses, will be doubly recessive for the agouti allele and black pigment will be evenly spread along each hair. | ||
=====Smoky cream===== | |||
A black horse who has a double dose of the recessive cr gene will not look black at all, but cream colored. | |||
===Palomino=== | ===Palomino=== | ||
A chestnut horse (also caled sorrel) with a single dilute gene yields a palomino horse. Like the buckskin, there can be additional modifications of coat color. A so-called "chocolate palomino" occurs when XXX. The Paso fino Tomaria's Gallardo is an example of a chocolate or smutty palomino. Palomino's body color can be red enough that the horse might look chestnut, except for its light mane and tail, and the body color can be light enough to look nearly white. | |||
A chestnut horse (also caled sorrel) with a single dilute gene yields a palomino horse (ee CR cr aa) . Like the buckskin, there can be additional modifications of coat color. A so-called "chocolate palomino" occurs when XXX. The Paso fino Tomaria's Gallardo is an example of a chocolate or smutty palomino. Palomino's body color can be red enough that the horse might look chestnut, except for its light mane and tail, and the body color can be light enough to look nearly white. | |||
===Cremello=== | ===Cremello=== |
Revision as of 20:10, 31 December 2006
Horses have coats in shades of black, red, white, brown and grey, and mane and tail colors that either match, or contrast, with color of the coat. Those colors lend a distinctive appearance to the individual horse, and sometimes, typify an entire horse breed. The genetics behind the inheritance of these colors is a fascinating subject in and of itself, and of practical interest to the horse breeder. Knowledge of colors and markings are important in identifying horses, and in breeding selection for desireable traits. Not only are some colors and patterns in increased demand, but sometimes these features are written in to the breed standard of purbred horses. The Paint horse, and the Appaloosa, for example, were originally defined largely for the pattern of their coats and their value is affected by these qualities. The Lipizzaner horses, famous as the "dancing white stallions" are (like almost all "white" horses) almost always grey. Other varieties of horses, like the American mustang are noted to come in all patterns and colors [1]. Speculation about just how color and pattern is inherited in horses has probably been around as long as horse breeding has been, but it is only in the last decades that an understanding of the genetics has become sophisticated enough to go beyond speculation. Several DNA tests for color genes are now available, and a blood or hair root sample can reveal the genotype of a mare and stallion, allowing the breeder to predict the appearance of their offspring. Since some of those genes also influence eye and skin color, and the color of hoofs, as well as the patterns of color on the coat and the probability of white markings like socks, snipes, and blazes, accuracy of that prediction can go beyond simple base coat color.
Solid colors
The basic pigments that color horses are red and black[[2]]. Other genes modify the expression of these pigments.
Red: chestnut and sorrel
Red-haired horses are called different names by English-speaking people in different geographic areas. Equestrians from the United Kingdom, and the British commonwealth, as well as Americans from the East Coast usually call these horses chestnut, whereas Americans from Western USA, and advocates of western style riding, refer to them as sorrel. That distinction carries over to breeds that are most typically used for either English or Western styles of riding - so that the quarter horses so popular for western riding will be called sorrel, but a warmblood or thoroughbred-draft cross competing in high level dressage or jumping a Grand Prix will be called chestnut, despite the fact that all might be the very same shade of red, and might be competing in the very same location. However, whatever its called, colorwise, red is red; and genetically, sorrel and chestnut horses are the same. What makes their hair that color is a pigment called phaeomelanin. By and large, every horse produces this pigment. The exceptions will be discussed in a later section (see [True White]).
Black hairs: the E gene
The black color of horse hair is made by the pigment eumelanin. When a hair is colored by both red and black pigment, the black is what shows, masking the red, One portion of the horse's genome is the "extension locus". There are two possible alleles for this trait, E, the dominant form, and, e, the recessive form. If the horse has one or two copies of E, black pigment will appear in the hairs. If the animal has no dominant extension allele, meaning it is homozygous (has two copies) of the recessive allele, e, the black pigment is blocked, and the horse is red.
Black or bay? : the agouti gene
The Agouti locus determines whether the black pigment of a hair is spread out evenly over the body or preferentially concentrated in certain areas. The dominant allele, A, causes eumelanin (black pigment) to be restricted to the horse's points (mane, tail, legs). leaving the rest of the body red-brown, and so a horse that is EE Aa or EEAA is a bay horse.
The recessive Agouti allele, a, allows eumelanin to be fully expressed all over the hair on the horse's entire body, and so a horse that is EE aa is black.
