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When a horse is too thin, what is the best way to help him gain weight?  The answer may not be the same in every situation so we need more information to make a good recommendation.  First, we need to know if the horse truly does need to gain weight.  Horse owners can disagree about the ideal weight or body condition for their horses and what one person thinks is too thin may be just right to another person.  To eliminate opinions from the equation, we need to be working from an objective position of body condition score (BCS).  The BCS establishes a score from 1 – 9 for how fat or thin a horse is; a score of 1 is a severely starved horse and a score of 9 is an extremely obese horse.  With very few exceptions, horses should be maintained in a moderate body condition score of 5 – 6.  Horses in this range will have no visible ribs showing but the ribs will be easy to feel.  Essentially, if you can see ribs showing, the horse is too thin and if you can’t find their ribs the horse is too fat.  A complete description of the scoring system can be found at horse.purinamills.com.

If we’ve established that the horse indeed is too thin and needs to gain weight, we now need to determine why the horse is underweight.  We need to ask questions:

1.     Is the horse being fed enough calories to support the lifestyle?

a.     Is he getting enough feed or a high enough quality feed to support his lifestyle (age and activity level)?

b.     Is he being fed enough hay or pasture, or is the quality of hay or pasture poor?

2.     Has the horse been effectively dewormed to control internal parasites?

a.     Resistant worms are becoming a more frequent problem and deworming programs that have worked for years may not be doing the job in some horses now.

3.     Is there a health issue preventing the horse from properly utilizing feed or that is causing nutrient requirements above normal levels?

a.     Are there dental problems due to age or inadequate dental care causing compromised chewing?  Are the dental problems such that the horse can’t or won’t eat enough hay or pasture or drops a large amount of feed when eating.

b.     Does the horse possibly have gastric ulcers, colonic ulcers or other inflammation of the digestive tract that is causing a decline in digestion or intake of feed and hay?

c.     Is there some intestinal issue preventing proper digestion and absorption of nutrients from the diet?

Answering the first question is fairly simple and straight forward and is the easiest situation to correct.  Evaluate the current diet and make appropriate adjustments to improve the amount and level of nutrition being offered.  Weigh the feed and hay being fed with a scale to determine actual pounds per day the horse is eating.  Compare with feeding directions on the feed tag and determine if the amount being fed is adequate for the situation.  Horses should be eating a minimum of 1.0 pounds of hay per 100 pounds of body weight (10 pounds of hay for a 1000 pound horse).  Horses will very often not eat all of their hay when the hay quality is poor, so be sure to weigh the amount horses are actually eating, not just what may be offered.  If the hay quality is low or the horse isn’t eating at least the minimum amount, an alternative hay source needs to be located or be replaced with a bagged complete feed/hay stretcher that includes adequate fiber to replace hay.  If the horse is out on pasture, the pasture needs to be evaluated to determine if it is truly grazing, providing nutrition, or is it just a place to hang out and nibble around.  Pastures can have a green color to them but be weeds or poor quality grasses and not provide adequate nutrition to sustain horses in good shape. Pasture quality and nutritional values vary significantly depending on fertilization and many other pasture management and weather-related factors.  On average, due to the higher water content of pasture, horses must eat 30 – 40 lbs of fresh pasture to equal the dry matter intake of 10 lbs of hay.  Pastures generally should be at least 3 – 4 inches tall to provide sufficient grazing to supply adequate fiber and nutrition.

An average 1100 pound horse at maintenance requires 16,700 calories per day.  This can be achieved by something as simple as 15 – 20 pounds of hay and 1 – 2 pounds of Purina® Nature’s Essentials Enrich 32®.  As the level of activity or individual metabolism of the horse increases, it becomes necessary to choose a feed that will provide adequate calories when fed with the available hay or pasture that will maintain good condition.  Moving a horse from a body condition score of 4 to a 5 represents around 45 – 50 pounds of weight gain.  Horses can realistically gain 0.5 – 1.0 pound per day and that requires from 3,000 – 6,000 calories above the amount required for maintenance.  To determine how much feed that takes requires that you know the calories per pound in the feeds.  For example this requires roughly an additional 2 – 4 pounds of Purina® Strategy GX® or Omolene 200® or 1.5 – 3.0 pounds of Purina® Ultium Competition Formula®.  It would take 2.75 – 5.5 pounds of whole oats to support similar weight gain.

If  a horse is being fed properly and is still not in good condition a veterinarian should be consulted to help answer questions 2 and 3.  Simply increasing the amount fed or even changing feeds will very likely not address these issues.

