Horses are non-ruminant herbivores of a type known as a "hind-gut fermentor." This means that horses have only one stomach, as do humans. However, unlike humans, they also have to digest plant fiber (largely cellulose) that comes from grass and hay. Therefore, unlike ruminants, which digest fiber in plant matter by use of a multichambered stomach, horses use microbial fermentation in a part of the digestive system known as the cecum (or caecum) to break down the cellulose.
In practical terms, horses prefer to eat small amounts of food steadily throughout the day, as they do in nature when grazing on pasture. Although this is not always possible with modern stabling practices and human schedules that favor feeding horses twice a day, it is important to remember the underlying biology of the animal when determining what to feed, how often, and in what quantities.
The digestive system of the horse is somewhat delicate. Horses are unable to regurgitate food, except from the esophagus. Thus, if they overeat or eat something poisonous, vomiting is not an option. They also have a long, complex large intestine and a balance of beneficial microbes in their cecum that can be upset by rapid changes in feed. Because of these factors, they are very susceptible to colic, which is a leading cause of death in horses. Therefore, horses require clean, high-quality feed, provided at regular intervals, and may become ill if subjected to abrupt changes in their diets. Horses are also sensitive to molds and toxins. For this reason, they must never be fed contaminated fermentable materials such as lawn clippings. Fermented silage or "haylage" is fed to horses in some places; however, contamination or failure of the fermentation process that allows any mold or spoilage may be toxic.
The digestive system
Horses and other members of the genus Equus are adapted by evolutionary biology to eating small amounts of the same kind of food all day long. In the wild, horses ate prairie grasses in semi-arid regions and traveled significant distances each day in order to obtain adequate nutrition. Therefore, their digestive system was made to work best with a small but steady flow of food that does not change much from day to day.
Chewing and swallowing
Digestion begins in the mouth. First, the animal selects pieces of forage and picks up finer foods, such as grain, with sensitive, prehensile, lips. The front teeth of the horse, called incisors, nip off forage, and food is ground up for swallowing by the premolars and molars.
The esophagus carries food to the stomach. The esophagus enters the stomach at an acute angle, creating a one-way valve, with a powerful sphincter mechanism at the gastroesophageal junction, which is why horses cannot vomit. The esophagus is also the area of the digestive tract where horses may suffer from choke. (see <a href="#Illnesses_related_to_improper_feeding" title="">Illnesses related to improper feeding</a> below)
The stomach and small intestine
Horses have a small stomach for their size, which limits the amount of feed that can be taken in at one time. The average sized horse has a stomach with a capacity of only 4 US gallons (15 l), and works best when it contains about 2 US gallons (7.6 l). One reason continuous foraging or several small feedings per day are better than one or two large meals is because the stomach begins to empty when it is two-thirds full, whether the food in the stomach is processed or not.
The small intestine is 50 to 70 feet (15 to 21 m) long and holds 10 US gallons (38 l) to 12 US gallons (45 l). This is the major digestive organ where 50 to 70 percent of all nutrients are absorbed into the bloodstream. Bile from the liver acts here, combined with enzymes from the pancreas and small intestine itself. Equids do not have a gall bladder, so bile flows constantly, an adaptation to a slow but steady supply of food, and another reason for providing fodder to horses in several small feedings.
The cecum and large intestine
The cecum is the first section of the large intestine. It is also known as the "water gut" or "hind gut." It is a blind-ended pouch, about 4 feet (1.2 m) long that holds 7 US gallons (26 l) to 8 US gallons (30 l). The small intestine opens into the cecum, and the cellulose plant fiber in the food is fermented by microbes for approximately seven hours. The fermented material leaves the cecum through another orifice and passes to the large colon. The microbes in the cecum produce vitamin K, B-complex vitamins, proteins, and fatty acids. The reason horses must have their diets changed slowly is so the microbes in the cecum are able to modify and adapt to the different chemical structure of new feedstuffs. Too abrupt a change in diet can cause colic, because new materials are not properly digested.
The large colon, small colon, and rectum make up the remainder of the large intestine. The large colon is 10 to 12 feet (3.0 to 3.7 m) long and holds up to 20 US gallons (76 l) of semi-liquid matter. Its main purpose is to absorb carbohydrates which were broken down from cellulose in the cecum. Due to its many twists and turns, it is a common place for a type of horse colic called an impaction. The small colon is also 10 to 12 feet (3.0 to 3.7 m) long, holds about 5 US gallons (19 l), is the area where the majority of water is absorbed, and where fecal balls are formed. The rectum is about one foot long, and acts as a holding chamber for waste, which is then expelled from the body via the anus.
Like all animals, equines require five main classes of nutrients to survive: water, energy (primarily in the form of fats and carbohydrates), proteins, vitamins, and minerals.
Water makes up between 62-68% of a horse's body weight and is essential for life. Horses can only live a few days without water, becoming dangerously dehydrated if they lose 8-10% of their natural body water. Therefore, it is critically important for horses to have access to a fresh, clean, and adequate supply of water.
