Fibrozyme enhances the ruminant digestive system in high-fiber diets

High-fiber diets can be difficult for animals to digest. Increasing the digestion of ruminal fiber in higher-forage rations — even by a small amount — can significantly impact both intake and production. Fibrolytic enzymes can boost an animal’s ability to extract nutrients from the feed, improving ruminal efficiency. Fibrozyme is a unique enzyme feed technology designed to maximize feed efficiency in high-fiber diets by better breaking down the cell wall fractions in plant fibers, encouraging intake to support productivity for both beef and dairy cattle.

By Brian Springer, CCA

Sixty percent of a dairy cow’s diet is forage. With so much of the diet dependent on the nutrients a cow receives from forage, it is important to make sure the crop reaches its nutrient and energy potential. Nitrogen, phosphorus and potassium, the major components of fertilizer, are essential for soil nutrient content and are controlled by pH. We test and fertilize for these nutrients regularly, and they are often the first place we look for a solution if a problem arises in crop health.

However, critical elements — like calcium, magnesium, and sulfur — are often seen as secondary in importance in terms of soil content, and, in turn, plant health. For example, with current industry practices, recent findings show that sulfur deficiency of 10 to 20 pounds per acre is common in much of the United States. Of these elements, sulfur in particular might be the missing piece in your forage puzzle as it increases nutrient quality and aids in balancing the microflora in the rumen.

What is sulfur?  

Sulfur is one of the 17 elements essential to crop production. This is because, according to the International Plant Nutrition Institute, plants almost exclusively use sulfate as their primary source of nutrition. It can be found in high levels in salt domes and volcanic deposits, typically in its elemental form. But it is also present in almost all soil types in smaller quantities.

Plants receive sulfur through two primary mediums:

• Soil: The sulfur found in soil is typically organic sulfate that has been converted from elemental sulfur by soil bacteria. Ninety-five percent of plant sulfur uptake is in the organic form of sulfate.

• Air: Inorganic sulfur dioxide is often absorbed through the leaves and stoma.  

What role does sulfur play in forage plant and dairy cow processes?

Required by both plants and animals, sulfur appears in every living cell and is essential for the synthesis of certain amino acids and proteins.

A deficiency of sulfur in the soil can lead to deficiencies in the cow. Nutritionists recommend 0.2 percent of sulfur or sulfate in the diet of cattle, and ensuring your forage has enough sulfur is the easiest and most cost-effective way to manage sulfur requirements for the ration. Most of the dietary sulfur required by the cow is actually utilized by the rumen microbes for amino acid production. By feeding the microbes, the cow can produce amino acids, enzymes and proteins that then contribute to cow health, milk production and quality.

Not only will the sulfate aid the cow, but plants use sulfate for chlorophyll formation, which contributes to higher sugar content and nutrients, resulting in greener, fuller foliage.

What does our current sulfur landscape look like?

In recent years, there has been a decrease in soil sulfur content as well as an increased demand on the soil for higher crop yields, and the fact that many fertilizers contain little to no sulfur is the primary reason for our current depletion of sulfur in the top soil. Secondary causes include erosion and mineralization.

How to recognize a sulfur deficiency

Since high-yielding crops often don’t receive adequate amounts of sulfur or receive it at inopportune times, it is important to be able to recognize a sulfur deficiency. Thankfully, if presented in its organic form, sulfate can quickly be absorbed in two to three days, which helps avoid leaching as you fertilize. If you notice some of the following signs of sulfate deficiency, it is recommended to provide a sulfur treatment two to four days before cutting forage to increase chlorophyll, resulting in a fuller, energy-rich harvest.  This short-term solution can be done by applying biostimulant products, as a sulfur application would need to take place much earlier in order to keep the plant healthy and growing well. Signs of sulfur deficiency include:

• Yellowing of young growth; yellowing of old growth indicates a nitrogen shortage.

• Curling of young leaves.

• Diminished foliage.

​

Photo is provided courtesy of the International Plant Nutrition Institute (IPNI).