Source: Karen E. Davison, Ph.D., Equine Nutrition Specialist, Southwest Market, Land O’Lakes Purina Feed

Water is the main component of the body. In fact, an average 1000 pound horse is roughly 660 pounds (80 gallons) of water. About two-thirds of this water is inside cells, called intracellular fluid, and one-third is outside cells or extracellular fluid. To function normally, the body must keep the amount of water in these areas in balance and relatively constant. This is termed water balance. The water in the body contains dissolved mineral salts called electrolytes, primarily sodium, chloride, potassium, calcium and magnesium. These dissolved electrolytes exist as ions, which are charged particles that conduct electric currents, thus the name electrolytes. Electrolytes are used to maintain voltages across cell membranes, and are distributed through the body in a highly ordered way. Any disruption of this order can result in severe body dysfunction, including heart and gastrointestinal problems, muscle cramps and impaired brain and nerve function. Sodium and chloride concentrations are normally higher in extracellular fluid, while potassium concentration is higher in intracellular fluid. Electrolyte balance is tied very closely with water balance.

Water and electrolytes are excreted from the body primarily through sweat, urine and fecal output. The body attempts to maintain a balance between dietary intake of electrolytes and excretion rates. Kidneys adjust the volume and concentration of urine based on the water and electrolyte balance in the body through an intricate hormone signaling system. Electrolytes are not stored in the body, so the amount needed daily must be provided in the diet. If dietary electrolyte level is lower than needed, the kidneys will conserve and reabsorb electrolytes. If dietary electrolyte supply is more than needed, the kidneys will flush any excess. This very complex mechanism keeps water and electrolyte balance tightly regulated under normal circumstances. However, when the relationship between intake and output is challenged, normal mechanisms may not maintain the balance. Hard work, especially in hot and humid conditions will challenge normal water and electrolyte balance mechanisms. Under these conditions, horses can lose as much as four gallons of sweat per hour, which carries with it approximately 10 tablespoons of electrolytes – primarily sodium, chloride and potassium. Human sweat is hypotonic, meaning the concentration of electrolytes in the sweat is lower than the concentration in the blood. As people sweat, sodium concentration in the blood rises. This triggers the thirst response causing the person to want something to drink. Horse sweat is hypertonic, the concentration of electrolytes in the sweat is higher than the concentration in the blood. As the horse sweats, sodium concentration in the blood remains unchanged even though large amounts of sodium are being lost in the sweat. Without the rise in blood concentration of sodium, the thirst response doesn’t kick in. This is why dehydrated horses often show no interest in drinking, which simply makes the situation worse.

Hay and pasture contain high levels of potassium and a normal diet will provide adequate potassium to meet requirements of most horses. Usually, only hard working horses that sweat for prolonged periods need additional potassium supplementation. Most commercial horse feeds contain 0.5 – 1.0% added salt (sodium chloride) which, along with free-choice access to a salt block, will supply adequate sodium and chloride to meet requirements of horses in light activity. Horses being ridden regularly and sweating moderately on a daily basis cannot eat enough salt from a salt block to meet their needs. Providing 2 – 4 tablespoons of loose salt daily in the feed will meet the increased requirements. For horses that are sweating profusely, a mixture of ⅔ sodium chloride and ⅓ potassium chloride (Lite salt), would provide adequate sodium, chloride and potassium to replenish the higher losses. Commercial electrolyte supplements are also available, but should contain sodium chloride as the primary ingredient.

Providing daily electrolyte supplementation beyond what a horse needs to maintain balance can be very counterproductive. The kidneys will become very efficient at flushing the excess electrolytes out of the system and then on a day the horse really needs a higher level, they won’t be available. The current recommendation for electrolyte supplementation is to provide additional electrolytes the day before, the day of and the day after a horse is going to work very hard and sweat a great deal. It is also very important that electrolytes are only given to well hydrated horses. Since you can lead a horse to water but you can’t make him drink, dehydrated horses should receive fluids intravenously to be sure water balance is adequately restored.

By Karen E. Davison, Ph.D., Manager – Technical Services, Purina Mills, LLC

Tags: equine health, horse, horse health, horses and water

This entry was posted on Wednesday, August 4th, 2010 at 6:59 pm and is filed under News & Articles, News & Updates. You can follow any responses to this entry through the RSS 2.0 feed. Both comments and pings are currently closed.

Now that the weather has finally warmed up, horse owners are starting to spend more time with their horses, and are looking forward to even more enjoyable riding weather. There are some nutritional concerns, however, during this season, and some management issues we should address to ensure the health and performance of our horses.

