Traditionally, mineral supplementation has been achieved through the use of inorganic minerals. However, developing technologies have ushered in a new era in mineral nutrition.

The newest edition of the “Brazilian Tables for Poultry and Swine” verifies the efficiency of organic mineral supplementation in monogastric animals, with farmers starting to implement organic mineral nutrition and seeing improvements in efficiency and gains in performance. Today, we know that feeding the right form of mineral is key to optimizing herd performance, health and productivity.

Studies show that organic trace minerals (OTM):

• Offer higher bioavailability than inorganic minerals (Close 2006).
• Have high biological activity (Peters and Mahan 2004, 2014).
• Reduce concerns about negative mineral interactions (Peters et al. 2014)

Piglet quality starts with the sow

Switching mineral forms can have a significant impact on your sow productivity and your overall pig production. Sows transfer a significant amount of minerals to the fetus during pregnancy (Mahan et al. 2009), meaning that the gestation and lactation periods are crucial times in the sow’s productivity and in her piglets’ viability.

A study published in the Brazilian Journal of Animal Science found that sows given the organic form of trace minerals produced piglets with increased weight at birth and, after 21 days, higher iron content in the liver and blood.

“By supplying Bioplex® trace minerals, we are providing the sow with minerals that are better absorbed, which in turn makes the sow more productive, and more minerals are passed on to her offspring,” says Russell Gilliam, Alltech’s U.S. swine business manager. “The end result is that we are able to lower income cost in producing a weaned pig.”

A “more with less” approach

Alltech’s innovative Total Replacement Technology™ was developed in response to modern production and the mineral requirements that are now demanded by your herd. Alltech has proven that modern management of mineral nutrition can be carried out by the inclusion of organic trace minerals in the form of Bioplex® and Sel-Plex® at significantly lower levels than inorganic trace minerals while still improving performance.

Now more than ever, efficiency is a primary focus in the pig industry. Improper mineral supply can have major consequences for health and productivity and, as a result, come at a high cost.

I want to learn more about nutrition for my pig herd.

Winter has come to the world as it is known to the hardworking honey bee. “Game of Thrones,” the popular HBO series based on George R. R. Martin’s bestselling books, set in a harsh world, its characters struggling as they face hard truths, might be a fitting metaphor for what is happening in the kingdom of the honey bee. But this is no game.

The European honey bee, Apis mellifera, is the most economically valuable pollinator of agricultural crops worldwide. Bee pollination is responsible for more than $15 billion in added crop value in the United States. Especially dependent on bees are specialty crops such as almonds and other nuts, berries, fruits and vegetables. And there is the product of the bees themselves: honey.

“Sadly, when all of this started to happen back around 2005–2006 with the bees just disappearing from their hives, nobody knew what to call it, so the media latched onto something called CCD, or colony collapse disorder, and that’s just a misnomer,” said Michele Colopy, program director at the Pollinator Stewardship Council in Akron, Ohio. “It is not explaining the issue well enough, and we would like the media to stop using it.”

In fairness to the media, the term originated in the mid-2000s with the U.S. Department of Agriculture (USDA), where scientists were scrambling for an explanation. But the origins of the term hardly matters.

Beekeepers had awakened to a nightmare of sickened, even vacant, hives.

Think of their anxiety this way, suggested Colopy: “Honey bees are a beekeeper’s livestock, and they suffer under the same health stresses as any four-legged livestock that doesn’t have wings.”

What happened? As Colopy stressed, in recent years, it has become clear that no single factor is responsible. According to the USDA, research is beginning to strongly suggest that CCD “may be a syndrome caused by many different factors, working in combination or synergistically.”

As in the mythical “Game of Thrones,” the very real forces arrayed against the kingdom of the honey bee, the hive, have converged to lay siege in many guises and from many directions.

Some likely candidates have recently been identified. There remains speculation about additional culprits.

What we know about “colony collapse disorder”

According to the USDA, researchers have documented elevated pathogen levels, and a wide array of pesticides have been present in the wax and pollen in both CCD-affected and non-affected apiaries, with none linked definitively to CCD.

Pesticides

“The wax (inside the hive) holds onto pesticides,” said Colopy. “It is a sponge. So, when a pesticide is brought into the hive on pollen or nectar or on the bodies of the bees, the toxin in the pesticide stays active for a longer time because it’s in the dark — most pesticides break down in sunlight.

