Feeding for Coat Health
Team Marketing | 18.10.20
Everyone wants to see their horses with a sleek, glowing coat and not only for aesthetic reasons, but also because the quality of a horse’s hair coat is directly related to his overall health. Providing the horse with plenty of roughage and a balanced diet along with an effective parasite control regime, sufficient exercise and grooming is imperative when striving for a healthy coat. Horse owners are frequently asking “what can I feed to darken my horses coat or make him shinier”? In order to answer this we must first understand the basics of hair structure and the genetics of coat color.
Hair is a filamentous biomaterial that grows from follicles found in the dermis layer of the skin. Hair is primarily composed of protein, notably keratin. Hair growth begins inside the hair follicle. The only "living" portion of the hair is found in the follicle. The hair that is visible is the hair shaft, which exhibits no biochemical activity and is considered "dead". The base of the root is called the bulb, which contains the cells that produce the hair shaft. Other structures of the hair follicle include the oil producing sebaceous gland which lubricates the hair and the arrector pili muscles, which are responsible for causing hairs to stand up.
Coat ColorThere are many different coat colors possible, but all colors are produced by the action of only a few genes. The simplest genetic default color of all domesticated horses can be described as either "red" or "non-red", depending on whether a gene known as the "Extension" gene is present. When no other genes are active, a "red" horse is the color popularly known as a chestnut. Black coat color occurs when the Extension gene is present, but no other genes are acting on coat color. The Agouti gene can be recognized only in "non-red" horses; it determines whether black color is uniform, creating a black horse, or limited to the extremities of the body, creating a bay horse. Chestnut, black, and bay are considered the three "base" colors that all remaining coat color genes act upon. There are a number of dilution genes that lighten these three colors in a variety of ways, sometimes affecting skin and eyes as well as hair coat, including cream, dun, pearl, champagne and silver dapple. The Palomino color for example, is created by a single allele of a dilution gene called the cream gene working on a "red" (chestnut) base coat. Genes that affect the distribution of white and pigmented coat, skin and eye color create patterns such as roan, pinto, leopard, and even white markings. Some of these patterns may be the result of a single gene; others may be influenced by multiple alleles. Finally the grey gene, which acts differently from other coat color genes, slowly lightens any other hair coat color to white over a period of years, without changing skin or eye color.
Sun BleachingMelanin is a pigment found in hair cells that gives each its color. The sun bleaches and destroys the melanin in hair making it lighter. Since hair is dead, the hair will stay that color until new hair comes in. The UV in sunlight oxidizes melanin into a colorless compound; this is why hair gets lighter. Keeping a thin sheet on your horse during the sunniest periods of the day may reduce bleaching of your horses’ hair coat.
Nutrition and Coat Health
Firstly it should be noted that the coat color of a horse cannot be changed, unless it is chemically dyed or bleached by the sun and for any nutrients to have an effect on the integrity of the hair, it has to be implemented prior to the new coat starting to grow in.
With that being said there are several nutrients that are known to be involved in the synthesis of the protein found in hair. Copper, Zinc, biotin, fatty acids and protein (specifically the amino acid methionine) are necessary for hair growth and structure. Copper and zinc are required for the manufacture of the melanocytes that give bays, blacks and chestnuts their color. Most people have heard about using biotin to improve hoof quality, but this also applies to the coat, insufficient biotin can lead to thin and brittle hair. Hair is primarily composed of protein once the water is removed. Insufficient protein intake can result in coats that do not lie smoothly, as well as brittle, slow growing coats.
Adding oil to the diet will supply essential fatty acids that are required by the hair follicle to lubricate the hair which gives it a shiny appearance. When hair is newly grown the hair shaft has a good coating of oil (sebum), which gives a high refractive index. This means light is captured and reflected inside the shaft giving the hairs a darker and shinier appearance. As the hair ages the natural oils wear off, however, by feeding a higher fat diet there is more oil available to coat the hairs resulting in a shinier, darker coat for longer.
Management and Coat Health
Exercise improves the delivery of blood and therefore oxygen and nutrients to the skin. In time, the number of blood vessels and density of the capillaries supplying the skin actually increase so that nutrient flow is improved even when the horse isn't exercising. Exercise is also beneficial by stimulating the flow of sweat and sebum. Sebum is the oily material secreted from the hair follicles that helps give the hair its shine and forms a protective layer over the skin, preventing excess moisture loss and drying. Deworming your horse is also important as parasites can rob the body of nutrients, and hair and skin are often the first areas to show it. Also groom your horse regularly as brushing will remove dirt, dead hair and dead skin. It will also stimulate blood flow to the hair follicles and feed new hair growth.