First, as we start working our horses more, we must increase the plane of nutrition to ensure that the horse’s increased requirements are met. Energy is possibly the most important nutrient to consider in a working horse. As a horse works harder, its energy (calorie) requirement increases, and we must supply those additional calories in a form that will not compromise the horse’s digestive health. We can add more calories by increasing the amount of grain in the ration, but grain is high in starch, and too much starch (and other soluble carbohydrates) may lead to digestive disturbances such as colic and/or laminitis. Safer energy sources include fat and fermentable fibers.
Feeds such as Purina’s Ultium® Competition, Strategy® Professional Formula GX, and Omolene #500® Horse Feed are higher in fat and fermentable fibers, and lower in starch than traditional sweet feeds, therefore are excellent feeds to increase the calories in a working horse’s diet. Omolene #200® Horse Feed is another excellent feed for these situations, as more of the calories are supplied by fat, and less by starch. These performance feeds also contain the amino acids, vitamins and minerals to support the increased demands of the performance horse. Keep in mind that all feeding changes must be made gradually, so it is important to gradually increase the amount of feed as the horse’s work load increases.

If you are not planning to ride your horse hard, however, or your horse is naturally an easy keeper, a concentrated feed such as Nature’s Essentials® Enrich 32® Supplement may be the best way to meet the horse’s nutritional needs without adding many calories. If your horse stays in good body condition (not too fat or too thin) on just hay or pasture, feeding one to two pounds of Nature’s Essentials® Enrich 32® or Enrich 12® Supplement will provide the protein, vitamins and minerals that the horse needs to stay healthy.

Next, we need to keep in mind that the forage portion of the horse’s diet may be changing, and we must be aware that some of these changes may be problematic for some horses. For some horses, the advent of spring means that the source of forage changes from hay to fresh grass. If this is the case, the horse owner should take care to minimize the risk of laminitis as horses are exposed to fresh pastures.

Why can fresh grass cause laminitis in horses? During the process of photosynthesis, plants manufacture sugars that are either used for metabolic processes such as growth, or are stored as polysaccharides such as starch or fructan. The storage form of the sugars depends on the plant species. In certain situations, such as the warm sunny days and chilly nights that we see in the spring and the fall, the plants use fewer sugars for growth, and therefore store more as polysaccharides. This can cause problems for horses, especially when the sugars are stored as fructan, because fructan does not appear to be digested in the horse’s upper gut (where starch is digested and absorbed), but instead passes into the hindgut where it is fermented by the microbes. It is this fermentation of fructan that appears to be a trigger factor for colic and/or laminitis, similar to a grain overload in horses. The fermentation of fiber carbohydrates in the hindgut is normal, and does not cause digestive disorders in the horse.

Other environmental conditions that can affect the amount of polysaccharide storage in plants include drought stress, duration and intensity of sunlight, salinity (salt content) of soil, and overall health of the plant. Again, some species of grass, including cool season grasses, tend to store sugars as fructan, while others, the warm season grasses, tend to store sugars as starch and are less likely to cause problems.

How then do we manage pastures to minimize the risk of laminitis? Horses that are kept on pasture year-round usually adjust to the new grass as it grows. Nature does a fairly good job of making the pasture change gradually.  The problems usually occur when horses have been confined and fed a hay and grain diet during the winter, and are then abruptly turned out on the lush green pasture in the spring. Further, horses that have been kept up through the winter may overeat when turned out because of the palatability of the lush green foliage. This sudden change in the diet, especially when it includes a rapid influx of the unfamiliar fructan into the hindgut, may trigger digestive upset.
There are several ways to prevent or minimize problems when introducing horses to spring pastures. Feeding hay immediately before turn-out may help keep horses from overeating, since they are less likely to overeat on an already full stomach. Restricting grazing time will also help minimize risks. A suggested schedule is: thirty minutes of grazing once or twice a day on the first day of grazing; then increase grazing time by 5-10 minutes per day until the horses are grazing 4-6 hours per day total. At this point, they have adapted to the green grass.

One final consideration when getting back into the saddle is the condition of the horse. On that first warm sunny day, it is very tempting to head out to the barn for a nice, long trail ride to enjoy the great weather. However, if you have not been riding your horse regularly through the winter, your horse is not conditioned for that type of physical activity (and possibly neither are you!). To prevent muscle soreness, and possibly “tying-up”, horses should be gradually reintroduced to work. Start with slow, easy work and short workouts, and gradually increase the intensity and duration of the workouts until your horse is adequately conditioned. This will help decrease the risk of problems and injuries in your horse. It may take up to 90 days to get a horse properly conditioned for strenuous physical workouts.

Once your horse’s nutritional and management considerations are addressed, and your horse is adequately conditioned for the desired workload, you are ready to head out and enjoy the season!

