Are you looking to improve the efficiency of your cattle? Studies have shown that organic trace minerals outperform inorganic minerals when it comes to cows and their calves. Dr. Anne Koontz, Alltech research scientist, discusses the benefits that organic trace mineral supplements can provide to the calf immune system and average daily gains, as well as how they affect cow fertility and reproductive efficiency in cattle.

The following is an edited transcript of Kara Keeton’s interview with Dr. Anne Koontz. Click below to hear the full audio.

Kara:              I'm joined today by Alltech research scientist Dr. Anne Koontz to discuss organic trace minerals in beef cattle. Thank you for joining me today.

Anne:             Thank you for having me.

Kara:              Anne, trace minerals: are they that secret weapon in our feed that everyone knows exist but we don’t fully understand what they do?

Anne:             I think we've always known the importance of trace minerals, but what we're really seeing, with new research that's coming out, is we're diving into things that we didn’t know they were doing for us, and we're seeing some benefits and really putting data to those benefits and understanding them a bit better.

Kara:              So, when you're talking about the benefits, what are the minerals specifically that we're talking about? And tell me about some of the benefits that they're providing to our animals.

Anne:             Right. When we're talking trace minerals, we're really talking about things like zinc, copper, cobalt, selenium — those minerals that are in very small amounts in our feeds. They get a little bit overlooked. We all toss them in, but really understanding the levels and the forms that are important is something new.

                        What we see with trace minerals is we've always known that you have to have them there at a certain level, and especially in beef cattle. We've gone, "Well, there are trace minerals in the grass, so I'm not going to worry about it too much," but there are a lot of surveys that are showing that trace minerals in the grass are actually at levels that aren't sufficient to really promote the benefits we know that trace minerals (provide that) are important for us — so immunity, health, metabolism and reproduction, which is really what I focused on recently.

                        When it comes to reproduction, we know that low amounts of trace minerals in the diets of our cattle can cause problems in both the bulls as well as the cows. When we're talking about cows, we're seeing issues like lower fertility. Pregnancy maintenance rates aren't as good; we get good conception rates, but it's that maintenance of pregnancy that we're finding, if we focus on the minerals, we actually get better pregnancy maintenance.

Kara:              So, you're saying that, when you're looking at different animals in the sense of calves versus mama cows versus your bulls, you really have to take that into consideration when you're looking at applying trace minerals to the feed.

Anne:             Absolutely. All of your animals are going to need trace minerals, but the levels and the amounts that they need are going to vary depending on their life stage — and especially when you're talking about your cows. They're going to need different levels of minerals when they're pregnant than when they're lactating and than when they're dry and waiting for that next calf to come to the ground. Their mineral needs fluctuate, and we need to take that into account, but always be aware that they do need minerals pretty much all the time.

Kara:              How do Alltech's organic trace minerals, Bioplex and Sel-Plex, hold up in the gut in regard to stability, and how are they used in the different animals like you're talking about — different stages of life or production?

Anne:             This is another one of those areas that's sort of cutting-edge, and we're really starting to see some new things coming out here, and the stability area is really interesting. What we're finding is that, both in premix situations as well as in the gut of the animals, organic minerals hold their form and shape far better than inorganic minerals. Inorganic minerals are bound to, generally, some sort of an ion, and once they hit the gut, they break apart from that ion, and then they have the ability to bind other things. They can bind up important parts of your diet or other minerals so they're no longer available to the animal, and so the nutrition ultimately becomes less in that diet.

                        With the organic minerals, they don’t break apart and rebind and that sort of thing, and so, they're more stable and they're more available. When we really look at the availability as far as the bioavailability, what we find is that organic minerals can be as much as 130–200% more available than a sulfate form, and even more than that, from an oxide form of a mineral. So, we're able to use organic minerals at lower levels in the diet but get the same benefits, or use them at the same level and get higher benefits when we might be addressing a subclinical deficiency where we didn’t realize we had a deficiency because we didn’t see any outward effects of it, but the animal has the ability to respond to that slightly more available or slightly higher level of mineral in the diet.

Kara:              So how is this used on the farm, and how are farmers embracing this transition, possibly, from using inorganic — which I know has been used for years — to the organic minerals and more natural solutions in their production?