“But it’s not that we can suddenly open the hive to sunlight to change this, because the wax still holds onto the toxin and protects it,” she continued. “The toxin leaches through the wax.”

Beginning in 2015, beekeepers began to report more bee deaths in late summer than in winter. It was a troubling sign. Hives are expected to be stronger and healthier in warm weather and more stressed in the cold months.

“What is happening at the end of summer is the full effect of the pesticides,” explained Colopy. “They build up across the summer, and the bees are eating these toxins. This slowly kills off the adult foragers. Then the whole organism of the hive is thrown off because different bees have different duties, based on their age.

“If you suddenly have too many foragers dying and everybody gets shoved ahead in their duties, you start to throw off the life cycle of the hive,” she continued. “The queen’s reproduction ability declines; there aren’t enough bees to help raise the brood, so you begin to slowly lose the population, and this is where that so-called ‘colony collapse’ comes in.”

Mites

In addition to pesticides, infestations of mites have taken a toll.

Varroa destructor, a parasitic mite, propagates within the brood cells of bees. The mites can do serious damage to their hosts' health, latching on and feeding on hemolymph, insects' rough equivalent to blood. Bees are left with open wounds, making them susceptible to infection.

Adding insult to injury, noted Kentucky State apiarist Tammy Potter, is a finding that Varroa mites can introduce viruses — one, in particular — to honey bee colonies.

“Lake Sinai virus, named for a lake in South Dakota, is fairly new,” she said. “It has characteristics that look remarkably similar to what we used to call colony collapse disorder.

“Forty-six percent of our (Kentucky) apiaries have high Varroa mite counts,” continued Potter, referencing the most recent USDA Honey Bee Health Survey. “There was only one from this particular year that did not have a virus present. The other 23 did.”

Researchers and the USDA have urged a change in management strategy, including more frequent sampling.

“Given the biology of the Varroa mite, the best management practice is to sample your bees for mites four times a year,” said Potter.

In 2015, the EPA approved the use of oxalic acid (OA) as a Varroa mite treatment. Various studies have shown OA to be effective in a variety of climatic conditions with an efficacy as high as 97 percent in a broodless period.

But it’s far too soon to breathe easy. Researchers at Purdue University have discovered that a sister species of the Varroa destructor mite is “shifting from feeding and reproducing on Asian honey bees, their preferred host, to European honey bees, the primary species used for crop pollination and honey production worldwide.”

While Varroa Jacobsoni mites have not been found outside of Papua New Guinea, Purdue researcher Gladys Andino said vigilance is needed to protect European honey bees worldwide from further risk.

"This could represent a real threat,” said Andino. “If this mite gets out of control and spreads, we might have another situation like V. destructor."

The Purdue researchers note with caution that “V. destructor made the same host leap at least 60 years ago, spreading rapidly to become the most important global health threat to European honey bees.”

The Honey Bee Health Coalition, an organization of beekeepers, researchers, government agencies, agribusinesses, growers, conservation groups, manufacturers and consumer brands, is holding its first Mite-A-Thon in September. The event is “a national effort to collect mite infestation data and to visualize Varroa infestations in honey bee colonies across North America within a one-week window.” The Varroa monitoring data will be uploaded to www.mitecheck.com.

Continuing research also focuses on additional possible CCD factors, such as the synergistic effects of the Nosema fungus and pesticides, and of pesticides and other pathogens.

Monocultures

Even before CCD came along, one of the biggest challenges for native wild bees has been the agricultural specialization that has produced huge fields of just one crop: the monoculture.

The almond groves of California, for example, are a sea of blossoms in February.

"But for the rest of the year, there's nothing blooming," Claire Kremen, a conservation biologist at the University of California, Berkeley told NPR. "In fact, in places where we have very large monocultures of almond, we don't find any native bees anymore."

So honey bees must be trucked in from all over the country. And the industry's migratory characteristic may also contribute to the colony collapse problem.

“If you start in South Dakota and you take your bees to California, where there are also honey bees from Indiana, Kentucky and Texas, that virus can be spread,” said Potter.