Source: By Dr. Katie Young, Consulting Equine Nutritionist, Purina Mills, LLC

When a mare foals, her daily nutrient requirements increase significantly, nearly double that of early gestation. These nutrient needs must be met for the mare to recover from foaling stress, produce milk, and rebreed without losing body condition. Underfeeding mares during early lactation will result in lower milk production and weight loss. Early lactation weight loss, especially in mares that foal in thin condition, will likely affect the mare’s ability to raise her new foal and become pregnant again. Mares produce an average of 24 pounds (3 gallons) of milk daily during a 5-month lactation period. This represents 450 gallons or 1 3/4 tons of milk over 150 days. High producing mares yield as much as 32 pounds (4 gallons) of milk daily. Production appears to peak at 30 days and then slowly decline. Nutrient content of mares’ milk follows a more drastic downward curve. In the fourth month of lactation, a mare’s milk provides less than 30 percent of the total energy needed by her foal. Providing lactating mares with a feed such as Purina Omolene 200 or Strategy that includes added fats or oils and high quality protein can help slow the downward curve of production and improve nutrient content of the milk. This will translate into an early growth advantage for the nursing foal.In the fourth, fifth and sixth months of lactation, daily nutrient requirements of mares begin to decrease along with declining milk production, but nutrient requirements of the foals are increasing. Foals should have had access to a properly balanced foal feed, at the rate of one pound per month of age per day, beginning within a few days of foaling. Once the foal is 4 months old, it is more nutritionally accurate for the foal and more economical for the horseman to feed the foal a quality diet to meet his needs than it is to feed the mare to produce milk. Once the foal is weaned, the dry, pregnant mare can be managed as an early gestating mare once again. Through proper health care, feeding management and breeding techniques, the mare can produce a strong, healthy foal each year.

Source: http://www.aaep.org/health_articles_view.php?print_friendly=true&id=119

In the past several years, multiple sources have recommended yeast products for inclusion in equine diets for many purposes, including improving fiber and phosphorus digestibility, increase feed efficiency, support hindgut bacteria, and even prevention and cure of gastric ulcers. However, a close look at the published data available on the efficacy of supplementing yeast culture in the diets of horses does not support the claims of positive effects in horses fed quality diets that meet nutritional requirements.

AAFCO defines a number of yeast products as feed ingredients, including dried yeast, yeast culture and yeast extract. Dried yeast may be either active or nonfermentative. Yeast culture is a dried product composed of viable yeast cells and the media on which it was grown. Yeast extract is a dried or concentrated product of cell contents from ruptured yeast cells.

Studies in ruminants suggest that addition of yeast products to ruminant diets promote bacterial growth in the rumen. It is generally believed that yeast additives either directly facilitate fiber digestion and dry matter intake, or contain metabolites or compounds that stimulate bacterial growth to facilitate fermentation and animal performance in ruminants. Since horses have fermentative capability in the hindgut, it has long been proposed that yeast products may have beneficial effects on digestion/fermentation in the hindgut, resulting in enhanced fermentation and increased fiber and/or nutrient digestibility.

According to the 2007 National Research Council’s Nutrient Requirements of Horses, “Unlike observed effects in ruminant studies, supplementation of yeast in horse diets tended to show some beneficial effects on fermentation, but results were equivocalacross studies.” There is great variation in published results of feeding yeast products to horses – most studies report minimal to no increase in cecal or colonic bacterial cultures as a result of feeding yeast products, although a few studies have reported beneficial effects when yeast products were fed with very high starch diets, or with low quality forages. Some studies have reported no improvement in nutrient apparent digestibility when yeast products were fed to mature horses, but others have reported some improvements in fiber and nutrient digestibility. However, the reports of improved digestibility of nutrients with the addition of yeast products are most often seen when yeast products are added to nutritionally deficient diets. The Purina Equine Research team recently completed a thorough, long-term study that looked at the efficacy of yeast in enhancing fiber digestion in horses, as well as several other parameters, and the data indicated no effects of yeast on fiber digestion. This data is currently being prepared for submission for publication in a scientific journal. However, ongoing Purina research continues to investigate potential effects of yeast products on other parameters of equine digestion, health and performance.

Yeast products can be a source of quality nutrients, including essential amino acids and B-vitamins, so adding yeast products to a nutritionally deficient diet will result in improved performance in horses, just as addition of any ingredient that supplies deficient nutrients to a ration will result in improvement in performance. However, when yeast products are added to diets that are nutritionally balanced and fortified to meet a horse’s nutrient requirements, the additional nutrients provided by the yeast products have not shown measurable benefit. At this time, there is insufficient data to support the inclusion of yeast products in horse feeds for benefits other than those simply provided by the nutrient content of the yeast products, and there are many other feed ingredients that provide quality nutrients for optimal nutrient content in horse rations. Purina Premium Horse Feeds are nutritionally fortified and balanced with quality protein sources as well as specific essential amino acids, minerals and vitamins to meet horses’ nutritional requirements when fed as recommended. And, of course, if and when we elucidate beneficial effects of yeast products in horses, we will share those findings with our customers and add them to our feed formulations.

Katie Young, Ph.D. Land O’Lakes Purina Feed

Heat and humidity put an added burden on horses during training, showing and hauling. Horses are actually better equipped to work in cold weather than in the heat. They build up a tremendous amount of body heat due to the internal heat produced by fiber digestion and the large mass of working muscles, combined with insulation from their hair coat and body fat cover.