An average 1,000 lb (450 kg) horse drinks 10 US gallons (38 l) to 12 US gallons (45 l) of water per day, more in hot weather, when eating dry forage such as hay, or when consuming high levels of salt, potassium, and magnesium. Horses drink less water in cool weather or when on lush pasture, which has a higher water content. When under hard work, or if a mare is lactating, water requirements may be as much as four times greater than normal. Though they need a great deal of water, horses spend very little time drinking; usually 1–8 minutes a day, spread out in 2-8 episodes.
Water plays an important part in digestion. The forages and grains horses eat are mixed with saliva in the mouth to make a moist bolus that can be easily swallowed. Therefore, horses produce up to 10 US gallons (38 l) or 85 lb. of saliva per day.
Energy nutrients and protein
Nutritional sources of energy are fat and carbohydrates. Protein is a critical building block for muscles and other tissues. Horses that are heavily exercised, growing, pregnant or lactating need increased energy and protein in their diet. However, if a horse has too much energy in its diet and not enough exercise, it can become too high-spirited and difficult to handle.
Fat exists in low levels in plants and can be added to increase the energy density of the diet. Fat has 9 megacalories (38 MJ) per kilogram of energy, which is 2.25 times that of any carbohydrate source. Because equids have no gall bladder to store large quantities of bile, which flows continuously from the liver directly into the small intestine, fat, though a necessary nutrient, is difficult for them to digest and utilize in large quantities. However, they are able to digest a greater amount of fat than can cattle. Horses benefit from up to 8% fat in their diets, but more does not always provide a visible benefit. Horses can only have 15-20% fat in their diet without the risk of developing diarrhea.
Carbohydrates, the main energy source in most rations, are usually fed in the form of hay, grass, and grain. Soluble carbohydrates such as starches and sugars are readily broken down to glucose in the small intestine and absorbed. Insoluble carbohydrates, such as fiber (cellulose), are not digested by the horse's own enzymes, but are fermented by microbes in the cecum and large colon to break down and release their energy sources, volatile fatty acids.
Soluble carbohydrates are found in nearly every feed source; corn has the highest amount, then barley and oats. Forages normally have only 6-8% soluble carbohydrate, but under certain conditions can have up to 30%. Sudden ingestion of large amounts of starch or high sugar feeds can cause at the least an indigestion colic, and at the worst potentially fatal colitis or laminitis.
Protein is used in all parts of the body, especially muscle, blood, hormones, hooves, and hair cells. The main building blocks of protein are amino acids. Alfalfa and other legumes in hay are good sources of protein that can be easily added to the diet. Most adult horses only require 8-10% protein in their diet; however, higher protein is important for lactating mares and young growing foals.
Vitamins and minerals
Horses that are not subjected to hard work or extreme conditions usually have more than adequate amounts of vitamins in their diet if they are receiving fresh, green, leafy forages. Sometimes a vitamin supplement is needed when feeding low-quality hay, if a horse is under stress (illness, traveling, showing, racing, and so on), or not eating well. Grain has a different balance of nutrients than forage, and so requires specialized supplementation to prevent an imbalance of vitamins and minerals.
Minerals are required for maintenance and function of the skeleton, nerves, and muscles. These include calcium, phosphorus, sodium, potassium, and chloride, and are commonly found in most good-quality feeds. Horses also need trace minerals such as magnesium, selenium, copper, zinc, and iodine. Normally, if adult animals at maintenance levels are consuming fresh hay or are on pasture, they will receive adequate amounts of minerals in their diet, with the exception of sodium chloride (salt), which needs to be provided, preferably free choice. Some pastures are deficient in certain trace minerals, including selenium, zinc, and copper, and in such situations, health problems, including deficiency diseases, may occur if horses' trace mineral intake is not properly supplemented.
Calcium and phosphorus are needed in a specific ratio of between 1:1 and 2:1. Adult horses can tolerate up to a 5:1 ratio, foals no more than 3:1. A total ration with a higher ratio of phosphorus than calcium is to be avoided. Over time, imbalance will ultimately lead to a number of possible bone-related problems such as osteoporosis.
Foals and young growing horses through their first three to four years have special nutritional needs and require feeds that are balanced with a proper calcium:phosphorus ratio and other trace minerals. A number of skeletal problems may occur in young animals with an unbalanced diet. Hard work increases the need for minerals; sweating depletes sodium, potassium, and chloride from the horse’s system. Therefore, supplementation with electrolytes may be required for horses in intense training, especially in hot weather.
Types of feed
Equids can consume approximately 2-2.5% of their body weight in dry feed each day. Therefore, a 1,000 lb (450 kg) adult horse could eat up to 25 lb (11 kg) of food. Foals less than six months of age eat 2-4% of their weight each day.