Time is money, and this travel leaves little time to sample for mites, which can be a lengthy process. However, necessity has inspired invention, said Potter.

“There is a new tool on the market to help beekeepers quickly sample their bees,” she said. “I think you will begin to see a significant decrease in hive mortality.”

The Varro Easy Check tool uses an alcohol solution to remove mites from up to 300 bees at a time.

Forage land development

Working in combination with the impact of monocultures is the development of countryside and forests. Much pollinator habitat has been lost to urban and suburban development as well as surface mining.

“Many pollinators are adversely affected when large, intact tracts of habitat are broken up into smaller, isolated patches by road construction, development or agriculture,” observed a joint study by the Center for Biodiversity and Conservation at the American Museum of Natural History and the Greenbelt Native Plant Center. “These habitat fragments may not be large enough to meet all pollinator needs by themselves.”

Honey bees are left without the diverse sources of nectar and pollen they need to thrive when confronted with multiple factors known to affect their survival, growth and reproduction, the study concluded.

How can we help the bees?

What can be done to improve survival prospects for these industrious, socially sophisticated creatures and the human agriculture that depends on them?

A survey of its beekeeper members by the Honey Bee Health Coalition found a demand for companies to offer supplemental pollen patties that address “specific regional, seasonal, and/or life cycle challenges and objectives.”

They identified two primary drivers for beekeepers to feed protein supplements: “to stimulate colonies to produce more brood at certain times of year; and to offer nourishment when natural pollen flow is lacking.”

Initial trials of the Alltech supplement Bee Pollen-Ate® suggest a promising response.

“We’re increasing brood during low pollen levels,” said Kyle McKinney, Alltech’s crop science manager in Costa Rica. “It means the whole hive is active and healthy. When the queen lays the brood, the worker bees come in and start feeding the brood and building up the comb to protect the brood. We know with certainty that what we’ve seen in Costa Rica, during low pollen season, supplementing with Bee Pollen-Ate, we have a healthier and more active hive.”

Acting as something of a worksite food truck, the quarter-inch-thick patty is placed atop the comb where the bees are working.

“They come up and they feed on the patty and go back to work,” explained McKinney.

There are numerous feed supplements on the market, and many beekeepers make their own “patty” of supplements.

“I see about a 50-50 split between people who want to make their own patty using their own recipe versus people who want to buy a finished patty,” noted McKinney. “But even those who make their own are using our Bee Pollen-Ate as the protein supplement.”

McKinney’s research partner, Tyler Bramble, general manager of Alltech ruminant nutrition in Visalia, California, said it appears that many commercial companies making pollen substitute products are in a race to see who can pack the most protein into a bee supplement patty.

“I’m not convinced that more is always better,” he said. “I think you really need to look at the form and the digestibility. We see in livestock animals deleterious effects as protein levels become ridiculous. It costs the animal energy to process and get rid of all that extra protein.”

The distinction between the Alltech product and others, Bramble noted, is the particular expertise behind its development.

“With Alltech’s core competencies being animal nutrition and yeast fermentation, we understand all the different parts of a yeast cell,” he said. “That’s our business. We fractionate the yeast cell, and, because of our knowledge of the yeast cell and its various components, we are able to pull out protein, carbohydrate and nucleotide-rich portions of the cell. That enables us to make a designer pollen substitute.”

With McKinney in Costa Rica, where it is now winter, and Bramble in California, where summer is in full force, the two are teaming up to carry out continuous trials of Bee Pollen-Ate. Their findings are anticipated by spring of 2018.

A “what if” to ponder

But what if all of our best efforts fail to restore the honey bee population to levels required for crop pollination? One possibility makes the long, deadly winter of “Game of Thrones” seem springlike by comparison.

There is the prospect that in the not-too-distant future, farmers might not have to rely on declining bee populations. For example, researchers at Tokushima University in Japan have used the CRISPR gene-editing technique to produce seedless tomatoes, which do not require pollination at all.

If you’ve ever slathered your bread with rich Irish butter, you may have wondered if the Emerald Isle’s grasses impart some sort of magic to its grazing dairy cows.

And perhaps there is a sort of magic. We’ve put together four reasons why Ireland is a promised land for dairy cows, a place where blessings flow out to the world in the form of butter, milk, infant formula, yogurt and cheese.

