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Best Practices for Managing 4 Types of Forage

Friday, April 19th, 2024

Managing 4 Types of Forage : cows in pastureBest practices for managing 4 types of forage: Capitalize on your forage management to optimize cattle nutrition.

 Each forage type comes with its own challenges and management considerations. And, honing in forage management can help support cattle nutrition needs – and your bottom line.

Take advantage of these best practices for each of the four different forage types

 Cool Season Forages: 

Fescue is the dominant forage in the U.S. because it’s a hardy forage that can stand up to grazing pressure. However, it doesn’t come without challenges. The predominant fescue variety comes with the risk of endophyte toxicity. Endophyte toxicity occurs when livestock consume fungal endophytes present in the seed head of grass. Fungal endophytes contain ergot alkaloids that can be detrimental to livestock, causing lower feed intake, reduced weight gain and decreased fertility.

 An easy method to manage endophytes in fescue is to clip the grass using a tractor-pulled mower before the grass heads out. You can also manage endophytes by inter-seeding legumes like grazing alfalfas, white clover and red clover. These legumes provide additional forage sources and offset the risk of endophytes. Legumes also benefit overall pasture health by providing nitrogen fixation for the soil and extending the grazing season.

 With any cool season forage, whether it be fescue, brome or another grass, watch out for grass tetany during the early spring flush. Feeding a mineral high in magnesium, like Purina® Wind and Rain® Hi-Mag, can help supplement your herd.

Warm Season Forages: 

There are many options to graze cattle effectively with warm season forages, from improved forages in the southern U.S. like Bahiagrass and Bermudagrass to the native tall grass and short grass ranges to the west. Warm season grasses tend to take off when cool season grasses lose productivity. If you have access to both warm and cool season forages, you’ve got a complementary program.

The biggest challenge with warm season forage is stocking density. Warm season forages typically can’t support the same grazing pressure as cool season forages. Maintain moderate stocking densities for your area and use a rotational grazing system that moves cattle from grazed to rested pasture. If your pastures are too large to fence for rotational grazing, consider using mineral or supplement sites to maximize forage use. Cattle will seek the pasture for minerals and supplements, which you can use to your advantage.

Another challenge with warm season forages is that stem growth tends to outrun leaf growth as the growing season continues. When the stem-to-leaf ratio gets too far out of line, forage quality drops because there are more carbohydrates and less protein and energy. Keep supplemental nutrient sources available to cattle on warm season pasture to ensure their nutrient needs are met throughout the grazing season. Purina® Accuration® block or Purina® RangeLand® protein tubs, along with minerals, can help extend the grazing season and make best use of forages.

Cover Crops: 

It’s been trendy the last few years to use mixes of cover crops like turnips, forage sorghums, rye and clover to get more grazing from crop fields. But, grazing systems with mono-crops have existed for a lot longer. Wheat pasture, for instance, has been used to grow calves and maintain cow herds before the grain crop goes to head. Sudangrass has made efficient summertime grazing, too.

An important factor in grazing any forage, particularly cover crops, is to have mineral available year-round. Cover crops might be the lushest forage your herd has all year, but cattle may not fully utilize it. Offering mineral helps maintain an animal’s rumen microbes, which in turn impacts forage utilization and feed efficiency.

Much like traditional perennial cool season grasses, you should feed a high-magnesium mineral in the spring and fall due to grass tetany risk. Bloat can also be a concern in lush cover crops. Feeding a mineral with an ionophore, like Purina®Wind and Rain® minerals, or keeping bloat guard blocks at the mineral site can help.

Monitor nitrate and prussic acid poisoning when using cover crops containing forage sorghums, Sudangrass, millet and green grazed corn, or even if field edges have Johnson grass. Have fields tested, especially if forages get too far ahead of cattle before or during grazing. Drought years also increase concern for nitrates since the stalks of those stemmy plants naturally hold more nitrates when dry.

Hay & Silage: 

Stored forages help extend forage use throughout the year, and both hay and silage have their unique places in beef cattle rations.

Silage quality is particularly important, whether the forage is fed to weaned calves or mature cows. Harvest silage when it’s at its peak for protein and energy to maximize quality rather than yield. Once harvested, storage should be your next emphasis. Focus on packing silage piles tight, using an inoculant to reduce mycotoxins, and covering piles to prevent spoilage.