Anne:             The feedback from farmers has been incredibly positive, and it mirrors what we've seen in research. We've had research on this from the early '90s in bits and pieces, where we did larger-scale research looking at other issues but we just happened to collect a little bit of reproductive data on the side.

                        Starting about a year and a half ago, I started pulling out those bits and pieces of reproductive data and putting them all together in a response to a question we had from our sales team. What we found is that we could do this consistently through all these bits and pieces of trials over the last 30 years. Then, when we took those bits and pieces and said, “This is what we've been able to do with reproduction as far as increasing calving rates, increasing pregnancy maintenance and, ultimately, affecting calf production from the cows that were fed those organic trace minerals with higher weaning rates and higher feed liveweight gains,” that was quite exciting to our sales team and to our customers.

                        When we took it out into the field to the customers, the customers were reporting back exactly the same things we saw in university research trials. They're reporting back higher pregnancy rates, higher conception rates to AI (artificial insemination). They're reporting back that their heifers are reaching puberty earlier, so they're ultimately calving earlier in their life span. So, we're shortening the non-productive time of these animals on the farm, and that's very exciting for us, and it's very exciting for the consumers, because anytime the animal is not productive — if they're slow to cycle back during the breeding season and slow to get pregnant again, or if your heifers aren't reaching maturity until later in their life — you're feeding an animal that's not ultimately bringing you back any money on the farm. So, if we can shorten that time period that we're feeding unproductive animals, we're saving farmers money. We're ultimately getting closer to that beef production gold standard of one calf per cow per year.

Kara:              So, saving money, healthier cattle — these are all things farmers are looking for when they're looking at feed, when they're looking at production. What are some other things that you believe, as you continue your research, (you) are going to find in using trace minerals? And not just using — we've always used trace minerals, but using the organic trace minerals, and as you learn more about them — are there other things on the horizon that you're excited about or you think you're going to see?

Anne:             There are some things I'm particularly excited (about) and am hoping to start looking at a bit more deeply. One of the things that keeps coming back to us is that, within the beef industry, as I said before, we don’t have an issue with conception rates. Our cattle are incredibly fertile. We get 95% or greater conception rates. What we do see as an issue is early pregnancy loss. There's some data out of Fort Keogh with Dr. Gary in Montana that says 25% of those cattle that conceive lose pregnancy before 28 days. So, it's that very first bit, where we didn’t maybe quite realize they were pregnant, so we thought maybe they didn’t conceive — but what he's saying is, it's not the conception; it's that early pregnancy loss in the first 28 days.

                        So, what some of the research we have at Alltech has shown is that we're getting better pregnancy rates from AI in beef cattle, and we're getting fewer services per conception in dairy cattle, which is the same way of looking at something, but looking at it from a different angle. So, what I firmly believe is that those two numbers are showing us that we're getting better maintenance of pregnancy during that first 28 days, so I'd really like to get a chance to dive deeper into that and really specifically look at that in some of our research.

                        The other thing that's particularly interesting to me going forward is taking this to some of our purebred and AI systems and looking at embryo, flushing an embryo quality on that side of the beef industry. We've got some very preliminary data there from the field, where people have used this, that shows we're getting better embryo quality, more transferable embryos and things like that out of these embryo-flushing situations, so I'd like to dive a bit deeper into that and see what we can do on that side as well.

Kara:              That's exciting. I know that your area of specialty is with beef cattle. Do you work with dairy cattle as well?

Anne:             I do. I actually work with pretty much any species.

Kara:              Okay. Well, that's what I was going to ask. What you're learning from beef cattle, and utilizing organic trace minerals in beef cattle — are you also doing research or are there researchers at Alltech looking at this in other livestock?

Anne:             There absolutely are. A lot of the research that I was able to find when I started looking into this, and seeing what we already had in our databases, came from the dairy industry, and so, we've seen this consistently in the dairy industry. We can see this consistently in the beef industry. There are some indications that we see something very similar in the swine industry. Poultry is a little bit funny because eggs are a bit different than a pregnancy, but on the pig industry, what we're really seeing is that we're getting heavier birth weights, we're getting more pigs per litter, and those pigs are thriving more after birth when the sows are fed Bioplex minerals.

