In the dairy industry, successfully implementing solutions that “kill two birds with one stone” requires innovation and usable data. Finding ways to reduce the carbon footprint on dairy cattle operations while also maintaining high milk production is just that kind of situation.

It is important to understand that dairy production is on a continuous path of growth. Some insightful data provided by the IFCN shows that global milk production is projected to increase by 35% between 2017 and 2030. This level of growth is promising for the industry but will also present many challenges and raise questions about our ability to provide more with fewer resources while adopting practices that are environmentally sound. To top everything off, all of this must be achieved while also continuing to increase transparency for consumers about how their milk is produced.

The main question is: Can we reduce the carbon footprint of milk while also improving our production and profitability?

Greenhouse gases have been a trending topic among consumers for several years, and this topic is now resonating more with dairy farmers across the world, as new regulations and initiatives are being presented. To achieve reduced emissions, we must look at ways to optimize production — including via nutritional solutions, which will play a very big role as we go forward.

Dairy producers can utilize nutritional solutions as tools for reducing methane emissions from dairy cows, but technologies that offer environmental benefits cannot compromise on animal performance, as doing so would mean requiring more animals to meet the growing demand for food. However, before looking to implement any of these solutions, dairy producers will need to measure their carbon footprint.

TOOL ONE: Alltech E-CO₂

To successfully reduce our greenhouse gas emissions, we must first know where these emissions come from. Analytical services, such as Alltech E-CO₂, identify and quantify these hotspots through accredited environmental assessments. Over the past 10 years and more than 10,000 assessments, Alltech E-CO₂ has found that the two largest sources of emissions on dairy farms are enteric emissions (i.e., methane from the rumen) and feed use. Together, these two sources contribute more than 60% of all emissions on dairy operations. These sources relate to rumen health and an animal’s ability to best maximize the feed it is being fed. By ensuring the production of a healthy and productive cow, we are helping operations improve their production efficiency while also enabling energy to be utilized for milk production and regular body maintenance, rather than being wasted by fighting health challenges. This type of information is critical for identifying targeted solutions that will enhance our methane mitigation strategies.

To successfully reduce a farm’s carbon footprint, we must look beyond one gas in one area and consider the balance of emissions across the entire farm. A lifecycle observation is one way of doing that, and it’s all about identifying opportunities to reduce waste and improve farm efficiency, which will translate to more money for the producer.

Learn more about Alltech E-CO₂ here.

Read on to learn more about two nutritional solutions that work to target the areas where there is room for improvement, as identified by Alltech E-CO₂.

TOOL TWO: Optigen^®

Optigen is a feed ingredient backed by years of robust research data that works to support production efficiency and sustainability. Optigen, a concentrated source of non-protein nitrogen, releases nitrogen into the rumen in a slow-release form. This provides a sustained release of ammonia in the rumen in sync with fermented carbohydrate digestion, thus allowing for efficient microbial protein synthesis in the rumen.  

In order to gather clear evidence that shows how we can use feed strategies to reduce our carbon footprint, the FAO developed a standard guideline for the environmental performance of feed additives in the livestock supply chain. These standards recommend the use of data from meta-analyses and life cycle analyses. Meta-analyses make it possible to combine data from years of multiple studies to arrive at an evidence-based conclusion by using comprehensive statistical procedures. Life-cycle analyses allow us to quantify the greenhouse gas emissions along the entire supply chain or in the production cycle of a particular product. Combining these two approaches demonstrates how feeding technologies can contribute to the reduction of greenhouse gas emissions and/or better sustainability credentials.

Included here is an example of a meta-analysis of Optigen. The data from this meta-analysis indicate that, over the course of around two decades, research has shown that using Optigen is associated with a 23% reduction, on average, of plant protein sources in the diet. Soybean meal, specifically, can be reduced by about 21%, and an increase in feed efficiency of around 3% has also been documented. Additionally, diets that include Optigen and use reduced amounts of plant protein sources have been shown to improve nitrogen utilization efficiency by 4%, leading to a 14% reduction in the total carbon footprint of the diets of animals used in milk production.

 Read the full meta-analysis here.