Normal body temperature for a mature horse at rest is 99 – 101° F. Under working conditions this can rise to 102 – 104° F, but with the same work under hot, humid conditions body temperature can elevate dangerously to 106 – 107° F. Body temperatures of 104° F or higher for any extended amount of time can be life threatening.

A horse’s main cooling mechanism is evaporation of sweat from the skin surface. Increased blood flow in the veins and capillaries close to the skin and elevated respiration rate help dissipate internal heat as well. Increasing humidity reduces the evaporation of sweat from the skin, thereby decreasing the cooling ability. Under extreme heat, especially when humidity is high, the body’s cooling mechanisms may not work well enough to dissipate the heat generated. This can lead to heat stress which is hard on the body and can impair performance.

A simple calculation of Ambient Temperature (° F) + Relative Humidity (%) – Wind Speed (mph) will indicate heat stress risk level. For example, ambient temperature of 98°F with a 55% relative humidity and wind at 5 mph; 98 + 55 – 5 = 148. If the calculation equals 130 or less, then the horse’s own cooling mechanisms will work effectively. Between 140 and 170, the horse has partial cooling capacity and may need some assistance cooling down. When the result is greater than 180, the horse has a significantly impaired ability to cool and is at high risk for heat stress or even heat stroke.

Horses unaccustomed to the heat or those not properly conditioned will sweat more for a given amount of work than fit or acclimatized horses. While it is necessary for horses to sweat to help cool the body, sweat generated during work robs the body of fluids and important nutrients that must be replenished. Horse sweat is more concentrated than human sweat, meaning it contains a higher concentration of electrolytes. Electrolytes are electrically charged mineral salts that play a large role in water balance and are integral to nerve and muscle function. An electrolyte imbalance can lead to heart problems, digestive dysfunction, muscle cramps and nervousness. The primary electrolytes lost in equine sweat are sodium, potassium, and chloride.

Horses working at light to moderate levels will receive adequate electrolytes from nutritionally balanced feed, good quality hay and a salt block or a couple ounces of loose salt per day. Even if these horses are sweating a bit, a good diet along with clean water will replenish everything lost in the sweat. However, horses working very hard in hot, humid climates and sweating a great deal may need additional electrolyte supplementation.

Electrolyte supplementation should be approached carefully. First, never give electrolyte supplementation to an already dehydrated horse. Second, the body has a set requirement for electrolytes but doesn’t store any extra. If supplemental electrolytes are provided in excess amounts, the body will become very efficient at eliminating them in the urine. This causes the horse to urinate more frequently, thus increasing water needs and making it more difficult to stay hydrated. Also, if the body is flushing excess electrolytes out of the system to keep the balance, on a day when additional electrolytes may be needed, they won’t be available. Therefore, the best recommendation is to p

rovide a well balanced feed, good quality hay and free choice salt and water on a daily basis. Provide additional electrolyte supplementation the day before, the day of, and the day after an event in which the horse works

extremely hard and sweats excessively. There are many commercial electrolyte supplements available, or a home-made mix of 3 parts salt (sodium chloride) and one part lite salt (potassium chloride) is an option. Remember though, for the vast majority of working horses, the sodium and chloride requirements can be met with a couple ounces of plain salt per day and the potassium, calcium and magnesium requirements will be met by a well balanced quality feed and hay. Therefore additional electrolyte supplementation is needed only at those times when a horse will be sweating large amounts for an extended time frame.

By Karen E. Davison, Ph.D., Manager – Technical Services, Purina Mills, LLC

Feeding horses correctly and safely often appears to be enormously complicated for the horse owner. Horses are unique in the livestock world, and cannot be fed the same way as cattle, hogs sheep, or any other livestock species. However, following a few guidelines will go a long way toward ensuring that your horse’s nutrient requirements are met without increasing the risk of the digestive disturbances that seem to plague many horses.

Feed horses according to lifestyle
Horses require different amounts of nutrients according to their lifestyle. The horse owner must be sure that each horse receives a total diet that meets the needs of that particular horse. Purina® Horse Feeds are designed to meet the nutritional needs of various classes of horses, such as Omolene #100® Horse Feed for pleasure horses, Omolene #200® Horse Feed for performance horses, Omolene #300® Horse Feed for growing horses, and Equine Senior® Horse Feed for older horses.

How much feed?
In order to feed the correct amount to a horse, the owner must know the horse’s body weight. To determine body weight, one can use a livestock scale, a weight tape (such as those available through Purina Dealers) or an equation, such as: BW(lbs) = Heartgirth (in) x Heartgirth (in) x Body length (in) divided by 330. (The heartgirth is measured as the circumference over the withers and around the barrel; the body length is measured from the point of the shoulder to the point of the buttocks.)