Also focus on hay quality. The term “cow-quality hay” is often used to describe poorer quality forages used to feed beef cows. Yes, you can feed fibrous, low-quality hay to cows, but you’re likely going to need more supplementation to keep them in an adequate body condition score 6. Putting up good-quality hay to start helps reduce the need to feed as much supplement.

 Before you start feeding hay or silage, pull samples for testing. A forage test helps determine protein and energy levels. With those levels as your baseline, you can determine the amount of supplement needed to support your herd. If everything goes perfectly, you may only need to feed mineral to balance the ration. Connect with your Purina® dealer to work on a forage management plan.

Resources:

In conclusion, do you have questions about the Best Practices for Managing 4 Types of Forage? Contact us at J & J Hay Farms by clicking here!

Source: Ted Perry, Purina Cattle Nutritionist

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Beet Pulp: Energy Source for Horses

Thursday, November 25th, 2021

Beet Pulp: Energy Source for Horses - a horse is feeding in a stableBeet Pulp: Energy Source for Horses: Horses with high energy demands, such as performance horses and hard keepers, frequently require concentrates to meet athletic expectations and to maintain condition.

If you’re looking to decrease the amount of high-starch concentrates, offering beet pulp can offset the need for cereal grains while supporting a healthy gastrointestinal system.

Offering concentrates fills the gap in many horse’s diets when hay alone provides insufficient calories. In some cases, the starch content of traditional sweet feeds and straight cereal grains can exceed 40% in a horse’s diet. Potentially resulting in digestive disorders when fed at high intakes.

Some horses fed these types of diets may require gastrointestinal support due to the possibility of gastric ulceration. In addition, hindgut acidosis, and even laminitis.

“Nutritional supplements containing digestive buffers help attenuate the risk of acidosis due to starch fermentation in both the stomach and hindgut. Kentucky Equine Research has several products designed to deliver high-quality ingredients with significant buffering capacity to support total digestive tract health and function,” said Catherine Whitehouse, M.S., a Kentucky Equine Research nutritionist.

Maximize Health:

To maximize gastrointestinal health while supplying adequate calories to hard-working horses, nutritionists recommend limiting the amount of starch. Even when carefully supplied, some horses cannot tolerate this amount of starch in their diet.

To add calories and offset the amount of starch fed, owners can offer vegetable oil or stabilized rice bran. Stabilized rice bran not working for a particular horse? Owners can try another “concentrate-sparing” feedstuff, beet pulp, though stabilized rice bran contains 50% more energy than beet pulp.

In terms of hindgut health specifically, beet pulp recently proved valuable in limiting hindgut dysbiosis that can occur with diets rich in starch and other soluble carbohydrates.* Dysbiosis refers to an alteration in the type and amount of bacteria in the intestinal microbiome that may lead to disease.

In the study, different diets were fed to horses. The beet pulp diet involved 50% hay, 21% barley, and 29% beet pulp. The high-starch included 55% hay and 45% barley.

When horses were fed the diet with beet pulp, the cellulolytic bacteria in the intestinal microbiome were more numerous than in horses on the high-starch diet; these beneficial bacteria break down fiber.

In addition, horses fed beet pulp also produced higher concentrations of volatile fatty acids than horses fed the high-starch diet. Volatile fatty acids produced by bacteria in the hindgut are the primary source of energy for horses.

These results suggest that replacing even a portion of the concentrate with beet pulp can limit hindgut dysbiosis without affecting energy supply. This reinforces the reality that many feeds formulated for hardworking horses contain multiple energy sources. Sources include starch, fat, and fermentable fiber. One of the most oft-used fermentable fibers is beet pulp.

In conclusion, do you have a specific question about your horse’s diet? Visit J & J Hay Farms today!

Article Source: Kentucky Equine Research
*Grimm, P., V. Julliand, and S. Julliand. 2021. Partial substitution of cereals with sugar beet pulp and hindgut health in horses. Journal of Equine Veterinary Science 100:103530.

 

 

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Good-Quality Forage Important for Horses

Sunday, April 5th, 2020
Good-Quality Forage

close up horse eating hay

During times when pasture is not available, such as after a drought or wildfire, the selection and purchase of hay or other forage sources becomes a vital decision for horse owners. The quality and nutrient content of the hay or forage source is critical because it is the foundation of the horse’s diet and provides 50 to 90% of the total nutrient intake for many horses.