Solid feeds are placed into three categories: forages (such as hay and grass), concentrates (including grain or pelleted rations), and supplements (such as prepared vitamin or mineral pellets). Equine nutritionists recommend that 50% or more of the animal's diet by weight should be forages. If a horse is working hard and requires more energy, the use of grain is increased and the percentage of forage decreased so that the horse obtains the energy content it needs for the work it is performing. However, forage amount should never go below 1% of the horse's body weight per day.
Forages, also known as "roughage," are plant materials classified as legumes or grasses, found in pastures or in hay. Often, pastures and hayfields will contain a blend of both grasses and legumes. Nutrients available in forage vary greatly with maturity of the grasses, fertilization, management, and environmental conditions. Grasses are tolerant of a wide range of conditions and contain most necessary nutrients. Some commonly used grasses include timothy, brome, fescue, coastal Bermuda, orchard grass, and Kentucky bluegrass. Another type of forage sometimes provided to horses is beet pulp, a byproduct left over from the processing of sugar beets, which is high in energy as well as fiber.
Legumes such as clover or alfalfa are usually higher in protein, calcium, and energy than grasses. However, they require warm weather and good soil to produce the best nutrients. Legume hays are generally higher in protein than the grass hays. They are also higher in minerals, particularly calcium, but have an incorrect ratio of calcium to phosphorus. Because they are high in protein, they are very desirable for growing horses or those subjected to very hard work, but the calcium:phosphorus ratio must be balanced by other feeds to prevent bone abnormalities.
Hay is a dried mixture of grasses and legumes. It is cut in the field and then dried and baled for storage. Hay is most nutritious when it is cut early on, before the seed heads are fully mature and before the stems of the plants become tough and thick. Hay that is very green can be a good indicator of the amount of nutrients in the hay; however, color is not the sole indicator of quality—smell and texture are also important. Hay can be analyzed by many laboratories and that is the most reliable way to tell the nutritional values it contains.
Hay, particularly alfalfa, is sometimes compressed into pellets or cubes. Processed hay can be of more consistent quality and is more convenient to ship and to store. It is also easily obtained in areas that may be suffering localized hay shortages. However, these more concentrated forms can be overfed and horses are somewhat more prone to choke on them. On the other hand, hay pellets and cubes can be soaked until they break apart into a pulp or thick slurry, and in this state are a very useful source of food for horses with tooth problems such as dental disease, tooth loss due to age, or structural anomalies.
Haylage, also known as Round bale silage is a term for grass sealed in airtight plastic bags, a form of forage that is frequently fed in the United Kingdom and continental Europe, but is not often seen in the United States. Because haylage is a type of silage, hay stored in this fashion must remain completely sealed in plastic, as any holes or tears can stop the preservation properties of fermentation and lead to mold or spoilage. Rodents chewing through the plastic can also spoil the hay introducing contamination to the bale. If a rodent dies inside the plastic, the subsequent botulism toxins released can contaminate the entire bale.
Sometimes, straw or chaff is fed to animals. However, this is roughage with little nutritional value other than providing fiber. It is sometimes used as a filler; it can slow down horses who eat their grain too fast, or it can provide additional fiber when the horse must meet most nutritional needs via concentrated feeds. Straw is more often used as a bedding in stalls to absorb wastes.
Whole or crushed grains are the most common form of concentrated feed, sometimes referred to generically as "oats" or "corn" even if those grains are not present, also sometimes called straights in the .
Oats are the most popular grain for horses. Oats have a lower digestible energy value and higher fiber content than most other grains. They form a loose mass in the stomach that is well suited to the equine digestive system. They are also more palatable and digestible than other grains.
Corn (USA), or maize (British English), is the second most palatable grain. It provides twice as much digestible energy as an equal volume of oats and is low in fiber. Because of these characteristics, it is easy to over-feed corn, causing obesity, so horses are seldom fed corn all by itself. Nutritionists caution horse owners that moldy corn is poisonous if fed to horses.
Barley is also fed to horses, but needs to be processed to crack the seed hull and allow easier digestibility. It is frequently fed in combination with oats and corn, a mix informally referred to by the acronym "COB" (for Corn, Oats and Barley).
Wheat is generally not used as a concentrate. However, wheat bran is sometimes added to the diet of a horse for supplemental nutrition, usually moistened and in the form of a bran mash. Wheat bran is high in phosphorus, so must be fed carefully so that it does not cause an imbalance in the Ca:P ratio of a ration. Once touted for a laxative effect, this use of bran is now considered unnecessary, as horses, unlike humans, obtain sufficient fiber in their diets from other sources.
Mixes and Pellets
Many feed manufacturers combine various grains and add additional vitamin and mineral supplements to create a complete premixed feed that is easy for owners to feed and of predictable nutritional quality. Some of these prepared feeds are manufactured in pelleted form, others retain the grains in their original form. In many cases molasses is used as a binder to keep down dust and for increased palatability. Grain mixes with added molasses are usually called "sweet feed" in the United States and "coarse mix" in the United Kingdom. Pelleted or extruded feeds (sometimes referred to as "nuts" in the UK) may be easier to chew and result in less wasted feed. Horses generally eat pellets as easily as grain. However, pellets are also more expensive, and even "complete" rations do not eliminate the necessity for forage.