Although sulfur is present in the soil, it is often below recommended standards. Furthermore, in its inorganic sulfur state, it cannot be properly taken up by the plant until it has been converted to organic sulfate. By checking your forage crop for sulfur deficiency and treating as needed, you can increase the sugar and nutrient quality of your forage and provide sulfur to your herd to support rumen microflora health.

Have a question or comment?

Big data is ready for the farm. But is the farm ready for big data?

84 percent of U.S. farmers who responded to a recent Stratus Ag Research survey said they have high-tech equipment that captures reams of data from livestock, planting, harvesting or crop protection operations. Yet, only 42 percent of them are transferring this information to a field data management software program for further analysis. 

The question is: How can producers harness all of this information to drive efficiency and profitability once it has been collected?

KEENAN, a technological entrepreneur of diet feeders, stepped up to this challenge by expanding into farm data analysis with InTouch technology, which delivers solutions on-farm in real time.

“We've been involved with the internet of things (IoT) since about 2011,” said Conan Condon, director of KEENAN’s InTouch system. “At that stage, there wasn't much connectivity. There were about 12 million connected devices. Today, there are about 6.4 billion connected devices.” 

At present, more than 2,000 livestock operations, ranging in size from tens to thousands of cows, use the InTouch system, a live review and support service that helps producers apply actionable intelligence to their operations, giving them the benefit of KEENAN’s access to data on more than 1.3 million monitored cows.

InTouch technology: Acting on data today

KEENAN InTouch is a simple, cloud-based communications platform that offers real-time performance monitoring. The system allows for all feed ingredients to be added to the diet feeder in consistent orders and ratios, thereby promoting feeding consistency and improving livestock performance and profitability.  

​

Producers are looking for easy alternatives to interpreting and actioning data. InTouch supports that process, as data is automatically transferred and received after completion of every load. Not only are paperwork and time delays eliminated, but the InTouch platform also allows for instant feedback. This means that producers can make informed decisions on maintaining and/or improving ration accuracy, consistency and presentation, thereby maximizing livestock performance. InTouch can also incorporate data from other herd management software programs and services such as the Dairy Herd Improvement Association, resulting in better quality analysis. 

Convenience is also a key feature of InTouch. Ration changes can be made from a computer or smartphone, through the InTouch customer service center or programmed directly to the KEENAN diet feeder. Nutritionists can also send ration changes directly to the weigh scale on the diet feeder.

The pre-self-loading order and mixing time takes the guesswork out of loading accuracy, suggesting a mixing order based on type, length of cut and moisture levels of the ingredients. It also calculates the required number of mixing revolutions needed to maximize effective fiber and delivers a consistent, uniform mix, based on 17 years of data gathered from farms all around the world.

To maximize profits for producers, InTouch’s support services help them monitor everything from feed costs and diet feeder performance to proper inclusion rate accuracy in order to maximize profits. Daily, monthly and annual performance reports for feed efficiency, the cost to produce 100 pounds of milk, profit margin per cow and production trends are automatically produced. This means no more combing through data or handwritten notes to find patterns that might unlock efficiency — using InTouch, farm consultants can generate benchmark summary reports that can reveal management practices to improve livestock performance and profitability.

The MechFiber difference

Based on years of data from more than 1 million cows, KEENAN has developed a range of products tailored to the needs of farmers, including reel, self-propelled, vertical and static machines for small- to medium-sized farms and pro-mixers for high-volume feed manufacturing and larger farms. These machines are designed to improve rumen health, resulting in improved feed efficiency and livestock production.

They are durable and easy to maintain, with a low daily operating cost and stationary blades for controlled chopping. They have a simple drive system, with no gearbox required and they empty completely, so no ration ingredients intended for one group of animals are fed to another.

Each diet feeder has two chambers (mixing and dispensing) and, together with a six-paddle reel and patented fixed-knives system, is engineered to produce a consistent, uniform, fluffy mix called MechFiber, which is unique to KEENAN machines.

Independent trials have consistently shown that MechFiber retains the fiber structure needed to stimulate rumination, allowing greater absorption of energy and maximizing feed conversion efficiency.