Bay
Blood bay
When a bay horse has a particularly red coat, the name "blood bay" is often used.
Black
When a horse with black coat pigment is doubly recessive for the Agouti gene, pigment is spread evenly over each hair and the apearance is black rather than bay. Since a single copy of the dominant allele of an Agouti gene will make that horse bay, and there are two agouti genes in each horse, overall, black horses are unusual. When breeds of horses are characteristically black, both parents will carry a pair of recessive ag genes, and their foals will share their color. Fresians, a particularly elegant draft breed, are almost always black, for this reason.
True black or barn black?
Many black horses are referred to as "barn black", because, unless they are kept out of the sun (in the barn) their color fades so much that the horse looks dark brown rather than black. Some horses have a coat that is true, or non-fading, black - a color that is both unusual, and highly coveted. The differences in the color genes between barn black and non-fading black horses are not yet known. Both are EE aa.
Grey horses
Most horses called "white" are actually grey. The gene responsible for this color is responsible for a process, "greying". Grey foals are born a different color than they will have as young horses, and that youthful adult color will often continue to change over time. In youth, many grey horses have lighter coats than manes and tails, and may have a black mane and tail through much of their adult life. Since the G gene is dominant, one parent of a grey horse will always be grey.
G gene
Grey horses have a dominant form of the G gene, which excludes pigment from hair. The dominant G allele is not really a color, but a process of pigment loss. That process has been likened to human greying of hair, in which a black, red, or brown haired person becomes eventually silver-headed with age. "A young horse with a G allele will be born any color but gray and will gradually become white or white with red or black flecks as an aged animal. Earliest indications of change to gray can be seen by careful scrutiny of the head of a young foal, since often the first evidence of the gray hairs will be seen around the eyes. In intermediate stages of the graying process, the horse will have a mixture of white and dark hairs, a most confusing stage for trying to identify color."(reference for quote [3])
White or true albino horses: the W gene
If a horse possesses the dominant allele W, it will, starting from birth, lack pigment in both skin and hair. The skin is pink and the hair white. The eyes brown are usually brown, but can be blue. This horse is called white, or sometimes, albino. The W allele is rare. All horses that are homozygous for the recessive pigment allele are ww, and those horses include every one of the other colors discussed in this article. In other words, all non-white (meaning non-albino) horses are ww.
Roan horses
Dilution genes: The creme gene
Unlike many other mammals, horses are that are albino are not simply unusual, but unhealthy. When a horse has light eyes and pink skin, along with a light coat the gene at work is a dilution gene, rather than some form of lethal white. [4]. The creme gene codes for a modification of color, in its dominant form, CR, there is no modification. A heterozygous recessive, CR/cr, will lighten coat color and a doubly recessive creme gene, cr/cr will doubly lighten it. The resulting color will depend on the base color of the horse and other factors, as outlined below.
Buckskin
Dilution of a bay horse results in buckskin coloration (EE Aa Crcr) . This horse will have at least one copy of the dominant agouti gene, A, so that black pigment on the coat is relegated to the mane, tail and points. A well-marked buckskin horse has a tan body, black mane and tail, and black "socks".
There are additional modifications to the body coat color that are known by the colloquial terms "smutty buckskin", "sooty buckskin" and "black buckskin", when a percentage of body hairs are entirely dark.
Grulla
Smoky black
Dilution of a black horse results in smoky black coloration. Such a horse, like all black horses, will be doubly recessive for the agouti allele and black pigment will be evenly spread along each hair.
Smoky cream
A black horse who has a double dose of the recessive cr gene will not look black at all, but cream colored.
Palomino
A chestnut horse (also caled sorrel) with a single dilute gene yields a palomino horse (ee CR cr aa) . Like the buckskin, there can be additional modifications of coat color. A so-called "chocolate palomino" occurs when XXX. The Paso fino Tomaria's Gallardo is an example of a chocolate or smutty palomino. Palomino's body color can be red enough that the horse might look chestnut, except for its light mane and tail, and the body color can be light enough to look nearly white.
Cremello
This horse has a cream-colored coat that can range from a rather deep cream to near white. It is a doubly dilute form of a chestnut horse, and will have pink skin and blue eyes.
Perlino
Another double dilute, the perlino XXX
Paint or pinto patterns
Medicine hat
Overo
Tobiano
Blue-eyed horses
Genetic testing
Various laboratories around the world offer genetic testing of horses on either a research or commercial basis. The University of California at Davis Vetinary Genetics Laboratory is one such facility.