Why should horse owners be concerned about good-quality forage sources for their horses? Due to the horse’s unique and delicate digestive system, it needs to consume a minimum of 1% of its body weight daily (dry matter) as forage in the form of hay, chaff, and pasture together with some grain.

Most horses are fed more than that amount, receiving 2% of their body weight per day in grass or hay alone. This means that a 450 kg (1,000 lb) horse will easily eat 5 to 7 kg (11 to 15 lb) of forage per day, along with 1.5 to 3 kg (3.3 to 6.6 lb) of a grain ration in order to maintain a healthy digestive system and good body condition. For lactating mares or young growing horses, hay consumption is much higher and can be as much as 3% of body weight.

When problems occur that may relate back to nutrition, people usually look at the grain ration. However, when the vast majority of the horse’s diet is hay or grass, we must pay more attention to the important role that hay or another forage plays in the horse’s nutritional status.

Several factors affect the quality, and therefore the nutrient content, of hay. These include plant species, fertilization, maturity at time of harvest, rain and sun when hay is harvested, climatic conditions, storage conditions, and age (time since cutting). The maturity of the plant at time of harvest determines the hay quality more than any other factor.

Legume hays such as lucerne (alfalfa) or clover have higher protein, energy, and calcium contents than grass or cereal hays. They are also usually more palatable and often a better value. Hay for horse consumption should be baled from grass that is in early maturity. The hay should have been allowed adequate curing time, and ideally was baled and stored without being rained on. If the hay was baled too green or was rained on, there will often be mold within the bale. This may be detected by smell or discoloration of stems. If hay gets wet after cutting, it can be dried to avoid mold, but often the stems are discolored and a lot of the sugar and energy are washed out of it. When certain types of mold are consumed by the horse, serious complications such as colic can arise.

After drying, some hay is very dusty. This is often more of a health risk than mold. Every time a horse buries its nose in dusty hay or picks up a piece and shakes it, there is a cloud of dust. Continuously breathing in dust at such close range will quickly lead to lung problems. The short term effect is acute pneumonia, with difficult breathing and coughing. The chronic effects are those seen with the condition of heaves or emphysema. This condition can be managed with medication, but never cured. If dusty hay is all you have, soaking the hay will keep the dust down but will also wash out some of the sugar and energy.

Most people buy hay based on how it looks, smells, and feels. These are qualitative factors, and they are important. When appraising hay, keep in mind the following points:

  • It’s what’s inside that counts. Ask that one or several bales be opened so you can evaluate the hay inside the bales. Do not worry about slight discoloration on the outside, especially in stacked hay.
  • Choose hay that is as fine-stemmed, green, leafy, and soft to the touch as possible.
  • Avoid hay that is excessively bleached or discolored, or that smells moldy, musty, dusty, or fermented.
  • Check for leaf loss. If the leaves of lucerne (alfalfa) or clover hay fall too easily off the stems, the horse won’t be able to eat them.
  • Examine the leaves, stems, and flowers or seed pods to determine the level of maturity.
  • Select hay that has been baled when the plants are in early bloom (for legumes) or preferably before seed heads have fully formed in grasses.
  • Avoid hay that contains significant amounts of weeds, dirt, trash, or debris.
  • Some cereal hays such as barley and triticale hay can have sharp awns if cut and baled when too mature.
  • Examine hay for signs of insect infestation or disease. Be especially careful to check for insects in lucerne (alfalfa).
  • Reject bales that seem excessively heavy for their size or feel warm to the touch. They may contain excess moisture that could cause mold or spontaneous combustion.
  • When possible, feed hay within a year of harvest to guarantee the best nutritional value.
  • Store hay in a dry, sheltered area, or cover the stack to protect it from the elements. Allow some air circulation when covering with plastic or tarps.
  • Try to feed hay in a way that reduces wastage. Hay feeders or nets are very useful.


If hay isn’t available, you can feed high fiber feeds that contain a large percentage of chaff. Look at the crude fiber level as a guide.