The average modern horse on good hay or pasture with light work usually does not need supplements; however, horses subjected to stress due to age, intensive athletic work, or reproduction may need additional nutrition. Extra fat and protein are sometimes added to the horse's diet, along with vitamin and mineral supplements. There are hundreds, if not thousands of commercially prepared vitamin and mineral supplements on the market, many tailored to horses with specialized needs.
Soybean meal is a common protein supplement, and averages about 44% crude protein. The protein in soybean meal is high-quality, with the proper ratio of dietary essential amino acids for equids. Cottonseed meal, Linseed meal, and peanut meal are also used, but are not as common.
Vegetable oil is a common fat source added to a ration. Corn oil is particularly popular, but other oils are used as well. Rice bran is a very good fat supplement that contains 20% fat as well as fiber and other nutrients. Flax seed is another good source of fat, though it must be ground up for horses to digest it. Some commercial feed manufacturers now make products containing both flaxseed and rice bran.
Most horses only need quality forage, water, and a salt or mineral block. Grain or other concentrates are often not necessary. But, when grain or other concentrates are fed, quantities must be carefully monitored. To do so, horse feed is measured by weight, not volume. For example, 1 lb (0.45 kg) of oats has a different volume than 1 lb (0.45 kg) of corn. When continuous access to feed is not possible, it is more consistent with natural feeding behavior to provide three small feedings per day instead of one or two large ones. However, even two daily feedings is preferable to only one. To gauge the amount to feed, a weight tape can be used to provide a reasonably accurate estimate of a horse's weight. The tape measures the circumference of the horse's barrel, just behind the withers and elbows, and the tape is calibrated to convert circumference into approximate weight.
Actual amounts fed vary by the size of the horse, the age of the horse, the climate, and the work to which the animal is put. In addition, genetic factors play a role. Some animals are naturally easy keepers (good doers), which means that they can thrive on small amounts of food and are prone to obesity and other health problems if overfed. Others are hard keepers (poor doers), meaning that they are prone to be thin and require considerably more food to maintain a healthy weight.
Veterinarians are usually a good source for recommendations on appropriate types and amounts of feed for a specific horse. Animal nutritionists are also trained in how to develop equine rations and make recommendations. There are also numerous books written on the topic. Feed manufacturers usually offer very specific guidelines for how to select and properly feed products from their company, and in the United States, the local office of the Cooperative Extension Service can provide educational materials and expert recommendations.
Equids always require forage. When possible, nutritionists recommend it be available at all times, at least when doing so does not overfeed the animal and lead to obesity. It is safe to feed a ration that is 100% forage (along with water and supplemental salt), and any feed ration should be at least 50% forage. Hay with alfalfa or other legumes has more concentrated nutrition and so is fed in smaller amounts than grass hay, though many hays have a mixture of both types of plant.
When beet pulp is fed, a ration of 2 lb (0.91 kg) to 5 lb (2.3 kg) is usually soaked in water for 3 to 4 hours prior to feeding in order to make it more palatable, and to minimize the risk of choke and other problems. It is usually soaked in a proportion of one part beet pulp to two parts water. Beet pulp is usually fed in addition to hay, but occasionally is a replacement for hay when fed to very old horses who can no longer chew properly. It is available in both pelleted and shredded form, pellets must be soaked significantly longer than shredded beet pulp.
Some pelleted rations are designed to be a "complete" feed that contains both hay and grain, meeting all the horse's nutritional needs. However, even these rations should have some hay or pasture provided, a minimum of a half-pound of forage for every 100 lb (45 kg) of horse, in order to keep the digestive system functioning properly and to meet the horse's urge to graze.
When horses graze under natural conditions, they may spend up to 18 hours per day doing so. However, on modern irrigated pastures, they may have their nutritional needs for forage met in as little as three hours per day, depending on the quality of grass available.
Recent studies address the level of various non-structural carbohydrates (NSC), such as fructan, in forages. Too high an NSC level causes difficulties for animals prone to laminitis or equine polysaccharide storage myopathy (EPSM). NSC cannot be determined by looking at forage, but hay and pasture grasses can be tested for NSC levels.
Concentrates, when fed, are recommended to be provided in quantities no greater than 1% of a horse's body weight per day, and preferably in two or more feedings. If a ration needs to contain a higher percent of concentrates, such as that of a race horse, bulky grains such as oats should be used as much as possible; a loose mass of feed helps prevent impaction colic. Peptic ulcers are linked to a too-high concentration of grain in the diet, particularly noticed in modern racehorses, where some studies show such ulcers affecting up to 90% of all race horses.