Once the horse’s body weight is determined, then the owner should use the guidelines on the bag of feed, or use the feeding calculator found on the Purina Website (http://horse.purinamills.com) to calculate how many pounds of feed and hay to feed each horse.

Measure feed by weight, not volume.
A 3-lb coffee can of oats is not the same amount of feed as a 3-lb coffee can of corn! The can may hold 2-3 lbs of oats, while the can of corn may be 4-5 lbs. Further, since corn is more calorie rich than oats, the can of corn may contain 2-3 times the energy as the can of oats. Any time a horse owner changes feed, he or she must weigh the can of feed to make sure the horse gets fed the same amount of feed every meal. Plus, every different batch of corn or oats may be a different weight. A can of Strategy® Professional Formula GX Horse Feed or Omolene #200® Horse Feed will weigh the same each time, however, sometimes the 3-lb coffee cans are different sizes! Another option is to use a pre-measured scoop.

Do not overfeed grain.
The horse has a very small stomach in relation to its total size, and feeding too much grain in one meal can overload the stomach and cause problems such as colic or laminitis (founder). A general rule of thumb is to feed no more than .5% of the horse’s body weight in grain per meal, or no more than 5 pounds of grain per meal for a 1000- pound horse.

Do not dilute balanced rations.
Purina’s equine nutritionists formulate Purina® Horse Feeds with precise, correct nutrient balances to meet the requirements of the various classes of horses. Many horse owners then dilute or “cut” these balanced feeds with a cereal grain (usually oats), thereby changing the nutrient balance and decreasing the feed’s nutritional value for horses. For those horse owners wishing to feed oats, corn or unfortified grain mixes, Nature’s Essentials® Enrich 32® Supplement is a concentrate pellet that can be used to supplement grains. Strategy® Professional Formula GX Horse Feed, Omolene #100®, #200®, #300® etc. are designed to be fed only with hay or grass.

Do not supplement balanced rations.
When a horse owner feeds a Purina® Horse Feed, it is already balanced to meet the horse’s nutritional needs and contains sufficient amount of all the necessary proteins and amino acids, vitamins and minerals. If an owner then top-dresses a protein, vitamin, or mineral supplement on the ration, it can cause serious nutrient imbalances, and possibly toxicities.

Feed adequate roughage.
Horses require at least 1-1.5% of their body weight per day of roughage in their diets. Feeding adequate amounts of high quality roughage can prevent many digestive disturbances as well as behavior problems. When providing a feed such as Equine Junior® Horse Feed, Senior® or Adult® Horse Feed, the roughage is included in the pellet, so all the horse’s nutritional requirements are met when these complete feeds are fed as recommended. However, it may be beneficial to supply some roughage to decrease the risk of horses developing boredom vices, especially when exercise is limited.

Use only top quality feeds.
Avoid dust and mold, and keep the feed manger clean. Proper feed storage reduces feed waste. Horses’ digestive systems are not equipped to deal with dust, mold, etc., so poor quality hay or grain will not be digested efficiently, and may cause health problems for the horse. The grains used in Purina® Horse Feeds must pass stringent quality tests before being utilized in the feeds, thereby ensuring only clean, high quality ingredients in each bag of Purina® Horse Feed.

Feed at the same time every day.
Horses that are fed on a consistent schedule are less likely to go off their feed or develop undesirable stall habits (vices). Horses that are fed on inconsistent schedules may get hungry and bolt their feed, possibly resulting in digestive disorders. Also, spacing meals evenly throughout the day is healthier for the equine digestive tract.

Properly manage group-fed horses.
If horses must be fed as a group, use individual feeders spread far apart, put out extra feeders, and make provisions for timid horses (low in the pecking order) to ensure that they have the opportunity to eat adequately. However, the only way to ensure that each individual meets its nutritional requirements is to feed separately.

Avoid sudden changes.
Consistency is one important factor in reducing the chance of digestive upsets in a horse. Changes in types of feed should be made gradually (4-7 days for small changes, up to three weeks for radical changes).

Provide clean, fresh water.
Horses should have access to clean, fresh water at all times, except when the horse is extremely hot. The hot horse should receive plenty of water, but only a few swallows at a time until the horse is cool.

Exercise horses regularly.
Daily exercise helps maintain regular eating habits, desirable stall behavior and general health.

Check teeth regularly.
Horses need routine dental care. Sharp points can develop on the teeth, which can cause problems with eating and also performance, as they may interfere with the action of the bit. The veterinarian can remove the sharp points by floating (rasping).

Practice parasite control measures.
Many digestive disturbances are caused by parasite infestation. Horse owners should practice parasite control measures such as a proper de-worming program, harrowing and/or rotating pastures, proper manure disposal, etc.