Remember that hay can make up a large part of the horse’s diet when pasture is limited or nonexistent. If you are working your horses, they will usually need some added grain. Key visual and physical inspection factors include a fresh, clean smell and freedom from dust or mold. If in doubt about the quality of hay, don’t feed it!

Source: By Dr. Peter Huntington

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Hay Storage and Use

Thursday, March 5th, 2020

hay storageNationwide, improper hay storage and wasteful feeding methods cause losses of around three billion dollars a year. It is estimated that up to 10% of a farm’s livestock production costs can be traced to inefficient hay management. Proper storage and use will help preserve hay quality, avoiding wasted bales, and provide better nutrition to your horses. Whether you are feeding square or round bales, management of stored hay requires several considerations.

Hay condition at the time of baling is important. Overmature grass contains a large percentage of indigestible fiber and is neither as appetizing nor as nutritious as forage harvested at a less mature stage. Mown hay should be allowed sufficient drying time in the field before baling. Hay that is square-baled at more than 20% moisture or round-baled at more than 18% moisture is subject to mold growth, making it unfit for consumption by horses. There is also a risk of fire due to the heat generated by decomposition.

Hay needs to be stacked so that air can circulate freely as the hay continues to lose moisture. Measures to help ensure proper drying include stacking square bales on edge, leaving narrow gaps between rows of bales, alternating bale orientation in each layer, and keeping stacks no more than four or five bales high. With round bales, care should be taken to avoid stacking too many bales together unless they are well dried. Moisture and heat should be monitored for about two weeks after new hay is stacked in a barn or shed.

A caramel smell may indicate that the hay is becoming hot. A metal pipe or rod driven into the center of the stack can be pulled out from time to time to feel for heat. Hay that is extremely hot or beginning to steam often smolders until the stack is pulled apart, at which time the increased oxygen can cause the bales to burn more rapidly, so caution is advised if there is a reason to suspect this condition.

Stored hay must be protected from ground moisture and rain. A barn loft offers a dry site, but air circulation may be minimal depending on the design of the barn. Stall storage is convenient and safe if the bales are placed on pallets or racks to avoid contact with the ground. Some managers point out the danger of storing flammable hay in a barn where horses are housed, preferring to build separate sheds or barns for hay storage. These structures should be designed to allow easy access to stables and feeding areas, as well as to provide protection from dust, rain, and light. Excessive sun exposure causes a bleached appearance on the top bales, but the discoloration is usually not important if the hay within the bale still appears fresh and green.

Hay can be stored outside if it is stacked on pallets or raised rock pads. Rocks should be 1 to 3 inches (2.5 to 8 cm) in diameter in a layer 4 to 8 inches (10 to 20 cm) above the ground surface.  Except in very dry climates, tarps or other coverings are often used to protect bales from dust, sun, and rain. The stack should be designed with a peak at the top or center so that rain will run off instead of pooling. Tarps should be carefully checked for holes or tears and should be weighted or tied so they cannot be blown out of place. Some airflow should still take place to carry away excess moisture in new hay. This can be provided by leaving some open space below the bottom edges of the covering.

Unprotected outdoor storage of round bales inevitably leads to some loss of nutrients. Crude protein and soluble carbohydrates decline as hay is exposed to weathering. Although rain usually damages only the first few inches of a tightly rolled bale, any hay stored outside has the potential to contain mold, and very moist or rotted bales bring the danger of botulism.

When feeding horses inside, hay can be placed in a net or rack, or directly on the stall floor. Hay should be at or below the horse’s head level to avoid eye irritation from dust and grass particles. Nets or racks need to be placed so that a horse cannot get a foot or halter caught in them.

When hay is provided to horses outside the barn, it is somewhat more difficult to monitor individual intake. Remember to offer hay from square bales in several widely spaced piles, with at least one pile for each horse so that less dominant animals have a chance to eat. Congregating horses can quickly turn a feeding spot into a mudhole, and moving the feeding place from time to time will help to avoid destruction of pasture. Because horses spread and trample hay as they eat, some hay will be wasted in outdoor feeding. Wastage from round bales can be decreased by setting the bale in a rack or feeding frame.

Regardless of the method of feeding hay, each bale should be checked for mold and foreign objects. Horses should never be offered hay that looks or smells moldy.

Source: Kentucky Equine Research Staff

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