TOOL 3: Yea-Sacc^®

There are some products on the market — like yeast cultures — that can help improve production efficiency while also reducing the carbon footprint of an operation. Yea-Sacc is a yeast culture based on the Saccharomyces cerevisiae strain of yeast. Yea-Sacc modifies rumen activity by supporting a consistent improvement in the growth and activity of lactic acid-utilizing bacteria, which helps stabilize the rumen pH. At the same time, it also works to improve the digestion and utilization of nutrients. Thanks to these types of improvements, cows can absorb more nutrients for higher milk production.

Utilizing a meta-analysis approach once again, a collection of 31 studies has shown that feeding Yea-Sacc to dairy cows can lead to an increased milk yield of 1 kg/head/day, on average, and can reduce the carbon footprint and nitrogen emission intensity by around 3% and 5.4%, respectively. These numbers demonstrate that it is possible for milk production efficiency to increase and for the carbon footprint and nitrogen excretion intensity to decrease simultaneously.

Explore the additional benefits of Yea-Sacc here.

At the beginning of this blog, we posed a question: Can we reduce the carbon footprint of milk while also improving our production and profitability? With proven tools like the ones outlined here, the answer to that question is yes: It is possible to reduce the carbon footprint of dairy production and to improve our economic returns and performance at the same time. Based on the data compiled in various meta-analyses, it is clear that there are feeding solutions on the market that farmers can use to reduce their emissions and increase their productivity and profitability in conjunction with nutritional strategies that will help improve production efficiency in dairy systems.

I want to learn more about nutrition for my dairy.

While your average person is still snuggled underneath their blankets in the early morning, Corne VanDenAkker can be found in his barn, tending to the task of milking his herd of cows. There, he reflects on his relationship with farming, which is rooted in a tradition going back almost forty years, beginning when his family made the move from their homeland in Holland to their current homestead in Canada. Upon making the choice to continue this farming tradition, VanDenAkker began farming full-time on his own land and tending his herd after earning a degree from the University of Guelph. Since then, he has grown his herd to over 100 head, added milking robots to modernize his operation, and is continuously seeking how to become a better, more efficient and sustainable farmer.

Through his years of experience, VanDenAkker knows the importance of being cognizant of what goes into his dairy cows in terms of what they eat and the balance of nutrients required to maintain his herd health and optimal milk production. However, he was unsure if he would be able to support his herd with the yields from his own fields. 

Everything we grow goes into our cows

“Everything we grow goes into our cows,” VanDenAkker noted when discussing the 250 acres of corn that is farmed and destined for his own silage. “I didn’t know if I could feed them enough to support the milk.”

VanDenAkker has long used Alltech products such as Yea-Sacc and Optigen in his livestock feed, and five years ago, he was introduced to Grain-Set, an Alltech Crop Science product geared toward grain crops. He began applying it on 40 of his silage corn acres, and over the years since, he has seen consistent results at every harvest. 

“Year after year, we are seeing improved cob fill and an increase in the number of bushels we are getting from those fields when compared to the untreated area,” VanDerAkken said, adding that his average increase is more than 10 bushels per acre.

This crop yield increase is formidable, but the data that really impressed VanDenAkker came after he began feeding his Grain-Set-treated corn silage to his cows. 

“They increased their milk production when we switched,” he said. “I saw a trend in the increase but couldn’t be sure (that it was totally related to Grain-Set).” 

Backed by Science

VanDenAkker’s curiosity about the results prompted him to dig deeper into what he was seeing, and he decided to send samples of both his treated and untreated corn silage for analytical testing. The results spoke for themselves: The Alltech Crop Science-treated corn silage showed a 5.8% increase in neutral detergent fiber (NDF) digestibility. This meant that the dairy cows were getting more energy and taking in more nutrients from the feed, allowing them to not only increase their milk production but to also have more balanced rumen health. These improvements help increase farmers’ profitability and make their systems more efficient.       

What is the science behind these results? Simply put: nutrigenomics. Gene expression helps corn silage crops better withstand environmentally stressful conditions, like drought or overly wet soils, and both biotic and abiotic stress. The plants respond by inducing their own resistance to these stressors and improving their own performance.  

Based on these results, VanDenAkker is enthusiastic about his plans to continue using Grain-Set on his silage corn. When asked about the difference he has seen in his cows, VanDenAkker smiled pragmatically and said, “I feed the cows myself, and I can see the results for myself. They are eating better and getting what they need from the feed. I always had good cows, but they are very decent now.”

What is Grain-Set?