1. The comfortable climate

Pack your wellies! There’s a reason Ireland’s rolling hills appear so green and lush.

Rainfall is common on the island. The east typically experiences 30 to 40 inches of rainfall per year, and the showers are even more abundant in the west, which receives between 40 and 50 inches. But the mountainous regions of Ireland top them all, literally; rainfall there can exceed 118 inches per year!

In the winter months, the average temperature ranges from 40 to 45 degrees Fahrenheit. Summers stay cool, with temperatures ranging from 57 to 61 degrees Fahrenheit. Despite the rain, the climate remains relatively comfortable for cows and farmers all year long.

2. The greener grass

Generous rainfall, mild weather conditions and rich soils contribute to an abundance of grass for pasture.

In Ireland, the dairy farming schedule is dependent on this grass. When cows calve in the spring, they eat as much grass as they can during their 300-day lactation period. More than 80 percent of Ireland’s agricultural land is devoted to pasture, hay and grass silage for this exact reason! The land area of Ireland is 6.9 million hectares, of which 4.4 million hectares is used for agriculture (DAFM, 2014).

3. A growing milk market

In 2014, the Irish dairy industry had an estimated value of €3.06 billion ($3.61 billion) in exports to 140 countries, and its milk production is expected to increase approximately 50 percent by 2020!

According to the Central Statistics Office in Ireland, 2016 domestic milk output checked in at 6,654 million litres, which led to the production of:

• 527 million litres, or 139 million gallons, of milk sold for human consumption.
• 198,700 tonnes (219,000 U.S. tons) of butter.
• 117,700 tonnes (129,700 U.S. tons) of skimmed milk powder.
• 205,000 tonnes (225,900 U.S. tons) of cheese.

There are approximately 139,600 family farms in Ireland. Although they manage only 1 percent of the world’s dairy cows, they are responsible for producing more than 15 percent of the world’s infant formula!

4. There is more than one cow for every four Irish people!

In 2016, the total number of dairy cows in Ireland hit a record high of 1.39 million cows. Comparing this to the population of Ireland of 4.773 million, this means there is just about one cow for every four Irish people.

Come see Ireland for yourself on our Great Green Getaway. U.S. dairy producers with a minimum herd of 50 cows are invited to enter our sweepstakes for a trip to Ireland during St. Patrick’s Day week 2018.

Sources

CSO statistical release, 28 July 2017

http://www.cso.ie/en/releasesandpublications/er/ms/milkstatisticsjune2017/

Irish Meteorological Service. July 2017. Climate of Ireland. Retrieved from https://www.met.ie/climate/climate-of-ireland

The Irish Times. March 7, 2015. There’s one cow for every four Irish people: the milk facts. Retrieved from https://www.irishtimes.com/life-and-style/there-s-one-cow-for-every-four-irish-people-the-milk-facts-1.2129270

World Trade Center Dublin. March 16, 2016. The Emergence of the Irish Dairy Industry: a Success Story or a False Hope? Retrieved from http://wtcdublin.ie/the-emergence-of-the-irish-dairy-industry-a-success-story-or-a-false-hope/

Peer into the abode of today’s modern millennial couple, and there’s something striking: the baby bassinet is missing and in its place is a perfectly plush dog bed.

Millennials, as the largest consumer group, are the ultimate game-changers for pet food companies and product retailers.

Millennial family portraits: Pet parents and the pooch

The modern millennial family is being formed with pets instead of, or well before, the much later addition of children. As such, for pet companies and retailers, the ubiquitous “millennial mom” being chased by most major mainstream brands today is instead the powerful pet parent.

These pet parents are more than willing to reach deep into their bank accounts for their beloved beasts. But they also possess similar characteristics to the traditional millennial mom: a demand for convenience, transparency and sustainability in the products they purchase.

New to the pet-purchasing scene: Socially conscious spenders

Now that millennials have reached the point in their lives to be engaged consumers with expendable incomes, big brands’ boardrooms are paying heed to the group’s demands and desires. While there is much negative stereotyping about the generation, millennials have matured into a group of socially aware consumers. With this comes a demand that the brands that they purchase are transparent about every aspect of their business, from the types and sources of their ingredients to the manufacturing processes and even sustainability initiatives in place at the corporate level.