Kara:              Trace minerals (are) maybe not a secret weapon, per se, since we've always used them, but maybe it's the organic and natural direction that is something that's going to make a difference to producers down the road.

Anne:             I think that's accurate.

Kara:              Okay. Well, thank you so much for joining me today, Anne.

Anne:             Thank you for having me. It's been a pleasure.

Kara:              This was Dr. Anne Koontz, Alltech research scientist.

Have a question or comment?

WHAT:            Join Dr. Mark Lyons, president and CEO of Alltech, as he shares the results of the ninth annual Alltech Global Feed Survey during a panel discussion with industry leaders. The presentation will be livestreamed from Alltech’s global headquarters in Nicholasville, Kentucky. 

                        Panelists include:

• Jack Bobo, CEO, Futurity, USA
• Bianca Martins, General Manager, Alltech, Mexico
• Matthew Smith, Vice President, Alltech, UK

Alltech’s annual evaluation of compound feed production is the most complete of its kind, including data from more than 140 countries and approximately 30,000 feed mills, covering all species of production animals. The presentation will highlight trends in feed production at a regional level, key insights for specific countries, what changes the industry may expect within the next year and looking beyond the data to explore the impact on farmers, the feed industry and the regions in which they operate.

WHEN:            Monday, Jan. 27, 2020

                        10:00 a.m. EST                      

WHERE:         Register for the livestream presentation here.

OTHER:           Information from the 2019 Alltech Global Feed Survey is currently available online at alltechfeedsurvey.com and will be updated with 2020 information following the livestream presentation, including a video recording of the presentation.

With new technologies like artificial intelligence and machine learning expanding into all industries, agriculture has an opportunity to become more efficient. TERRA NutriTech, an Ireland-based startup, is using these technologies to eliminate waste and ensure accurate mineral delivery through water systems to boost farmer’s profits by reducing labor.

The following is an edited transcript of Kara Keeton’s interview with Padraig Hennessy. Click below to hear the full audio.

Kara:              I'm here today with Padraig Hennessy, co-founder and CEO of TERRA NutriTECH, one of the Pearse Lyons Accelerators presenting at ONE19 (The Alltech Ideas Conference). In 2012, he founded TERRA NutriTECH with his brother, Tom. Tell me a little bit about TERRA NutriTECH and how it got its start.

Padraig:         We have a sister business and we started out about 12 years ago. In that business, we designed and installed water systems on farms. Through that, a lot of customers kept coming to us, asking, "You guys are in water. Have you got a better way to put minerals and supplements into the water system?" Eventually, a handful of people asked us that we start looking around the world and looking for what systems are out there. We have three components that we have to have: it was precision, it needed to be automated and it needed to be easy.

                        We couldn't find any system out in the world that had all of those elements for us, so we coupled together some existing technology and we launched about five and a half years ago now up to this stage, and that's how we initially began — a very, very slow start, testing the market out to see, is there really a market here, and we literally, every year, kept doubling the size of the business. More and more customers are coming, on and on and on, and it was a fantastic start. That really got us going in the market. From that, then, we realized that the technology needed a big upgrade and we needed to bring it in to the 21st century, utilizing artificial intelligence, IoT — again, making the data easily readable for farmers. That was always key for us.

Kara:              With the AI, how have you really brought that into the system and innovated it to help meet the farmers' needs?

Padraig:         One of the key drawbacks with putting minerals into the water systems was variations in water consumption, so we've developed machine learning effectively in our system where we're constantly monitoring animal water intake, and an advanced algorithm that we've developed changes the concentration levels to ensure exact dosage each and every day per animal. That's the main component. We've got further iterations to come down along the track, where we can start becoming predictive of what the farmer will need via supplements, looking at water consumption, looking at weather, looking at animal life cycle. I'm helping them to become predictive rather than reactive.

Kara:              How have the farmers adapted to this technology? Is it something that is easy for them to use, or have you seen the challenges with that?