Grain-Set is a unique blend of micronutrients and fermentation products and is specifically formulated for cereal, grain, forage and oil crop production.

• Provides nutrients essential for plant metabolic processes
• Increases grain weight and yield
• Optimizes crop uniformity
• Improves grain fill and quality
• OMRI-listed for use in organic production

Have a question? Contact us!

People interpret sustainability in different ways. Hence the uncertainty and divisiveness the topic can create in discussions. In contrast with other industries, the agri-food sector has the unique position of being a solution provider when it comes to mitigating emissions and supporting biodiversity in our local environments. Animal feed is integral to profitable and efficient dairy and beef farming. Therefore, feed production has a crucial role in how we lower the environmental impact associated with the food system.

Strengthening the links in our chain

COVID-19 has emphasized the need for such resilient food systems. Feed production capacity is directly correlated to the amount of food available for human consumption and, indeed, general food security. Alltech’s experience across 128 countries finds that sustainable and efficient feed supply chains are relevant to small-scale livestock production all the way up to some of the world’s largest integrators. A growing challenge for the feed industry is competition with humans for similar feed sources. This challenges the feed additive inclusion to improve rumen efficiency and exploration of bespoke feed ingredients that only ruminants can utilize. Sustainable animal feeding has and is being practiced. Through Alltech’s unique network of eight Alltech IFM™ (in vitro fermentation model) labs around the world, we can verify in greater detail diet efficiency and where scope exists to lower emissions and improve producer profitability. 

Can you verify that?

It is no longer sufficient to simply claim a low carbon footprint for your livestock production system or animal feed. This needs to be supported by repeatable, measurable and verifiable evidence. Alltech E-CO₂ has developed the Feeds EA™ model to help feed manufacturers and producers globally measure and lower the carbon footprint of their feed. Feeds EA measures the environmental impact of feed production at the feed mill level by assessing the effects of existing compounds or blends. This is determined by calculating greenhouse gas emissions from production, cultivation, processing, energy utilization and transportation in feed manufacturing. Feeds EA™ can calculate emissions from a database of more than 300 ingredients, including raw materials, soya products, byproducts and additives.  

In reducing food waste through circular agriculture-type initiatives, we can be confident about the resilience of our food production systems to embrace more efficient resource utilization. This is exemplified in initiatives such as supplementation of byproducts to ruminants and closing nutrient loops. By lowering food loss and waste in our livestock production systems in a verifiable way, we can continue to make a strong case for the sustainable solutions our industry offers in slowing the pace of climate change.

Mitigating waste

Precision agriculture and the application to animal nutrition has been proven in recent Alltech meta-analyses on dairy (Salami et al., 2021) and beef research (Salami et al., 2020) to lower environmental impact through improved nitrogen utilization in ruminant systems. Optigen® supplementation through dairy diets was shown to:

• Improve nitrogen utilization efficiency in dairy cattle by 4%, thanks to better nitrogen capture in the rumen.
• Reduce manure nitrogen excretion by 12–13 g of nitrogen/cow/day.

This data suggests, for example, that the use of Optigen could reduce the annual manure nitrogen excretion from the U.S. dairy sector by an average of 51,509 metric tons of nitrogen based on the annual milk output.

Simply put, this approach is trying to provide ‘the right amount of nitrogen, at the right time, in the right place’ to help in reducing waste on farms. Results from the meta-analysis also showed that the use of Optigen in dairy diets resulted in a carbon saving of around 54 g of CO₂e per kg of milk. When extrapolated to the annual milk output of the German dairy sector, for example, this would be equivalent to a carbon emission reduction of 1.8 million metric tons of CO₂e. Such a carbon saving represents 16% of the entire reduction target for German agriculture by 2030.

A simulation analysis based on the results of the meta-analysis indicated that feeding Optigen to 1,000 dairy cows would:

• Increase income over feed costs by $18,000.
• Reduce the carbon footprint of the herd by 647 metric tons of CO2e. That carbon reduction is the same as taking 424 cars off the road or 436 houses’ use of electricity.

The meta-analysis on beef research highlighted how the partial replacement of vegetable protein with Optigen exhibited a consistent improvement in the liveweight gain and feed efficiency of beef cattle. The many positive effects included an average higher liveweight gain (by 8%) and better feed efficiency (by 8%), with the inclusion of corn silage enhancing the effects of Optigen.