Keep an eye on horses’ droppings.
Changes in consistency, color, odor or composition of feces may indicate a digestive disorder.

Practice routine veterinary maintenance
In order for a horse to get the most out of its nutrition program, it must be in good health. Regular vaccinations, deworming, etc. are all essential elements of a good overall wellness program for the horse.

By Katie Young Ph.D., Consulting Equine Nutritionist, Purina Mills, LLC

Cold weather presents horses with some specific nutritional and management demands. As winter approaches it is a good idea to evaluate horses, housing and feeding programs to insure that horses get through the cold weather in good shape.

All warm-blooded animals have a critical temperature. This is the temperature below which the animal must produce additional heat to maintain normal body temperature. Mature horses in good flesh have a critical temperature around 30° F during early winter. After developing a winter coat and gaining 100 pounds, the critical temperature drops to 15° F. It is estimated that young horses, horses in thinner condition and those that have not developed a winter coat, may have a critical temperature around 40° F. When wet, windy conditions are present, the critical temperatures will be higher as well. In order to produce extra body heat, an increase in feed energy is required. Horses will require an estimated 15 – 20% more calories for each 10° F the ambient temperature falls below critical temperature. However, thin horses or horses with short hair may need even greater increases in dietary intake to maintain normal body temperature.

It is important that horses come into winter carrying enough body condition. The additional body fat serves as insulation and energy reserves in times when the thermometer dips below the critical temperature. Once cold weather sets in, it is difficult to put weight on horses. Thin horses get colder and use so much energy trying to stay warm, there often aren’t enough calories left for weight gain. Young horses and broodmares in late gestation, may not be able to consume enough of a high fiber diet, such as hay, due to restrictions in digestive system capacity. These horses must have access to good quality, highly digestible feeds in order to meet the additional energy requirements due to cold weather and higher production levels.

Historically, horsemen have often changed their rations from summer to winter to accommodate increased calorie needs. Typically, this is done by increasing the amount of hay and changing from oats to corn or a sweet feed. Feeding additional hay provides extra calories and also helps maintain body temperature due to the internal heat produced during digestion of fiber. The change from oats to corn or a sweet feed is based on the impression that corn or sweet feed is a “hotter” feed than oats. This concept of oats being a summer feed and corn a winter ration has some merit, but also has some flaws.

Nutritionally, oats and corn compare as follows:
Fiber,%    Protein,%
Oats    10.7    11.8    1200
Corn    2.2    9.0    1500

One pound of corn has more energy and is lower in protein and fiber than one pound of oats. Not only does corn have more energy per pound than oats, corn also weighs more per unit of volume. One scoop full of corn has about 45% more calories than the same scoop full of whole oats. This has led to the idea that corn is a “hotter” feed than oats. Actually, because of the higher fiber level in oats, oats produce more internal heat during digestion than corn, it just takes more oats to provide enough calories.

Corn or oats alone can provide adequate calories but not adequate protein, vitamin or minerals. The best option for the horse year-round is a nutritionally balanced diet of good quality hay and a high-quality, well fortified commercial feed. During the winter months, provide as much shelter as possible, especially from wind and wet weather, and Calories/lb increase feed intake to help maintain body condition. Then as warmer weather arrives, continue to feed the nutritionally balanced diet, simply reduce the amount fed. When a well balanced feed is used, the only adjustments necessary are to increase or decrease the amount fed, depending on body condition or energy demand.

Monitoring water intake is another very important consideration during winter weather. Mature horses in temperate climates will normally drink from 5 – 8 gallons of water per day. Increasing the amount of hay in the diet will increase the water consumption, up to 9 or 10 gallons of water with an all-hay diet. During cold weather, water intake can decline dramatically. Increased hay intake combined with decreased water intake contributes to the risk of impaction colic. This is especially a problem when horses are kept in stalls for several days due to inclement weather because confinement tends to slow intestinal motility. In cold weather, water should be kept fresh and free of ice to insure adequate intake and horses exercised whenever possible. Also, adding one or two ounces of salt to the feed may stimulate water consumption.

By Karen E. Davison, Ph.D., Managing Equine Nutritionist, Purina Mills, LLC

Now that winter is approaching and the temperature is dropping, horse owners need to consider how to winterize their horses. During the cold season, horse owners must make sure that their animals receive proper feed, water and shelter to stay healthy and comfortable. Further, since riders usually put a lot of time and effort into getting their horses ready for shows, trail rides, or other events during the warm months, if they maintain their horses over the winter, all that effort won’t go to waste and have to be started over in the spring.