Padraig:         No. I grew up in a farm, and so I know exactly what farmers want, to be honest. My dad would've been a very traditional farmer. He actually would've started — when my dad first started farming, it would've been with a horse and plow, so I knew exactly what farmers needed. What farmers need is something that's robust and easily used; we always had that mindset when we were designing everything. Really, systems have to be hands-off, from the farmers' perspective. Systems just need to work. If they need to do something with it, it needs to be really, really easy, so we always develop it with that in mind. Many of our customers are completely hands-off with our system. They call us up if they need something or need to change something. With our new app, now, it's literally (you just have to) open it up. If five animals have left the herd, they can just decrease the herd number by five and ensure precision dosing continues.

Kara:              So, it's all based on the app then.

Padraig:         Yes, a controller on-farm with our technology. So, the way our technology works is water first goes through a water meter. It's connected to our computer controller, so we're constantly monitoring the water intake. Exact herd numbers and exact data requirements of minerals are inputted either on the controller or on our app, and both communicate to each other. Then, on any given day, we can dose in. Let's just say there are 434 animals and there are 10 grams of supplements needed for each. That's 4.34 kg, and that's exactly what we will put in on that day, so it's highly, highly accurate. If ten animals go off and there are only 433 tomorrow, then, tomorrow, we put in 4.33 kg, so it's always precision of what we do.

Kara:              So, along with ease, how does this impact the farmers' bottom line? Because that is always a concern.

Padraig:         That is the concern. You can make great technology, and there's loads of good high-tech coming out, but it's hard to see how it will impact the bottom line. With our system, (a) there's no waste, so you completely eliminate waste, and (b) with the accuracy, you're ensuring Cow Number 99 out of 100 will get the same concentration, the same level of supplements, as Cow Number One. Therefore, the uptake and the health of each and every animal is maximized, so there's better calving. There's better fertility. There's less lameness, overall, healthier animals. That is what will impact the bottom line. All would reduce labor.

Kara:              How many farms, would you say, have introduced this technology into their operations to date?

Padraig:         Currently, we are only operational in Ireland, and we're just about to launch internationally, so we have about 350 farms using this technology to date, and we're still growing very, very quickly. We have a customer retention rate of about 98% every year, so when somebody switches on our system, they stay on our system, because they just find it so easy and they're getting the results to back it up.

Kara:              Now, you presented at the Pearse Lyons Accelerator. What was this experience like, and how did you come across this opportunity?

Padraig:         I originally saw the opportunity about two years ago, when the accelerator was first launched, and it interested me then. We were still in the midst of developing our technology, so it was a bit early for us. So, when we applied this year, I obviously knew who Alltech was. I'm in the nutrition space, and I realized it could be a huge opportunity for us to introduce our technology to a much, much wider audience.

                        Really, participating in the accelerator has far exceeded my expectations. Actually, I was blown away by the resources and the time that all of the Alltech senior management put into it. Literally, I don't think they could've been more helpful to us. It's really been just an absolutely fantastic experience for us, and not only that, but interacting with the other participants on the accelerator as well opens up your mind to other technologies and potential collaborations down the road. None of us are in competition. We can all help each other in our paths, and that's a fantastic opportunity to have.

Kara:              Speaking of your path, where do you see TERRA NutriTECH in the next five to ten years? How do you hope to grow the company?

Padraig:         We're going to grow internationally. Currently, we're talking to nutrition companies in New Zealand, France, the U.K. and the USA about utilizing our technology in ruminants, in poultry, in swine. The system we've developed is the most accurate system on the market now. It's the only mineral-dispensing system that will allow supplement companies a viewpoint inside the farm gate. So, because of that and because of the data we're generating and the insights we're generating on-farm, we see huge opportunities, and we really do expect rapid expansion.

Kara:              Are you using this data for other research with other companies or with scientists at this time?

Padraig:         At this time, no, but we will shortly be going down (that path), because it's a way to prove the efficacy of a product. If a product is going in and you know there are a hundred farmers using it, then you can start to actually look at the data behind it. Are they improving milk? Are they improving yield? Are they improving health? So, we can actually start to get down deep into that data to ensure that the products that are released are what they're supposed to be.

Kara:              Thank you so much for your time today. This is Padraig Hennessy, co-founder and CEO of TERRA NutriTECH.

Padraig:         Thank you very much.