​

KEENAN diet feeders produce consistent rations from as little as five percent capacity up to 22,000 pounds. They easily handle and deliver a consistent, uniform mix for smaller dry cows, post-fresh cows and heifer groups. KEENAN customers can purchase separate ingredients to prepare their own premixes.  

Additionally, the low-power requirement design saves up to 50 percent in fuel consumption and reduces tractor and KEENAN diet feeder maintenance costs. Larger, more expensive tractors are not required compared to equivalent capacity vertical mixers, as a 120-horsepower tractor will operate a 1,000-cubic-foot diet feeder at recommended speeds of 1,200–1,500 revolutions per minute.

KEENAN started manufacturing quality diet feeders with cutting-edge designs and technology in 1978. In 2016, Alltech acquired KEENAN and is re-establishing the diet feeder in the U.S. market with a fresh approach to innovation that builds on KEENAN’s strong reputation for quality and performance.

Manufactured in Borris, County Carlow in Ireland, KEENAN products are available for purchase in the U.S. For more information about KEENAN, visit www.keenansystem.com. 

Have a question or comment?

With the continued rise of feed ingredient costs, there is increasing pressure to be as efficient as possible in animal diet formulations. 

Alltech True Check™ is a flexible analysis designed to stimulate the digestive systems of poultry and swine, providing a prediction of nutrient release from the feed. It allows us to quantify the benefits of adding enzymes and determine the best enzymes for individual feeds. This means we can help formulate feeds that will have the most benefit for the animal while reducing inputs and environmental impact. 

How does Alltech True Check work? 

Alltech True Check stimulates digestion using a system that replicates each stage of the digestion process. The feed is ground and diluted, then goes through different phases in which enzymes matching endogenous production, pH, temperature and time are carefully adjusted to mimic the crop, gizzard and small intestine of a chicken, or the stomach and small intestine of a pig. After this process, the samples are analyzed for phosphate, reducing sugars and alpha amino nitrogen.  

How can the analysis help optimize feed formulation? 

Analysis of free phosphates demonstrates the conversion of phytic acid into a digestible form. A higher free phosphate level indicates more phosphorus available to the animal. The use of enzymes to increase phytic acid hydrolysis reduces the need to add mineral sources of phosphorus to the diet and minimizes excretion of unabsorbed phosphorus into the environment.  

Animal feed includes fiber, which is largely composed of non-starch polysaccharides found in plant cell walls, such as cellulose, hemicellulose and pectin. Non-starch polysaccharides are composed of sugars but are not easily digested by monogastric animals. Enzymes can be used to help convert the longer polysaccharides into digestible sugars, measured as reducing sugars, allowing increased energy availability to the animal. 

Free amino nitrogen analyzes the amount of protein being converted into digestible free amino acids. Increasing protein release from feeds allows for lower crude protein formulation in diets. Reducing dietary crude protein is crucial to reduce excretion of nitrogen into the environment and can also improve animal health. 

By simulating the digestive process in the lab, Alltech True Check provides a fast, effective screening method for novel diet formulations and enzyme additions. Use of Alltech True Check can reduce wasted nutrients, increasing production efficiency while also minimizing the environmental impact of animal production.

Contact us for more information

Environmental control in pig housing is important for animal growth and health. Modern farms have computer-controlled systems that are adjusted automatically to optimize the environment depending on the stage of growth or reproduction, based on ideal temperature curves established from research and models. For example, for growing pigs, temperature needs to decrease by set amounts as they increase in body weight. However, it is important to ensure the correct growth curve is selected in any automated system to account for breed, age and health of the animals.

When animals have been moved to new housing, perhaps following weaning, it may take several days for them to adjust to their surroundings and the new supply of water and feed, and feed intake may drop during this time. The environmental temperature will need to be held at a higher level, compared to their weaning shed, until they have adapted suitably and resumed consumption and growth. Therefore, although computer-controlled systems are very useful, management by personnel and suitable reactions regarding changes in the regulation of temperature are still key to ensuring the growth and health of the pigs.