In general, the portion of the ration that should be grain or other concentrated feed is 0-10% grain for mature idle horses; between 20-70% for horses at work, depending on age, intensity of activity, and energy requirements. Concentrates should not be fed to horses within one hour before or after a heavy workout. Concentrates also need to be adjusted to level of performance. Not only can excess grain and inadequate exercise lead to behavior problems, it may also trigger serious health problems that include Equine Exertional Rhabdomyolysis, or "tying up," in horses prone to the condition. Another possible risk are various forms of horse colic. A relatively uncommon, but usually fatal concern is colitis-X, which may be triggered by excess protein and lack of forage in the diet that allows for the multiplication of clostridial organisms, and is exacerbated by stress.
Access to water
Horses normally require free access to all the fresh, clean water they want, and to avoid dehydration, should not be kept from water longer than four hours at any one time. However, water may need to be temporarily limited in quantity when a horse is very hot after a heavy workout. As long as a hot horse continues to work, it can drink its fill at periodic intervals, provided that common sense is used and that an overheated horse is not forced to drink from extremely cold water sources. But when the workout is over, a horse needs to be cooled out and walked for 30–90 minutes before it can be allowed all the water it wants at one time. However, dehydration is also a concern, so some water needs to be offered during the cooling off process. A hot horse will properly rehydrate while cooling off if offered a few swallows of water every three to five minutes while being walked. Sometimes the thirst mechanism does not immediately kick in following a heavy workout, which is another reason to offer periodic refills of water throughout the cooling down period.
Even a slightly dehydrated horse is at higher risk of developing impaction colic. Additionally, dehydration can lead to weight loss because the horse cannot produce adequate amounts of saliva, thus decreasing the amount of feed and dry forage consumed. Thus, it is especially important for horse owners to encourage their horses to drink when there is a risk of dehydration; when horses are losing a great deal of water in hot weather due to strenuous work, or in cold weather due to horses' natural tendency to drink less when in a cold environment. To encourage drinking, owners may add electrolytes to the feed, additives to make the water especially palatable (such as apple juice), or, when it is cold, to warm the water so that it is not at a near-freezing temperature.
Special feeding issues for Ponies
Ponies and miniature horses are usually easy keepers and need less feed than full-sized horses. This is not only because they are smaller, but also, because they evolved under harsher living conditions than horses, they use feed more efficiently. Ponies easily become obese from overfeeding and therefore are at high risk for colic, Equine Metabolic Syndrome, and, especially, laminitis. Fresh grass is a particular danger to ponies; they can develop laminitis in as little as one hour of grazing on lush pasture.
It is important to track the weight of a pony carefully, by use of a weight tape. Forages may be fed based on weight, at a rate of about 1 lb (0.45 kg) of forage for every 100 lb (45 kg). Forage, along with water and a salt and mineral block, is all most ponies require. If a hard-working pony needs concentrates, a ratio of no more than 30% concentrates to 70% forage is recommended. Concentrates designed for horses, with added vitamins and minerals, will often provide insufficient nutrients at the small serving sizes needed for ponies. Therefore, if a pony requires concentrates, feed and supplements designed specially for ponies should be used. In the UK, extruded pellets designed for ponies are sometimes called "pony nuts.".
Special feeding issues for mules and donkeys
Like ponies, mules and donkeys are also very hardy and generally need less concentrated feed than horses. Mules need less protein than horses and do best on grass hay with a vitamin and mineral supplement. If mules are fed concentrates, they only need about half of what a horse requires. Like horses, mules require fresh, clean water, but are less likely to over-drink when hot.
Donkeys, like mules, need less protein and more fiber than horses. They do best when allowed to consume small amounts of food over long periods, as is natural for them in an arid climate. They can meet their nutritional needs on 6 to 7 hours of grazing per day on average dryland pasture that is not stressed by drought. If they are worked long hours or do not have access to pasture, they require hay or a similar dried forage, with no more than a 1:4 ratio of legumes to grass. They also require salt and mineral supplements, and access to clean, fresh water. Like ponies and mules, in a lush climate, donkeys are prone to obesity and are at risk of laminitis.
Many people like to feed horses special treats such as carrots, sugar cubes, peppermint candies, or specially manufactured horse "cookies." Horses do not need treats, and due to the risk of colic or choke, many horse owners do not allow their horses to be given treats. There are also behavioral issues that some horses may develop if given too many treats, particularly a tendency to bite if hand-fed, and for this reason many horse trainers and riding instructors discourage the practice.
However, if treats are allowed, carrots and compressed hay pellets are common, nutritious, and generally not harmful. Apples are also acceptable, though it is best if they are first cut into slices. Horse "cookies" are often specially manufactured out of ordinary grains and some added molasses. They generally will not cause nutritional problems when fed in small quantities. However, many types of human foods are potentially dangerous to a horse and should not be fed. This includes bread products, meat products, candy, and carbonated or alcoholic beverages.