Padraig Hennessy spoke at ONE: The Alltech Ideas Conference (ONE). Click here to learn about ONE and how you can access innovation on demand.

[LEXINGTON, Ky.] – The past year has been one of the most challenging years in recent memory for corn farmers across the Midwest due to excessive rainfall, which has resulted in delayed and/or prevented planting in many areas. Extreme weather conditions and moisture levels can reduce yields and induce plant stress, and they can also lead to future issues for the crop, including molds and mycotoxins. Increased moisture can allow Fusarium molds to flourish, producing a variety of mycotoxins that include deoxynivalenol (DON), fusaric acid, T-2, HT-2 and zearalenone (ZEN).

Mycotoxins are a concern for livestock producers, as they influence feed quality and animal safety. They are produced by certain species of molds and can have toxic properties that impact animal health and performance. Samples of the 2019 corn silage from across the U.S. are currently being submitted to the Alltech 37+® mycotoxin analytical services laboratory, and analysis is indicating the presence of high levels of mycotoxins.

The samples have included an average of 7.13 mycotoxins, with a range of 2 to 14 mycotoxins per sample. In 86.6% of the samples, DON was present; 99.5% contained fusaric acid; and 94.1% tested positive for emerging mycotoxins, including beauvericin, moniliformin, enniatins, phomopsin and alternariol. These emerging mycotoxins will add to the risks potentially affecting rumen function, gut health and immune response. A point of interest is that ZEN was found in 48.9% of the samples and has become increasingly prevalent over the past two years.

“These levels of mycotoxins found in the 2019 crop are significantly higher than the average values,” said Dr. Max Hawkins, nutritionist with the Alltech® Mycotoxin Management team. “Livestock producers across the U.S. should test their own corn silage to identify the levels of individual mycotoxins and the subsequent risk present to livestock health and performance.”

Mycotoxins are seldom found in isolation, and when multiple mycotoxins are consumed, they may have additive — or even synergistic — interactions that increase the overall risk to performance and health. As a result, an animal may have a stronger response than what would be expected if it was only experiencing a single mycotoxin challenge.

Alltech will host a United States Corn Silage Report webinar with Dr. Max Hawkins on Tuesday, Dec. 17, 2019, at 2:30 p.m. EST. Register for the webinar via this link.

For more information on mycotoxin management, visit knowmycotoxins.com. 

Modern farmers have countless resources at their disposal that those who came before could only have dreamt of. If we compare agriculture today with what was the norm 10 — or even five — years ago, the contrast is staggering. Over the last few years, farmers have reaped the benefits of numerous technological advances, and some of the most useful of them have come in the form of agricultural apps on smartphones.

The array of apps that could be useful for farmers is already vast and continues to grow. Armed with an Android, iPhone or even an iPad, they can scroll through the available apps to find a program that fits their every need, from buying new machinery to analyzing soil types.

But it is not only ag apps that are making farmers’ lives easier. Help can come from some unlikely places, and programs that were not designed specifically for agricultural use can be utilized in innovative ways.

With this in mind, we thought it would be a good idea to take a look at some of the useful apps currently on the market. Some are obvious choices for any farmer, while others may have previously been overlooked. Whether you are already ag-tech-savvy or are only just learning how the device in your pocket could change your farm management, this list will give you a sense of what is out there and how it can be used to your advantage.

Feed-management apps

Long neglected in terms of innovation and investment, feed management technology is finally making strides in the ag-tech industry. Until recently, it was still common for farmers to manage their feeding by using a pen and paper. Now, however, there are plenty of resources available on the App Store to make this process more efficient and cost-saving.

1. FeedSmart

Taking into account key variables, such as maintenance requirements, animal growth, lactation and more, this free calculator can provide farmers with instant information on their livestock's nutritional needs, feed values and feed allocation.

2. InTouch Forage Budgeting 

The management of forage stocks has also become a topical issue on farms in recent years, especially with changing weather patterns. Fortunately, smartphone technology can also play a role in long-term planning.

This app calculates the total forage available to the farmer in both fresh weight and dry matter from clamped forage and additional baled forage. The user inputs the forage required to feed livestock during the winter housed period, and the app then determines if the farmer has enough resources at his or her disposal.