Small brands are in the spotlight

The distrust that millennials have for large corporations has led to an embracing of smaller brands with a real message that feels personal to them. This is particularly evident in regard to ingredient sourcing and sustainability initiatives. Small brands have made a name for themselves by displaying their quality ingredients with transparency. Similarly, brands that tout the sustainability of their foods’ ingredients receive high marks from this generation.

In the past, many of these smaller brands were ignored by the big players in the industry, but now those brands are prime targets for acquisition. Recognizing what these small players are doing right but realizing the inherent challenge for a large firm to morph into this new image is the precise reason behind these purchases.

But a strong story with healthy, wholesome ingredients is not enough for millennials. Convenience is critical.

Special delivery for Fido

The online market for pet products has exploded recently. PetSmart purchased chewy.com in the largest e-commerce acquisition to date in order to rev up its lagging presence in the online space. Amazon Prime has set the expectation, and now today’s busy consumer can’t understand not having the option of fast, free delivery to their door. Brands without a value proposition for online convenience will be left behind.

Four-legged social media stars

Finally, companies must learn to embrace the new normal of pets as children. Social media is where we see the strongest evidence of the role that pets play in people’s lives. Pets themselves are commanding their own online “pack” of followers on Facebook, Instagram and Snapchat. The Huffington Post even published an article in March 2017 listing the best dogs to follow on Instagram. Obviously, the dogs are not posting, but their “parents” are, and these adorable pets and their antics are winning quick acclaim with generations that have grown up with cruising cat videos on YouTube.

Just as grain-free sparked a revolution in the pet food industry, now millennials are fanning the flames of a new normal.

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Is delicious pet food only about choosing the best ingredients? No. There are many factors that affect palatability in dogs and cat foods.

Pet foods have many goals. At a basic level, they need to meet nutritional requirements. Beyond that, they should include ingredients that differentiate the product on crowded store shelves and echo a brand philosophy to which consumers, particularly millennials, feel connected.

But, none of this matters if dogs and cats don’t like it.

Choosing ingredients is the easy part. Ensuring the food tastes amazing to Fido and Kitty is a whole other science that involves parameters such as:

• Texture
• Shape
• Hardness
• Surface area
• Moisture
• Particle size

Dogs and cats have different opinions on what makes their food taste good.

The cat’s cravings

Cats prefer a slightly acidic taste and a lower moisture content. As carnivores, it’s in their nature to have an affinity for animal protein, which is an excellent source of amino acids, contributing to an overall acidic taste. Organic acids, such as citric acid, can also be used as a finishing touch to provide cats with that “meow” factor!

The pooch’s preferences

Dogs prefer a product with a higher moisture value, around 8–10 percent. Historically, they are obligate omnivores with a diet comprised of animal proteins as well as high moisture content fruits and vegetables.

Dogs also enjoy a slightly sweet flavor. Using ingredients with a slightly sweet taste, such as a nutrient-dense yeast extract, can have a big impact on boosting palatability.

Cats and dogs agree on food shapes

We used to believe that cats and dogs differed greatly in their preference of food shape, too, but recent studies have shown that dogs and cats are surprisingly similar.

Dogs prefer round discs, while cats prefer ovals. This could be due to the fact that a round disc or oval shape has more surface area to distribute the delicious fats and coatings applied to the exterior of the kibble.

Kibble: Chunky and crunchy

The hardness of the kibble is important as well. Both cats and dogs appreciate a crunch, yet the kibble has to break into chunks in their mouth rather than flake apart.

No cat or dog wants to eat a kibble that has a grainy texture or an uneven texture. Small particle size is a key factor to developing a smooth kibble.

Fresh is best in pet foods

Lastly, make sure food is, and stays, fresh. Dogs and cats can detect rancidity or spoiled ingredients from a mile away. Using a natural antioxidant, such as mixed tocopherols, goes a long way in ensuring fats don’t deteriorate during the shelf life of the product.

Ironically, dogs will happily seek out whatever the neighbor’s dog has left on the lawn or sniff around the kitchen garbage. But, when it comes to what’s in the food bowl, our best friends demand the best to satisfy their exceptionally sophisticated palate.

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How many of us floss daily?