A simulation analysis based on these benefits indicated that feeding Optigen to gain 440 lbs. in 1,000 cattle would:

• Reduce the time to slaughter by 9 days.
• Reduce feed costs by $18,000.
• Support a reduction in the carbon footprint of the beef unit by 111 tons of CO₂e. That carbon saving is the same as taking 73 cars off the road or 75 houses’ use of electricity.

Sustainability does not have to come at a cost

Lowering the environmental impact from animal feed does not imply lowering revenues for food system stakeholders. From large dairy farms in the U.S. to the 300 million dairy cows predominantly spread across small farms in India, Alltech has firsthand experience of how sustainable solutions have become the non-negotiable in animal nutrition. Profitable farming understandably leads this agenda. With animal feed typically representing the most significant variable cost in producing animal products, there is a business responsibility to ensure we minimize food loss and waste.

Animal feed production has humbly underpinned the food system that has enabled global population growth over the last 150 years. It is now time to recognize this unique contribution and how it also serves in discovering and implementing technologies that lower the environmental impact of animal products and support the circular economy.

Considering sustainability efforts need to make both environmental and economic sense, don’t miss our related blog 6 tips to stretch protein supplies and lower your feed costs.

I want to learn more about ruminant production.

We all know that 2020 proved to be a roller-coaster year for commodity markets, and as we have seen over the past number of weeks, 2021 appears to be following a similar track. Grain markets rallied through the end of last year, and due to the poor availability of supplies globally, prices are continuing to skyrocket. This is happening against a backdrop of a macro-environment impacted by a weakening U.S. dollar and China ramping up its soybean imports. Considering these factors, how do we address the key challenges of mitigating risk and remaining financially and environmentally sustainable while optimizing cattle performance?

Overcoming the protein challenge

To sustain profitability, dairy and beef producers need to examine their feed management and nutritional applications. By using good-quality forage, supporting rumen health and using a tailored ration formulation, producers can cut back on their losses and keep their operations running more efficiently — thereby resulting in potential cost savings. This organizational agility is of paramount importance to overcoming the protein challenge.

Forage quality

With the continual rise of corn and soybean prices, producers should make the most of cheaper high-fiber feeds, especially forages. Plan to make the highest-quality forage possible, since this is a major component of the slowly digestible part of ruminant diets. Forage is the most variable feed ingredient in terms of its digestibility and nutrient composition, and it comprises a greater proportion of the ration than any other feedstuff. High-quality forage is more digestible, so you will be able to feed more of it. Rumen health and productivity will improve with the use of high-quality forages, and as such, forages can influence feed efficiency in dairy and beef cattle through the maintenance of a desirable rumen environment.

Support the rumen

There are several elements to increasing feed efficiency in ruminants, but one of the most important is to use the rumen to its full potential by supporting the activity and growth of rumen microflora. This enables dietary nutrients to be extracted from the diet as efficiently as possible. The nutrients provided to the rumen microflora must be well-balanced in terms of their fermentable energy and protein supply. Fermentable protein nutrition must be specifically adapted to maximize rumen microbial population activity and growth, as different populations have different requirements in term of how nitrogen is supplied.

Wasted energy means wasted profits

For years, nutritionists have overfed crude protein to meet the amino acid requirements for their desired milk yield or daily liveweight gains. Besides the significant increase in input costs, this also results in poor nitrogen efficiency and, subsequently, higher nitrogen excretion, which is detrimental to both the environment and the producer’s profits. The dairy cow inherently suffers as a result of poor nitrogen efficiency, since excessive nitrogen is converted first into ammonia and then into urea — which is partially recycled, but the vast majority is excreted. Ultimately, there is an energy loss associated with this process due to the detoxification of ammonia into urea. This energy cost comes at the expense of productivity and biological functions. The energy required to excrete excess nitrogen in a dairy cow is equivalent to up to 2 kg (4.4 lbs.) of milk and can lead to:

• Body condition loss
• Increased blood and milk urea levels
• Issues with reproductive performance

Lower protein doesn’t have to mean lower performance

With the tightening of global protein supplies, producers may face a shortage later this year and will need to stretch their existing stocks. But what if lower-protein diets could be fed while still maintaining performance? The possibility to increase nitrogen efficiency using Optigen®, a non-protein nitrogen technology from Alltech®, pushes the boundaries of protein nutrition.