It was once a common practice to give horses a weekly bran mash of wheat bran mixed with warm water and other ingredients. It is still done regularly in some places. While a warm, soft meal is a treat many horses enjoy, and was once considered helpful for its laxative effect, it is not nutritionally necessary. An old horse with poor teeth may benefit from food softened in water, a mash may help provide extra hydration, and a warm meal may be comforting in cold weather, but horses have far more fiber in their regular diet than do humans, and so any assistance from bran is unnecessary. There is also a risk that too much wheat bran may provide excessive phosphorus, unbalancing the diet, and a feed of unusual contents fed only once a week could trigger a bout of colic.
All hay and concentrated feeds must be kept dry and free of mold, rodent feces, and other types of contamination that may cause illness in horses. Feed kept outside or otherwise exposed to moisture can develop mold quite quickly. Due to fire hazards, hay is often stored under an open shed or under a tarp, rather than inside a horse barn itself, but should be kept under some kind of cover. Concentrates take up less storage space, are less of a fire hazard, and are usually kept in a barn or enclosed shed. A secure door or latched gate between the animals and any feed storage area is critical. Horses accidentally getting into stored feed and eating too much at one time is a common but preventable way that horses develop colic or laminitis. (see <a href="#Illnesses_related_to_improper_feeding" title="">Illnesses related to improper feeding</a> below)
It is also important to never give a horse feed that was contaminated by the remains of a dead animal. This is a potential source of botulism. This is not an uncommon situation. For example, mice and birds can get into poorly stored grain and be trapped; hay bales sometimes accidentally contain snakes, mice, or other small animals that were caught in the baling machinery during the harvesting process.
Horses can become anxious or stressed if there are long periods of time between meals. They also do best when they are fed on a regular schedule; they are creatures of habit and easily upset by changes in routine. When horses are in a herd, their behavior is hierarchical; the higher-ranked animals in the herd eat and drink first. Low-status animals, who eat last, may not get enough food, and if there is little available feed, higher-ranking horses may keep lower-ranking ones from eating at all. Therefore, unless a herd is on pasture that meets the nutritional needs of all individuals, it is important to either feed horses separately, or spread feed out in separate areas to be sure all animals get roughly equal amounts of food to eat. In some situations where horses are kept together, they may still be placed into separate herds, depending on nutritional needs; overweight horses are kept separate from thin horses so that rations may be adjusted accordingly. Horses may also eat in undesirable ways, such as bolting their feed, or eating too fast. This can lead to either choke or colic under some circumstances.
Horses' teeth continually erupt throughout their life, are worn down as they eat, and can develop uneven wear patterns that can interfere with chewing. For this reason, horses need a dental examination at least once a year, and particular care must be paid to the dental needs of older horses. The process of grinding off uneven wear patterns on a horse's teeth is called floating and can be performed by a veterinarian or a specialist in equine dentistry.
Colic, choke, and laminitis can be life-threatening when a horse is severely affected, and veterinary care is necessary to properly treat these conditions. Other conditions, while not life-threatening, may have serious implications for the long-term health and soundness of a horse.
Horse colic itself is not a disease, but rather a description of symptoms connected to abdominal pain. It can occur due to any number of digestive upsets, from mild bloating due to excess intestinal gas to life-threatening impactions. Colic is most often caused by a change in diet, either a planned change that takes place too quickly, or an accidental change, such as a horse getting out of its barn or paddock and ingesting unfamiliar plants. But colic has many other possible triggers including insufficient water, an irregular feeding schedule, stress, and illness. Because the horse cannot vomit and has a limited capacity to detoxify harmful substances, anything upsetting to the horse must travel all the way through the digestive system to be expelled.
Choke is not as common as colic, but is nonetheless commonly considered a veterinary emergency. The most common cause of choke is horses not chewing their food thoroughly, usually because of eating their food too quickly, especially if they do not have sufficient access to water, but also sometimes due to dental problems that make chewing painful. It is exceedingly difficult for a horse to expel anything from the esophagus, and immediate treatment is often required. Unlike choking in humans, choke in horses does not cut off respiration.
Horses are also susceptible to laminitis, a disease of the lamina of the hoof. Laminitis has many causes, but the most common is related to a sugar and starch overload from a horse overeating certain types of food, particularly too much pasture grass high in fructan in early spring and late fall, or by consuming excessive quantities of grain.
Young horses that are overfed or are fed a diet with an improper calcium:phosphorus ratio over time may develop a number of growth and orthopedic disorders, including osteochondrosis (OCD), angular limb deformities (ALD), and several conditions grouped under the popular term "contracted tendons." If not properly treated, damage can be permanent. However, they can be treated if caught in time, given proper veterinary care, and any improper feeding practices are corrected. Young horses being fed for rapid growth in order to be shown or sold as yearlings are at particularly high risk. Adult horses with an improper diet may also develop a range of metabolic problems.
Moldy or dusty hay fed to horses is the most common cause of Recurrent airway obstruction, also known as COPD or "heaves." This is a chronic condition of horses involving an allergic bronchitis characterized by wheezing, coughing, and labored breathing.