How many of us are brushing our pet’s teeth?

We have good intentions. We buy the floss for ourselves but don’t use it regularly. We may even add the doggie dental care kit to our Amazon order, but we have a hard enough time taking care of our own teeth (ahem, unused floss). In fact, according to Packaged Facts, only 20 percent of dog owners and 11 percent of cat owners brush their pet’s teeth at all!

If you’re on the receiving end of doggie affection, you know why this is important. No one likes bad breath, even if the offender is your best fur friend.

Pet maladies: A malodorous cue?

But bad breath is more than just offensive to us; it can be an indication of a more serious health issue.

According to Banfield Pet Hospital’s State of Pet Health Report 2016, 76 percent of dogs and 68 percent of cats are affected by dental disease, which not only impacts the teeth, gums and mouth, but can potentially affect a pet’s heart, liver and kidneys.

Brushing and professional teeth cleaning are key to oral and dental health, but treats, chews and supplements can also play a significant role. Building a pet’s immune defenses with the right nutrition is critical for oral health.

Perfecting your pet’s pearly whites

The form of the pet diet is important. Hard kibble cleans teeth better than wet foods.

Composition is also critical. Nutrition influences tooth, bone and mucosal integrity, oral bacterial composition, resistance to infection and tooth longevity.

A nutritionally adequate diet will prevent any mineral or vitamin deficiencies, but we can do better. By providing our pets with ingredients that support immunity, prebiotics like Bio-Mos® and probiotic bacteria help support gut health and nutrient absorption. Bio-Mos is designed to feed the gastrointestinal tract, promoting beneficial bacteria and building natural defenses.

Feeding organic trace minerals like Bioplex® and Sel-Plex® ensure our pets absorb the minerals in a way that their bodies can fully utilize. Immunity starts in the gut, but it affects a pet’s entire body, including its oral and dental health.

Place that Amazon order for a doggie or kitty dental care kit, but don’t ignore what’s going into the food bowl. Supporting immunity from the inside out through nutrition is a crucial step in keeping breath fresh and preventing dental disease.

Your pets will appreciate it, and the resulting kisses will be a little more pleasant for you, too!

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The buzz of the beehive is growing silent. A mysterious grim reaper has been killing off large percentages of the insect population responsible for the majority of the food we consume.

Colony Collapse Disorder is the term scientists have coined for the little-understood cause of an approximately 30 percent annual reduction in the number of bees on our planet. The trigger of such “beecide” may be multifactoral, possibly involving pathogens, parasites, pesticides and environment stressors such as climate change and habitat loss.

The potential impact of this perplexing problem could sting much more than the bees’ own memorable pokes. Seventy-five percent of all cultivated crops are unable to produce without pollination!

Morehead State University in Kentucky is already beginning to feel that sting. The university is home to Browning Orchard, a 250-acre farm that produces 23 varieties of apples. The apples are processed by several local cider mills, are used by the University of Kentucky for hard cider research and also serve as the centerpiece of the university’s much-loved Apple Festival held each autumn.

“We use bees to pollinate our trees. For the past three years, we have lost some of the bees — not all of them, but some of them,” said Amy Poston Lentz, then-horticulture supervisor in the Department of Agricultural Sciences at Morehead State University and team advisor to the 2016 Alltech Innovation Competition undergraduate winners.

Each time they experienced bee losses, a new hive needed to be started, driving up their production costs at the orchard.

So they decided to craft a plan B.

The Pollinizer: A drone alternative to real bees

An undergraduate team of Morehead students, representing a collaboration between the school’s agriculture and business programs, designed “The Pollinizer,” a drone attachment capable of mimicking the pollination activities of a real bee.

Not only does The Pollinizer present an alternative should worst fears be realized and more of the bee population is decimated, but the team noted that their drone attachment can increase and improve yield by working in conjunction with the bees.

After winning first place in the undergraduate category of the 2016 Alltech Innovation Competition in Kentucky, the student team — Jordan Bach, Tessa Combs, Adam Lyon and Dalton Shepherd — is still considering their next steps but plan to pursue a patent. The team is being advised by Janet Ratliff, assistant professor of management/entrepreneurship, director of the Center for Economic Education and advisor for the student organization Students in Free Enterprise at Morehead State University.