Nitrogen from Optigen is more efficiently captured by rumen bacteria and is transformed into additional microbial biomass — so, why couldn’t the total dietary nitrogen supply be reduced? Researchers from Penn State University1 have looked at dairy cattle ration formulation and decreasing the crude protein supply from 16.5% to 15.5% while increasing the forage quantity fed to cows through the introduction of Optigen.

In this study, Optigen partially replaced heat-treated soybean meal and canola meal. This resulted in:

• Better nitrogen efficiency (from 28.8% to 30.8%, respectively, in the control and Optigen groups)
• Greater milk production in the Optigen group (41.6 vs. 40.5 kg/day)

This resulted in an elevated income over feed cost of $0.16/cow/day.

When it comes to beef cattle feed rations, a recent meta-analysis2 highlighted how the partial replacement of vegetable protein with Optigen exhibited a consistent improvement in the liveweight gain and feed efficiency of beef cattle. The many positive effects included an average higher liveweight gain (by 8%) and better feed efficiency (by 8%), with the inclusion of corn silage enhancing the effects of Optigen. A simulation analysis based on these benefits indicated that feeding Optigen to gain 440 lbs. in 1,000 cattle would:

• Reduce the time to slaughter by 9 days
• Reduce feed costs by $18,000
• Support a reduction in the carbon footprint of the beef unit by 111 tons of CO2 equivalents

These studies clearly demonstrate how innovations like Optigen can make improved animal performance, reduced environmental impact and financial gains not only possible but compatible.

Optigen delivers consistency when you need it most

In a world of quickly evolving change and disruption, consistency can seem idealistic. However, for a high-producing dairy cow or feedlot animal, consistency in how we feed and manage them is crucial for them to reach their optimal performance and profitability. At Alltech, we have identified “the 7 Ps of consistency” that we associate with Optigen. Over the last 15 years, these “Ps” have evolved, and several of them have been reinforced during the global pandemic — for example, the importance of securing a robust supply chain for proteins and the ability to continue supplying producers and feed companies around the world in the face of adverse conditions. There was also a question: Would Covid-19 diminish the sense of urgency around climate-friendly food production? Recent policy announcements around the world reiterated the point that food systems cannot be resilient to crises such as the current global pandemic if they are not sustainable.

With radical increases in vegetable protein costs, global attention will focus on the inherent nutrient variability between consignment and place of origin. Optigen is a solution that provides consistency when we need it most — from helping producers reduce their reliance on protein sources that fluctuate in price or that simply aren’t in supply to ensuring consistent animal performance and overall production profitability.

In summary, there are ways to lower feed costs and sustain the profitability of your dairy or beef enterprise during the current protein challenge and beyond.

Here are six tips to help you:

1. Increasing prices and demand for proteins mean that close attention should be paid to the nutritional composition of vegetable protein stocks, which could vary in their consignment and place of origin and, as a result, put animal performance at risk.
2. Make the most of cheaper high-fiber feeds, especially forages, but ensure that those forages are high-quality.
3. Support the rumen and ensure that it is being used to its full potential. This will enable nutrients to be extracted from the diet as efficiently as possible.
4. Consider feeding balanced, lower-protein diets to stretch your protein supplies, which may be necessary in case of a shortage later this year.
5. Include Optigen in your dairy and beef cattle rations as a nutritional solution for lowering your dietary protein while increasing efficiency. The partial replacement of bulky vegetable protein sources with Optigen, a concentrated nitrogen source, also creates more space in the diet to increase the inclusion of cheaper home-grown forages.
6. Take this opportunity to look at how environmentally friendly the feedstuffs you use are, as protein sources can carry a high carbon burden if they are not sourced from responsible production, ultimately impacting the long-term sustainability of the operation.

References

1. Varga et al. (2009). Effects of Optigen® on milk production, N balance and diet cost in high producing cows. Unpublished, Department of Dairy and Animal Science, The Pennsylvania State University, University Park, PA, USA.
2. Salami, S.A.; Moran, C.A.; Warren, H.E.; Taylor-Pickard, J. A Meta-Analysis of the Effects of Slow-Release Urea Supplementation on the Performance of Beef Cattle. Animals 2020, 10, 657.