Equine Exertional Rhabdomyolysis, also known as "tying up" or azoturia, is a condition to which only some horses are susceptible and most cases are linked to a genetic mutation. In horses prone to the condition, it usually occurs when a day of rest on full grain ration is followed by work the next day. This pattern of clinical signs led to the archaic nickname, "Monday morning sickness." The condition may also be related to elecrolyte imbalance. Proper diet management may help minimize the risk of an attack.
- Easy keeper (US) Good doer (UK)
- Hard keeper (US) Poor doer (UK)
Footnotes and other references
- ↑ 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 Williams, Carey A.,Ph.D., Extension Specialist. "The Basics of Equine Nutrition" from FS #038, Equine Science Center, Rutgers University, Revised: April 2004. Web site accessed February 9, 2007
- ↑ "Horse Nutrition - Frequency." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Giffen, James M. and Tom Gore. Horse Owner’s Veterinary Handbook., 2nd ed. New York:Howell Book House, 1989, 1998. ISBN 0876056060
- ↑ "Colic in Horses" ASC-128, Cooperative Extension Service, University of Kentucky, College of Agriculture, Equine Section, Department of Animal Sciences. web site accessed March 14, 2007
- ↑ 5.0 5.1 5.2 5.3 5.4 March, Linda. "Feeding Your Horse To Avoid Problems," from University of Illinois, College of Veterinary Medicine. Web site accessed February 16, 2007
- ↑ 6.0 6.1 A. Cirelli, Jr. and B. Cloud. "Suburban Horse Keeping." (PDF) Fact Sheet: 94-09, Cooperative Extension Service, University of Nevada, Reno. Web site accessed July 4, 2009.
- ↑ 7.0 7.1 7.2 7.3 7.4 7.5 7.6 7.7 "Horse Nutrition - Carbohydrates and fats." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ 8.0 8.1 Karen Spivey and Jackie Nix. "Haylage" North Carolina Cooperative Extension Service. Web site accessed July 4, 2009.
- ↑ Budiansky, Stephen. The Nature of Horses. Free Press, 1997. ISBN 0-684-82768-9
- ↑ 10.0 10.1 10.2 10.3 10.4 10.5 10.6 "Horse Nutrition - The Horse's Digestive System." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ "Digestive Aids: Does Your Horse Need Them?." Equine Review Accessed July 4, 2009.
- ↑ 12.0 12.1 12.2 12.3 12.4 12.5 12.6 Russell, Mark A. and Penny M. Bauer. "Nutritional Management for Horses" Publication AS-429, Purdue University Cooperative Extension. Web site accessed March 13, 2007
- ↑ 13.0 13.1 13.2 13.3 13.4 Kane, Ed. "What's new about water." Equus issue 359, August 2007, pp 61-64.
- ↑ 14.0 14.1 "Horse Nutrition - Diet Factors - Water." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ 15.0 15.1 15.2 "Horse Nutrition - Protein." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ 16.0 16.1 16.2 16.3 16.4 16.5 16.6 16.7 Warren, Lori K. "Horse Feeding Myths and Misconceptions" Horse Industry Section, Alberta Agriculture, Food and Rural Development Web site accessed February 16, 2007
- ↑ 17.0 17.1 17.2 17.3 Mowrey, Robert A. "Horse Feeding Management - High-Fat Diets for Horses". from North Carolina Cooperative Extension Center, web site accessed February 14, 2007
- ↑ "Digestive System 2", web site accessed February 14, 2007
- ↑ 19.0 19.1 19.2 "Applying Horse Sense to Horse Nutrition" Alliance Nutrition Equine. Web site accessed February 14, 2007
- ↑ 20.0 20.1 20.2 "Horse Nutrition - Minerals." Bulletin 762-00, Ohio State University. Web site accessed February 14, 2007.
- ↑ 21.0 21.1 Harper, Frederick. "Spring Pasture for your Horses." (PDF) AS-H 147, University of Tennessee Extension Service. Web page accessed July 4, 2009.
- ↑ see also, e.g. Frederick, Howard. "Selenium Deficiency" AzVDL Newsletter, Vol. 2, number 2, June, 1997. Page accessed July 25, 2008
Harper, Frederick and Bruce Gill. "Minerals for Horses, Part II: Trace Minerals" (PDF) Horse Express, Vol. 25, No. 1 January, February, March 2006, page accessed July 4, 2009.
- ↑ Watts, Kathryn. "Are you feeding your horse like a cow? Horse Mineral deficiency can create health problems" Rocky Mountain Research & Consulting, Inc. web page accessed July 25, 2008.
- ↑ Huntington, Peter, Jane Myers, and Elizabeth Owens. Horse Sense: The Guide to Horse Care in Australia and New Zealand, 2nd ed. Landlinks Press, 200. ISBN 0643065989 p. 126
- ↑ 25.0 25.1 25.2 25.3 25.4 25.5 Hall, Marvin H. and Particia M. Comerford. "Pasture and Hay for Horses - Argonomy facts 32," 1992 University of Pennsylvania, Cooperative Extension Service. Web site accessed February 14, 2007.