Relative humidity

Relative humidity (RH) is defined as the ratio of air-water vapor at a specific temperature compared to the maximum amount of water vapour the air could hold, expressed as a percentage. Under normal, ambient temperatures, pigs can tolerate wide ranges of RH, although RH is still used to assess air quality in housing, and RH should be maintained between 60 percent and 90 percent. Nasal mucosa can be severely reduced in very dry housing conditions (low RH), leading to an increased risk of developing health problems from airborne pathogens, particularly those of the respiratory tract. Conversely, in wet conditions with higher RH, pathogens present in water droplets increase exposure to disease.

For nursery pigs, high RH can be a problem when the ambient air temperature is low, as automated ventilation systems reduce the amount of fresh air circulating within the house, allowing RH to increase to problematic levels. Under these conditions, an increase in respiratory disease can occur, which may affect the health and growth of the pigs. Intervention by management personnel is required under these conditions to ensure ventilation rates are maintained. Additional space heaters can be used to get the house up to temperature before moving the piglets.

In modern housing systems, both temperature and RH can be controlled automatically via sensors. However, care is needed with these, as they can become damaged during clean out and power washing. Their accuracy should be verified on a regular basis using handheld and empirical devices.

In “The corn conundrum,” we looked at some of the causes of the dreaded “fall slump.” Now we will look at some of the ways to prevent the slump as well as tools to help diagnose it.

Dry matter at harvest

We all know the importance of proper dry matter at harvest. Checking whole plant dry matter for each field is a good first step to having the correct dry matter at harvest.

Chopping too early can lower the starch content of the corn silage and impede fermentation, which can also contribute to the environmental issue of leachate. On the other hand, chopping too late (>40 percent dry matter) can lead to a separate set of problems, such as mycotoxins, poor fermentation, yeast production, decreased starch digestibility and a longer window for total starch digestion.

If we monitor the seven-hour starch digestibility and ammonia levels of fresh corn silage, it can tell us a lot about how the corn is fermenting. Typically, fall corn silage will be low in both the seven-hour starch and ammonia. As the silage ferments over 240 days, the ammonia levels rise and the starch digestibility increases.

Silage inoculants and crop quality

We know that inoculants can speed up fermentation and lower pH, thus saving energy for the cow. Inoculants enable us to get into the piles, bags, bunkers and silos even faster than before.

Future outlook is strong is this area. Work is being done on combinations of inoculants and enzymes to assist in both starch digestion and fiber digestion, which will serve to further our efficiencies.

Inoculants can cater to front end fermentation or feed out protection. Cater your inoculant to your individual situation.

Inoculants coupled with a quality mold inhibitor can be the ultimate line of defense against molds, top spoilage and stability issues. Mold-Zap®, a buffered propionic acid, has been the gold standard in alleviating seasonal total mixed ration heating, but very keen dairymen also use it for preventing top spoilage in bunkers, drive over piles and on silage faces.

Corn Silage Processing Score

Shredlage, a new corn harvesting method for silage, is gaining acceptance. Most importantly, shredlage processing has led to a renewed interest in proper corn silage kernel processing with the choppers many producers already have. With proper corn silage processing, the kernels can be processed down to the new standard of ¼” kernels.

The Corn Silage Processing Score (CSPS) is a great testing tool that is run at virtually all the forage labs in the U.S. because it will assess how well the corn silage has been processed. A Corn Silage Processing Score in the 40–60 percent range is common in unprocessed corn silage and can equate to lost milk. Setting a goal of achieving a processing score above 70 percent will help you reduce the corn silage slump and the impacts it has on your herd.

Before we get CSPS numbers back, is there another way to know if we are correctly processing the corn silage? A new technique involving “floating” fresh corn silage is getting some attention, and it’s easy to find articles and images of the procedure online. The process is very simple and can be accomplished in the field, right at the chopper, but you will need a sample of fresh corn silage, a 5-gallon bucket and some water.

1. Fill the 5-gallon bucket three-quarters full with water.
2. Take a 32-ounce cup of fresh corn silage and pour it into the bucket of water.
3. Stir it around for a few minutes.
4. Sift out the fiber particles that float to the top.
5. Dump the water and be sure to save the kernels.
6. Inspect the kernels to ensure that most of the kernels are quartered. The old concept of “nicked” kernels being sufficient is now antiquated advice.