I want to learn more about how I can overcome the current protein challenge and sustain profitability on my dairy or beef operation.

The KEENAN “Green Machine” has made its way from Ireland to Northern India, with Gurpreet Singh Grewal being the first KEENAN machine owner in the area. Gurpreet has worked in the dairy business for the past eight years and is currently milking 105 Holstein dairy cows on his farm.

Gurpreet is the owner of HG Grewal Dairy farm in Chimna village, Jagroan Tehsil, in the state of Punjab — an area with a continuously growing dairy sector.

Jagroan Tehsil is one of the leading milk belts of Punjab and is home to most of the Progressive Dairy Farmers Association’s active farmers in the state. Milk is the main product from livestock in Punjab, accounting for nearly 80 percent of the total value of livestock output.

Punjab is considered one of the most progressive states for the dairy industry in India. Dairy farmers in this area are adopting the latest techniques and technology rapidly, and Gurpreet is among those early adopters. He bought a KEENAN ECO50 in December 2017 after attending an Alltech event, completing research and receiving recommendations from his brother. This is the first time Gurpreet has used a Total Mixed Ration (TMR) wagon.

The KEENAN machine in action at HG Grewal Dairy farm.

“I am very much satisfied with the KEENAN machine performance and its contribution to the overall profitability of the farm, as well as with Alltech solutions and technical support,” said Gurpreet. “I highly appreciate Alltech’s technical help in TMR formulations and Alltech In Vitro Fermentation Model (IFM) lab facilities for testing silage samples.”

Gurpreet is particularly pleased with:

• Gentle mixing of TMR — the cows do not separate the feed, so there is less feed waste
• Uniform mixing of TMR, which leads to no sign of Acidosis
• Uniform Body Conditioning Score
• Good processing and mixing of rye grass, which maintains the structure of the fodder
• Increase in milk production

Soon after Gurpreet started using the KEENAN machine, his farm attained peak milk production of 1,660 litres from 56 dairy cows, from December 2017 to January 2018. This was even without changing the TMR formulation.

HG Grewal Dairy farm currently uses the following Alltech products: Yea-Sacc®, Optigen® and Mycosorb A+®.

Please contact india@alltech.com with an questions.

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

Are cattle producers ready for the impending U.S. Veterinary Feed Directive (VFD)?

More than 550 days ago, the U.S. Food and Drug Administration (FDA) announced its updated regulations for the VFD, and now, in just a few short days, the rules will go into effect. Some producers are now scrambling to get clarity on this critically important new directive.

Alltech has put together the latest information to separate fact from fiction and make sure everyone is ready to make the most of the upcoming changes. Let’s start from the beginning:

What’s the VFD, again?

The Veterinary Feed Directive, or VFD, will restrict the use of medically important antibiotics in animal feed. On Jan. 1, 2017, it will be illegal to use certain antibiotics without a veterinary prescription, and affected antibiotics will only be available to prevent, control or treat a specifically identified disease.

Functionally, it will work as follows:

• Feed companies and distributors must register with the FDA if distributing veterinary feed directive feeds.
• Veterinarians will be prescribing veterinary feed directive drugs and must have pre-existing veterinary-client-patient relationship (VCPR); more on that below.
• Veterinary feed directive prescriptions may be sent to distributors by veterinarians or by hard copy delivered by clients.
• Drug manufacturers will be allowed to assist veterinarians and feed companies with the processing.

Which drugs will be affected by the Veterinary Feed Directive?

A full list is available through the FDA website, but some of the most commonly affected drugs are listed below.

Remember, the list below shows the generic names and not brand names, so be sure to review the appropriate end products.

What worries have some producers expressed about the Veterinary Feed Directive?

The language around a “pre-existing veterinary-client-patient relationship” within the VFD can be confusing. To break that down, generally, this relationship for a producer requires:

• A veterinarian who is familiar with the producer’s operation.
• A veterinarian who will assume responsibility for making medical decisions on the animals involved.
• Medically timely visits to the premise.
• A producer who agrees to follow veterinary directions.
• A veterinarian who is available for follow-up as needed.

For additional insight, a complete list of VCPR criteria by state can be found here.

Dispelling Veterinary Feed Directive rumors: True and false facts

Information on the VFD can be found easily, but misinformation and incorrect rumors about what the VFD is can be just as common. As the start date approaches, what are the most common rumors that need to be dispelled?