Developed in association with the team at Alltech E-CO2 and available on all mobile devices, this app becomes particularly handy moving into the winter, when the demand for forage is at its greatest. Farmers need to be proactive in measuring conserved forage quantities in order to avoid any potential shortfalls.

Note-taking apps

Whether they want to admit it or not, some farmers are careless note-takers. For a profession in which constant checks and record-keeping are essential, many farmers leave too much to chance. This task can be made easier and quicker with modern technology. On a base level, it is standard practice for all smartphones to come with some form of notepad app included. You can even set reminders that will alert you about certain items and tasks at a pre-arranged time.

3. Evernote 

This multi-platform app allows you to access your notes and photographs from your smartphone, desktop and tablet, syncing everything to make sure you are always up to date. It also allows you to share content with other users, which comes in handy when disseminating information among your team.

4. Google Docs

The only drawback to Evernote is that many of its sharing and collaborative features are only available through a paid subscription. Google Docs, a free alternative with similar capabilities, could be a suitable replacement.

Field-measurement apps

5. GPS Fields Area Measure

Ask any farmer how much land they have, and they will be able to give you an answer straightaway. Being able to do so is an essential aspect of the profession and is an ability that many wear as a badge of honor. However, this off-the-top-of-the-head figure is only ever a ballpark number, probably rounded up to the nearest acre.

GPS Fields Area Measure is the perfect tool for determining distances and field perimeters and areas, fast! Using satellite imaging, this app provides you with an accurate measurement of your piece of land, saving you time and money. For added convenience, it can also be used offline, and saved measurements can be shared between users.

Weather apps

By its nature, farming is an outdoor enterprise. The success of a harvest, down to the budgeting of forage, depends heavily on the weather. While it can never be fully predicted, many tools and devices have been developed over the years to make dealing with the weather a bit easier. Modern technology now provides the most comprehensive methods of navigating the whims of Mother Nature. There is a plethora of weather apps on the market, all of which can provide highly accurate forecasts.

6. Strawberry Advisory System monitors the weather so as to help keep strawberry crops free from fruit rot.

7. Hurricane is the American Red Cross' hurricane-monitoring app.

8. Weather Underground

Along with providing accurate weather information throughout the world, this free app can also be accessed in a vast range of languages. Collecting up-to-the-minute data from more than 270,000 global weather stations, it also lets users contribute by reporting on weather conditions in their own regions.

Buying and selling apps

These days, it has never been easier to go on a shopping spree. A short time spent browsing online can quickly leave you with myriad new possessions and an alarmingly low bank balance. The agriculture industry is not immune to this — and now, farmers are able to get in on the fun, too!

9. TractorHouse

If you are in the market to buy or sell new or used machinery and farm equipment, this global app gives users access to thousands of sale listings. Its user-friendly interface allows you to easily search for equipment and parts, which can be bought directly or at auction.

10. Cattle Market Mobile

Your smartphone can even give you the edge when bidding on livestock. Traditionally, farmers would enter a market blind, not knowing anything about the animals being offered. Now, apps are emerging that allow farmers to do research and even make bids beforehand.

This handy tool collects data on current auction prices across the U.S. Using this information as a guide, farmers can see exactly how much they should be paying for steers, bulls, heifers and more.

11. MartBids

While only available in Ireland, this app is changing the way producers make decisions about livestock. This app works in conjunction with livestock marts throughout the country to provide users with vital information before they make their decisions. Whereas before, a farmer at an auction often had to rely on gut feeling when bidding, this mobile app negates any guesswork, helping you find the perfect animal for your needs.

12. FarmHedge

For an all-around app that connects farmers with multiple sectors of the agriculture industry, this real-time agribusiness app puts users directly in touch with suppliers of feed, fertilizers, parts and more. It allows producers to create personal and secure working relationships while also saving them time and money.

Farm smarter, not harder, with these helpful apps for farmers. We hope these useful tools will help you better manage what you have worked so hard for.