- ↑ 26.0 26.1 26.2 26.3 "Horse Nutrition - Feeding factors." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- ↑ "Horse Nutrition - Hay quality." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007
- ↑ 28.0 28.1 28.2 Pony Care:Feeding the pony/horse. Web site, accessed March 13, 2007
- ↑ 29.0 29.1 Mackay, Bruce. "Practical feeding of horses" PRIMEFACT 425 September, 2007, New South Wales, Department of Primary Industries. Web site accessed July 25, 2008
- ↑ "Chaff or no Chaff?" Hygain news, web site accessed July 4, 2009.
- ↑ 31.0 31.1 Briggs, Karen. "Pelleted Feeds: Packaged Nutrition." The Horse, October 1, 1997
- ↑ "The Advantages of Rice Bran" Horses and Horse Information.com web site accessed March 13, 2007
- ↑ Christie, Sarah. "Horse Nutrition - Balancing Your Horse's Diet to Achieve an Ideal Weight." Horse Illustrated, May 2006
- ↑ Blikslager, Anthony. "Avoiding Colic Through Management." The Horse July 2008: 47-54.
- ↑ Watts, Kathryn. "Finding and Testing Low-Sugar Forage," The Horse Web site, accessed May 16, 2007.
- ↑ 36.0 36.1 Depew, Clint. "Proper Nutrition," LSUAgCenter. Web site accessed March 13, 2007
- ↑ http://www.omafra.gov.on.ca/english/livestock/horses/facts/info_gastric.htm Gastric Ulcers in the Adult Horse
- ↑ Schiefer, H. B. (1981 May). "Equine Colitis “X”, Still an Enigma?". Can Vet J. 22 (22(5)): 162–165. PMID 6265055. PMC 1790040. http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1790040.
- ↑ "Waiting for Water," from column, "Ask Horse Journal." Horse Journal, August, 2007, p. 23
- ↑ 40.0 40.1 40.2 "Don’t Over Feed Your Pony: Ponies Need Smaller Portions than Horses for Proper Nutrition," Horses and Horse Information. Web site, accessed March 13, 2007
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- ↑ 42.0 42.1 Fuess, Theresa, PhD. "What Is a Mule Made Of?", University of Illinois, College of Veterinary Medicine. Web site accessed July 4, 2009.
- ↑ "Horses, donkeys and mules:Feed and water for equines." FAO Corporate Document Repository. Web site, accessed March 13, 2007
- ↑ Aganga, A.A., et al. "Feeding donkeys" Livestock Research for Rural Development 12 (2) 2000. Department of Animal Science and Production, Botswana College of Agriculture. Web site accessed July 4, 2009.
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- ↑ "The Debate Over Treats." Equus no. 345, June 2006, p. 42
- ↑ Heusner, Gary. "Horse Feed Quality and Contamination" (PDF) Web site accessed July 4, 2009.
- ↑ Williams, Carey A.Ph.D., Extension Specialist. "The Basics of Equine Behavior," FS #525 from Equine Science Center, Rutgers University, 2004. Web site accessed February 14, 2007
- ↑ Reynolds, Judith A, Ph.D., P.A.S. "The 'Old Horse' Dilemma," ADM Alliance Nutrition. Web site accessed February 14, 2007
- ↑ Brady. C.M., K.S. Kanne, and M.A. Russell. "Introduction to Horse Health," AS-555-W, Purdue University Cooperative Extension Service, 10/02 Web site accessed February 16, 2007.
- ↑ Douglas, Janet. "The Colic Fact Sheet." Web site, accessed March 13, 2007
- ↑ "Colic in Horses" Cooperative Extension Service, University of Kentucky, College of Agriculture. Web site accessed March 13, 2007
- ↑ Franklin, Frosty, DVM. "Veterinary Corner 06/00: Esophageal Obstruction" Web site, accessed March 13, 2007
- ↑ Safergrass.org web site, accessed February 26, 2007
- ↑ Loving, Nancy. "Limb Deformities: Congenital or Acquired?" The Horse, Online edition, July 1, 2003. Web page accessed March 3, 2008.
- ↑ Rammerstorfer, Christian, PHD, PAS, Oregon State University. "Feeding Foals." published by Cherokee Animal Clinic. Web site, accessed March 13, 2007
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- ↑ Hoffman, R.M., et al. "Hydrolyzable carbohydrates in pasture, hay, and horse feeds: Direct assay and seasonal variation" J. Anim. Sci. 2001. 79:500–506
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- ↑ "Groundbreaking Test for EPSM." Horse Journal, vol/ 15, number 4, April 2008
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- "Horse Nutrition - Table of Contents." Bulletin 762-00, Ohio State University. Web site accessed February 9, 2007.
- Mowrey, Robert A. "Horse Feeding Management - Nutrient Requirements for Horses." from North Carolina Cooperative Extension Center (PDF) Web site accessed July 4, 2009.