Monitor the back end

It is a dirty job, but someone really does have to do it. Manure can tell you a lot about how things are working inside the cow.

It’s worthwhile to consider a couple of tools that have been around for a few years.

The Penn State Particle Separator has been used for years to monitor fiber levels in the diet. The particle separator’s “messy” cousin, the manure screen, can tell you just as much, if not more. The true value of manure screening is monitoring over time and with ration changes. With the transition to new crop corn silage, you can see the impact of the new feed. Many times with new crop corn silage, you will see the kernel remnants in the middle screen and fiber changes in the various screens. Benchmarking your manure screens is a great approach because it will enable you to see what the rumen is doing and you can make ration adjustments quicker than if you use a paper-only approach.

While we are messing around with the manure, there is yet another tool that is underutilized, and that tool is fecal starch. Fecal starch testing is done at most commercial feed labs and can tell you a lot about kernel processing and starch digestion, so it can help you to confirm your CSPS scores and the level of starch digestion. Your goal should be to keep the fecal starch under 3 percent, even though you can commonly see the levels initially rise with new crop corn silage samples.

Aiding in the new crop silage transition

Some of the undigested corn can bypass the rumen and cause hindgut fermentation, which can lead to indigestion and rumen upset. The starch-digesting enzyme Amaize® and certain strains of Saccharomyces cerevisiae can assist in breaking down starch and maintaining a proper rumen environment.

Additionally, we know that soluble protein and ammonia levels are at lower levels in fresh corn silage. Products that assist in adjusting the rumen degradable protein levels can help jumpstart the rumen microbial production and assist in starch and fiber digestion. Optigen® can help fuel the rumen in the absence of good new crop soluble protein and ammonia levels.

Don’t feed it, but if you must…

Ultimately, the best way to reduce the fall corn silage slump is not to feed it. It may be frustrating to receive that advice, but it remains true. Starch digestion is often slow, and new crop corn silage should be given three months to properly ferment. Obviously, the longer the fermentation, the better, but there should be a plan in place to have a few months’ carryover of your corn silage crop.

When we must feed fresh corn silages, the tools discussed above can help to reduce the corn silage slump. Ask your local Alltech representative for more information on how we can help you to reduce the new crop corn silage blues.

Not sure who your local Alltech representative is? Fill out the form below to learn more.

[DUNBOYNE, Ireland] – Dairy producers strive for long-term production and productivity with their herd, right from the start, and the pre-weaning growth of a dairy calf is a good indicator. While diarrhoea is one of the most common antagonists in issues with poor digestion and weight gain in calves, supplementing with Bio-Mos® has been shown to enhance performance and improve gut health.

A recent meta-analysis conducted by Dr. Anna Catharina Berge of Berge Veterinary Consulting BVBA concluded that Bio-Mos® supplementation in milk or milk replacer increased daily weight gain in dairy calves. These trials revealed, on average, 0.14 pounds improved weight gain per head per day in pre-weaned dairy calves, which corresponded to 8.37 pounds increased weight for calves weaned at two months of age. The long-term improved performance in heifers with improved pre-weaning growth would be equivalent to 220 pounds more milk in the first lactation, generating additional farm income, and improving gut health and digestive function.

“The results are a significant improvement in average daily weight gain,” said Aidan Connolly, chief innovation officer and vice president of corporate accounts at Alltech. “This improvement leads to greater returns for the producer through enhanced milk production, health and development, and long-term productivity.”

The meta-analysis included 23 cohort studies performed in the U.S.A., the United Kingdom, Brazil, Chile, the Czech Republic, India, Japan, Peru, Poland, Spain, and Turkey between 1993 and 2012. Bio-Mos was supplemented at 2–10 grams per day, with an average inclusion of 3.8 grams per day. Twenty-one of the studies reported an increase in daily weight gain for calves fed Bio-Mos in milk or milk replacer compared to control calves.

For more information on Bio-Mos, visit http://go.alltech.com/bio-mos.