As consumer demand for antibiotic-free beef increases, we must consider the possibility of a future without antibiotics. What role does nutrition play in responsible antibiotic use and efficacy? Should we be more concerned about antimicrobial resistance in animals? Dr. Brian Lubbers, director of clinical microbiology at the Kansas State Veterinary Diagnostic Library, shares his perspective on the future of antibiotic use and the challenges producers are facing.

The following is an edited transcript of Tom Martin’s interview with Dr. Brian Lubbers. Click below to hear the full audio.

Tom:              The use of antibiotics raises all sorts of issues, including a future without them, as antibiotic resistance continues to outpace the search for a solution. In the meantime, there are consumer concerns and pressures and questions about the role of nutrition in responsible antibiotic use. What about vaccine efficacy? What about the role of the Alltech Nutrigenomics product, Actigen, in improving antibiotic efficacy?

                        Here to talk about these issues is Dr. Brian Lubbers, director of the clinical microbiology section of the Kansas State Veterinary Diagnostic Laboratory. His teaching and research interests include antimicrobial stewardship and therapy, antimicrobial resistance and the application of antimicrobial susceptibility testing in food animals. Thanks for joining us, Dr. Lubbers.

Brian:             Thank you.

Tom:              Let's first talk about this race to get ahead of antibiotic resistance. Who's ahead in that, us or them?

Brian:             History has told us repeatedly that, whenever we develop a new antimicrobial, that bacteria will adapt and change, and they will find ways to become resistant to those treatment therapies we have.

Tom:              So, it's a never-ending chase.

Brian:             It's a never-ending chase.

Tom:              How does the problem of antibiotic resistance present in livestock, and what's the impact on production?

Brian:             It's actually something that probably doesn't get as much attention as it should. I think, from the agricultural perspective, when we talk about antimicrobial resistance, we hear a lot about the implications of using antibiotics in agriculture and how that causes issues for resistance in human pathogens. My laboratory actually does testing on bacterial pathogens and livestock, and we have seen a trend over the last few years that shows that the bacteria that are of interest to us — particularly Mannheimia haemolytica, which is one of the bacteria that causes bovine respiratory disease or pneumonia — we are seeing increasing rates of resistance in that particular bacteria.

Tom:              Are producers sensitive to consumer concerns about the use of antibiotics in dairy and beef cattle?

Brian:             I think the whole industry understands those concerns. That's a very challenging position for both producer and veterinarian, when you're asked to consider a use in an animal that may potentially lead to resistance down the road. I certainly understand those consumer concerns, because that equation changes dramatically if I'm the person that has that infection. So, I do think the industry is aware of it. We're trying to find ways to address those concerns, and that really is antimicrobial stewardship.

Tom:              What kinds of challenges do producers face when they're trying to respond to this consumer awareness and concern?

Brian:             I think one of the challenges is simply understanding how we use antimicrobials in food animal production. There are a lot of misconceptions around that concept. I think there are also challenges to things that we're being asked to, and what I see as trends in the future — things we'll be asked to do in the future certainly come with some challenges as far as adopting technologies, how we'll implement those technologies effectively in a way that we will not probably ever completely get away from antimicrobials but, certainly, reduce our reliance on them.

Tom:              What are some of the more troubling misconceptions that you've identified?

Brian:             I think the biggest one that I hear is that all meat contains antibiotics. That is not true. The meat that we have is safe. The antibiotics that we have have been tested by the FDA producers that adhere to guidelines so that, when those animals enter the food chain, they are safe to consume.

Tom:              So, what is the state of antibiotic use in the beef industry and the dairy industry as well?

Brian:             The state currently is that we still use a lot of antibiotics, quite simply. If you look at the sales data that is collected by the US Food and Drug Administration, beef is the number one as far as percentage of human medically important antimicrobials that they use. Those numbers have dropped since the implementation of the recent FDA guidance and the Veterinary Feed Directive. I think they will continue, and yes, there has been some legislative pressure to make those changes, but really, that has been the industry voluntarily accepting those guidelines and looking at our production practices and trying to figure out ways to use antibiotics and in a better way.

Tom:              Is it acceptable to administer antibiotics and vaccine simultaneously, or are there some effects on efficiency of vaccines when antibiotics are introduced?

Brian:             It does depend a little on the vaccine. If you have a live bacterial vaccine, you can have some effects.