Most importantly to them, they say, is the impact this project could have on their school’s orchard as well as the surrounding community. Morehead State University is located in eastern Kentucky, a region that has been hit hard economically by the decline of coal. Lentz noted that reclaimed mountain tops in the area are now becoming apple orchards and small farms.

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There’s a tremendous amount of money invested in silage, from growing the crop to storing it. Yet shrink on dairies ranges from 15 to 25 percent, if not more! This level of shrink can equate to a loss of 15 to 25 cents for every dollar invested in putting the silage up.

Where silage shrink occurs

The largest amount of shrink and reduction in quality seems to occur at the top of the silage pile. This part of the pile is the worst in terms of packing density. It’s also exposed to the most oxygen. This enables oxygen to easily penetrate the silage, creating an environment for molds and yeast to replicate, which will lead to deteriorated silage (aka, top spoilage).

Generally, top spoilage represents about one-third of what was once good silage. For example, 4 inches of top spoilage was originally 12 inches or 1 foot of quality silage. It is best not to feed the spoiled portion of the silage in order to minimize the risk of costly health and production challenges. This part of the pile, therefore, should be a major focus in terms of management.

Making silage is easier said than done and is much like piecing a puzzle together. Since there are so many pieces to the silage puzzle, it can be difficult. The key factors include making sure forages are harvested at the correct maturity and moisture, proper packing, excluding oxygen and managing the face at feed out. In terms of top spoilage, all these areas can be a factor, with packing density and excluding oxygen being most important.

Cost-effective ways to improve silage management:

• Silage packing density should be 15 lbs. DM/ft³ or more.
• Typically, a ratio of one pack tractor to one harvester will achieve 15 lbs. DM/ft³.
• Design piles to allow for more packing on the side or shoulder of the pile.
• Use a temporary cover overnight or in between any breaks in harvest.
• Utilize a mold inhibitor on the silage surface prior to covering.
• Cover the pile as quickly as possible once harvest is complete.
• Seal plastic edges and seams with gravel bags or dirt to prevent airflow under the plastic.
• Only unseal what you need for the day to limit the oxygen exposure of the silage.

Higher quality silage with lower shrink will benefit your bottom line. Given that silage is a major component of the cow’s diet and impacts the types and amounts of other ingredients in the diet, taking steps to improve silage management practices and specifically focusing on reducing top spoilage can have a big impact on reducing silage shrink and improving quality. There is a lot of money invested in putting up silage, so it is crucial to make sure that it is put up correctly to minimize shrink, retain nutrients and ultimately preserve that investment.

An interview with Dr. Karl Dawson

The following is an edited transcript of our interview with Dr. Karl Dawson, vice president and chief scientific officer at Alltech. For Karl’s full bio, click here.

Before you joined Alltech, you were head of the University of Kentucky (UK) animal science department for 20 years, and you still serve as an adjunct professor with UK. You have a unique insight from being in the private sector business as well as academia. How do we interest the next generation in ag science?

That’s a real interesting question because there’s been a gap develop between what we call agriculture, particularly animal science, and the technologies that are being developed today. As a scientist, I think the technologies are really exciting, but sometimes it’s kind of hard to get the next generation, particularly the people from rural America and agriculture, to get excited about the same things. We have a lot of unique technologies. We talk about molecular biology and the things we can see with molecular biology; most farmers I talk to, most siblings from farmer’s kids that are coming off the farm, do not have a good understanding of what those things are, so we have this gap that we need to fill.

What we’re finding is that often times just the university education is not enough to give them confidence and the ability to lead in agriculture through using these technologies. One of the things we are doing right now is looking at a lot of outside programs that go beyond their degree and beyond academic training to see how we can interest students in doing those things. It starts at a very young level. We have programs that are set up at the elementary school. On our staff in research, we have two liaisons that do nothing but interact with college, high school and elementary students to get them interested in what we’re doing in terms of science and how that can be incorporated into farm life.

Other programs that are very interesting are those that are competitive. We have an innovation program, where we have students build projects that will become a business plan themselves, taking technology and applying it to specific problems. It’s an outside-of-the-classroom activity that gets students excited. There is nothing like seeing them light up when they win an award for a project.