Feeding

Many horse owners believe that when the weather is cold, horses need to be fed rations containing more corn, because they think of corn as a heating feed. However, corn and other cereal grains do not cause the horse to become warmer, they simply provide more energy (calories) to the horse. Hay, which contains more fiber than grain, provides more of a warming effect internally, as more heat is released during the digestion of fiber than of starch from grain. Therefore, horses are more able to maintain body heat if adequate hay is provided in the diet. Further, good quality hay is important during cool weather and winter months when pasture grasses are short or are not growing. Horses need at least 1% of their body weight per day in roughages to maintain a healthy GI tract, but 2% or even more may be appropriate during cold weather, especially when the horse lives outdoors.

Although grain does not provide as much of an internal warming effect as hay, it is often necessary to supplement a horse’s winter ration with additional grain to boost calorie supplies. Cold temperatures increase the amount of calories a horse needs to maintain body weight, as well as support activity or production. Because a horse may digest feed less efficiently as the temperature drops below the horse’s comfort zone, additional feed may be required to maintain body weight and condition. It is important to maintain the horse in a body condition score of 5-6 (moderate to moderately fleshy) because a layer of fat under the skin provides insulation against the cold. Further, horses in moderately fleshy condition require less dietary energy for maintenance in cold weather than thin horses. In general, feeding an additional 1/4 lb of grain per 100 lb body weight to nonworking horses will provide adequate calories during cold, windy and wet weather. Working horses may require up to an additional 1/2 lb per 100 lb body weight, depending on workload, to maintain body weight during cold weather. Feeds such as Purina Ultium, Strategy, Race Ready or Omolene 200 may be especially helpful in these situations, since the added fat provides more calories than grain alone.

Senior horses, which are unable to chew hay completely due to poor teeth and suffer from less efficient digestion and absorption of nutrients in the GI tract, need a feed specifically designed for them such as Equine Senior especially during winter months. Equine Senior contains enough roughage and added fat to ensure that the older horse can meet its fiber and calorie requirements without depending on long-stemmed hay or grass.

Water

Water should always be readily available to the horse. Snow is not a sufficient substitute for water, as the horse cannot physically eat enough snow to meet its water requirement. Ideally, the temperature of the available water should be between 45 degrees and 65 degrees Fahrenheit. If the water is too cold, the horse may drink less, thereby decreasing water and lubrication in the gut and increasing the chance of impaction-induced colic. Further, if the horse drinks less water, it may also eat less feed, resulting in loss of body weight and condition. Finally, if a horse is forced to drink very cold water, its energy requirement will increase, because more calories are required to warm the water to body temperature inside the digestive tract.

Shelter

Another consideration in cold weather horse care is housing or shelter. In general, even in cold climates, horses are happier and possibly healthier outdoors. Closed and heated barns are often inadequately ventilated. Horses living in poorly ventilated stables tend to develop respiratory diseases more often than horses maintained in pastures, even during cold weather.

If given the opportunity, horses adjust to cold temperatures with little difficulty. A horse’s comfort zone is very different from that of a person. In the absence of wind or moisture, horses tolerate temperatures down to near 0 degrees Fahrenheit, and even colder if shelter is available. Horses living outside should have access to adequate shelter from wind, sleet and storms. Trees, brush, or an open-sided shed or stable can provide adequate shelter. In severe cold, horses will group together to share body heat. They may all take a brisk run to increase heat production, and then come back together to share the increased warmth. A long thick coat of hair is an excellent insulator and is the horse’s first line of defense against cold temperatures. Horses that live outdoors during the winter should be allowed to grow a natural, full winter coat. Horses that live indoors will need adequate blankets in the cold weather to ensure that they do not get too cold. With sufficient thought and care by the horse owner, even horses that live outside in very cold climates will survive quite well during the cold winter months.

Exercise

Many horses are given the winter off from work due to the cold weather, the rider’s lack of time, or because they are given a break after a heavy show season. However, if horses are let off for too long, they may forget some of what they have been taught and lose the fitness level that they gained over the year of work. So, to prevent the winter slump, here are a few suggestions:

1. Longe the horse once or twice a week. This not only gets the horse exercising, but it gives you an opportunity to brush, clean feet, check for injury, and evaluate the overall condition of the horse.

2. If longeing is not possible and you have more than one horse, you can ride one and pony the second. This can be a good time saver and gets both horses working.

3. If time is available and weather permits, ride your horse or horses whenever possible. Keep in mind, your horse is not in the same shape and does not have the stamina as when you were riding more in the warmer seasons, so you cannot work as hard nor expect as much from the horse. Be sure to cool the horse down completely after work to reduce the risk of pneumonia, cold, or colic.

4. Another option is to check with local stables to see if their facilities are available to non-boarders. Often, stables allow outside horses and riders to use indoor and/or outdoor arenas for a fee.

Winter may not be the easiest time of year for enjoying our horses, but with proper feed, water and shelter, and some exercise and conditioning, our horses will make it through comfortably and be ready to go again as soon as the weather allows.

By Dr. Katie Young, Equine Nutritionist, Purina Mills, LLC