Rumor: Feed-grade antibiotics are going away for good.

 That’s false. What is going away is the ability to use feed-grade antibiotics for growth promotion and other off-label uses.

Rumor: Injectable antibiotics will be banned.

That’s false. These will still be available over the counter as needed.

Rumor: The VFD will affect both small and large producers.

That’s true: Large or small, all producers who are found non-compliant will face a wide range of penalties ranging from fines to jail time.

Rumor: Water-soluble antibiotics are not affected.

That’s false. A prescription, not a VFD, will be necessary for medically important antibiotics used in drinking water.

What resources are available on the Veterinary Feed Directive?

Staying up-to-date on the latest information is key. Alltech highly recommends going straight to the source to get the most complete information. There are several comprehensive resources available online:

• The FDA website. Here you can find brochures outlining the requirements for producers, veterinarians and feed distributors, whether or not they manufacture feed.
• This FDA video gives an overview of the VFD.
• The Beef Cattle Institute at Kansas State University has created free modules on the VFD.
• In this webinar, Dr. Darrell Johnson from the University of Kentucky speaks in depth about the unique challenges faced by beef and dairy producers affected by the VFD.
• WATT and GlobalVetLink put together this great infographic.
• Your local agriculture extension office.

What comes next?

Alltech supports producers by promoting health and performance through nutritional feeding innovations. By bringing together over 35 years of research and practical application with state-of-the-art support tools, Alltech can provide technical expertise in the following management programs:

Preparing for the VFD might seem difficult, but with planning, producers can have a smooth transition and bring new value to their operation. To learn more, contact your local Alltech office.

Many in the U.S. Midwest have had the luxury of increasing their forage inventory over the last couple of years, and this year continues to be on pace.

Dairy cows have the ability to transform fibrous plant materials and byproducts into high-quality milk, but the rumen microbes require available protein to perform these fiber digestion functions. Protein prices in the last month have continued to rise, and many dairy producers are now looking at ways to reduce their out-of-pocket costs and feed more of their housed forage, which typically represents 50 to 70 percent of the total mixed ration.

The rumen bacteria need ammonia-nitrogen

In order to keep the rumen bacteria working more efficiently, an effective source of ammonia-nitrogen (NH3-N) is needed to enhance fiber-digesting bacteria. Research has shown that the bacteria in the rumen primarily use NH3-N in the ruminal fluid, which is derived from a non-protein nitrogen (NPN) source in the feed.

Possible nitrogen sources in the dairy ration

Feed-grade urea is a common form of NPN used in dairy rations, but because of rapid ammonia release, it leads to nitrogen inefficiency and wasted energy in the dairy cow. Vegetable protein sources, such as soybean meal and canola meal, can also be a source of slow-release nitrogen, but these ingredients can have variability in nutrient composition and take up valuable space in the ration. Many producers are trying to find ways to make the ration more energy dense, especially during periods of heat stress, and feeding less bulky ingredients may help to achieve this goal. 

Optigen^® is a unique protein alternative that is 256 percent equivalent crude protein from NPN and provides a sustained release of NH3-N in the rumen. This slow release allows for better synchronization with microbial protein needs while dramatically increasing nitrogen efficiency in the dairy cow. The key is to synchronize the ruminal carbohydrate and crude protein degradability in the rumen to increase microbial protein production and energy derived from rumen microbes. A combination of effective protein sources available in the rumen and post-ruminally — matching essential amino acids in the small intestine — has the potential to increase the cow’s efficiency. 

How does Optigen work?

Many rations can implement up to 6 ounces of Optigen and allow for some removal of protein from vegetable protein sources, such as soybean meal. For example, 6 ounces of Optigen provides 0.9 pounds of protein, which will replace 1.9 pounds of soybean meal, with space for 1.5 pounds of dry matter of corn silage. This will create space in the ration, which will allow the dairy producer to utilize more forage in the ration and to lower out-of-pocket costs.

In a recent trial done at the University of Wisconsin (Journal of Dairy Science 02, Suppl. 1, 290), 16 commercial dairy farms in Wisconsin incorporated Optigen into the ration and removed soybean meal. The space that it created was filled with corn or corn silage. The results show a 1-pound milk production response. You can find the full article on this research here. 

For more information, visit our Dairy page or contact your local Alltech representative.