We have, at a higher level up, a career program. This is built around the idea that students who come out of college need that little extra boost and piece of information. We actually take students and embed them into the business situation and, in some cases, right on the farm so they get to know the animals and what the farm business really looks like. This is before they go out and try to set up their own business or work within a commercial business.

The take-home message is that we really need to give experience, hands-on experience outside of the classroom. That’s really becoming almost a requirement for our people as they move into our business.

That certainly makes sense. As a professor, and on the Alltech side as the head of our research program, are the up-and-comers that you’re seeing from an agriculture background, or do they come into agriculture by chance because of other things they are interested in?

You run into both kinds. I came up through the agricultural school system, so I’m used to land-grant universities and the kids that came from the farm. But I actually looked at the list of students that were competing in our Young Scientist awards, and I asked them: How many of you are from an agriculture background? Of the 15 sitting in the room, only two raised their hands. You know, the kids are gravitating to agriculture because they see some of the applications that can take place.

It’s almost reverse of what we think. We think about children leaving the farm and never coming back. These are students coming in from urban environments, from science environments, and wanting to understand what’s going on on the farm.

That’s encouraging and fascinating.

It really is. You think about that and it really reflects the excitement of agriculture research and application technology. I kind of coined a term I’m going to use in my presentation here talking about the “farmer technologist”; that is the kind of people who will probably be our leaders in the future.

Dr. Karl Dawson spoke at ONE: The Alltech Ideas Conference. Audio recordings of most talks, including Karl's, are now available on the Alltech Idea Lab. For access, click on the button below.

Beat heat stress

With the European summer only weeks away, it is time to start preparing management strategies for heat stress. This issue has traditionally been associated with the hotter regions in Europe, such as the Mediterranean. However, as climate change continues to impact temperature, European countries deemed to have a more temperate climate must also be aware of and prepare to take action against heat stress.

When cows are suffering from heat stress, there are several indicators that can be observed. Often, the first indicator is a reduction in dry matter intake. This can be followed by a change in behaviour, combined with quickened breathing and excessive panting. This leads to difficulties in maintaining efficient rumen function, which results in decreased milk production and longer periods between conception. The cow’s maintenance needs will also increase, as the animal can be at greater risk of contracting diseases, such as subacute ruminal acidosis and laminitis. All of these negative heat stress effects will lower a farm’s ability to maintain efficiency and profitability.

Don’t let your profits dry up this summer!

Follow these top tips to combat the effects of heat stress on your farm.

1. Water management

As temperatures increases, so does the cow’s water intake. However, a large volume of water is lost through increased urinary excretion, sweating and respiration. Therefore, water requirements for lactating cows can increase by 10 percent as temperatures move from 15 degrees Celsius to 26 degrees Celsius. The need for more water will increase as milk production rises and as temperatures rise above 26 degrees Celsius.

A cow’s water intake can be improved by:

• Locating water troughs in shaded areas.
• Ensuring there is an adequate supply of fresh water at the trough.
• Cleaning water troughs regularly.
• Providing sufficient space for the cow at the water trough; there should be a minimum of two linear feet (0.61 metres) per 15–20 cows.
• Cooling the water trough by adding shade.

2. Forage management

It is very important to identify forages that are highly digestible to use during heat stress. This will help maintain intake and energy levels. Ensure a forage’s quality is not compromised by managing the silage face to minimise secondary fermentation.

When packing the silage, make certain that it is tightly compressed and covered sufficiently to avoid spoilage. Remove 6–12 inches of silage from the exposed face of the silo on a daily basis. This will help to keep the silage fresh and will prevent heating.

3. Feeding management

As the temperature and humidity increase, cows will change the time they feed to a cooler period of the day. A greater proportion of the feed should be provided later in the day, when the temperature has dropped. This will help to avoid secondary fermentation and drive consumption.

Three to four hours after cows feed, they will experience excess heat production due to the digestion process. By moving the feeding time to later in the day, the cow will have the opportunity to digest the food when the temperature is cooler. This allows the increased internal heat production to be more tolerable for the cow.

At the end of each day, it is important to clean out feed bunks. This will help to keep the feed fresh and will reduce the possible effects of heating or spoilage as well as lower the risk of secondary fermentation.

For more information please contact acasey@alltech.com