                        Certainly, we'd never want those things in the same syringe, but most of the vaccines that we have are actually viral in nature. And as we all know from talking to our human doctors, antibiotics do not have any effects on viruses.

Tom:              I think you answered this at the very beginning, but I'm wondering if you envision ever winning control over antibiotic resistance.

Brian:             I don't know that anyone really knows that answer. I think that concept of completely reversing antimicrobial resistance, that's probably a stretch. I think the goal for us is to really slow down the progression of antimicrobial resistance. I have a lot of faith in the innovative nature of humans, and I hope that, over time, we're able to develop some new tools that probably don't select for resistance and, eventually, over time, those tools, hopefully, will replace traditional antimicrobials. In large part, I don't know that we'll ever completely lose antibiotics in animal agriculture as long as they're still effective.

Tom:              I'm just curious. I'm wondering what sorts of trends in your field you're watching right now are most exciting.

Brian:             Honestly, I'll go back to what I just said. I think the innovative development of technologies is pretty interesting. There's a lot of research going on, and I'll use the term "alternatives to antibiotics" very loosely, because I think a lot of people think that that's just another chemical compound that we're going to administer to an animal, but I think there are lots of exciting things that are happening.

                        People are looking at microbiome research, which may or may not involve antibiotics at all, but certainly, we're seeing on the human side the potential for that to affect both infectious diseases and non-infectious diseases. I think new diagnostic tools that will help us, certainly from the beef side, make decisions faster about which antimicrobial — if to use an antimicrobial at all — and then, if so, which one particularly would be best suited for that particular situation. I'm really excited about a lot of the new innovation, which also poses some challenges for us. As beef producers, we're probably going to be flooded with new technology and trying to figure out, really, how to efficiently implement the things that will work in our system and politely pass on the things that may not.

Tom:              Dr. Brian Lubbers is director of the clinical microbiology section of the Kansas State Veterinary Diagnostic Laboratory. Thank you so much.

Brian:             Thank you.

Dr. Brian Lubbers spoke at ONE: The Alltech Ideas Conference (ONE). Click here to learn about ONE and how you can access innovation on demand.

Heemskerk and Alltech collaboration working towards a cost-effective solution for rising ammonia levels

[DIESSEN, the Netherlands] – The agriculture industry in the Netherlands has been heavily hit by demands to reduce nitrogen (N₂) emissions. Following a Council of State judgment, the Dutch government is now looking at how the agricultural industry can play a role in reducing overall nitrogen emissions, such as ammonia and nitrous oxide, from cows and manure.

Following last week’s declaration of a “climate and environmental emergency”, by the European Parliament, farmers and the agriculture industry can lead the fight against this crisis. Global animal health company, Alltech^®, has partnered with Dutch dairy nutrition company, Ingenieursbureau Heemskerk^®, to develop a solution. They are collaborating on a new technology, specifically designed to improve protein utilisation and reduce ammonia emissions in dairy cattle. Heemskerk intend to bring this product to the market in the near future.

“We need to ensure that we get the most out of the protein in our animal feeds and use the latest technologies to reduce agriculture’s ammonia emissions. Producing more and better quality food, whilst at the same time reducing waste, aligns with Alltech’s vision for a Planet of Plenty™,” explained Robbie Walker, business development manager, Alltech.

“Our partner, Heemskerk, is working to create a solution that can empower farmers in the Netherlands to make a real contribution to solving some of the environmental impacts created through agriculture while working towards new, sustainable dairy production practices,” added Walker.

An additional solution to treat ammonia in manure storage facilities is also being developed. Adding a feed solution to the daily ration of cows, coupled with a manure storage facility treatment solution, could potentially see a reduction of 38 kilotons of ammonia (NH₃) per year.

“Speed and agility are essential if farmers are going to have a positive impact in the fight to reduce nitrogen emissions,” said Eric Heemskerk, founder of Heemskerk. “By collaborating with Alltech, we are working to create a cost-effective solution to the ammonia crisis that can be easily deployed. Ultimately, the product we will be bringing to market is backed by science, and we look forward to empowering farmers to make a real difference.

David Cleary, director of global agriculture at The Nature Conservancy, discusses the institution's three main sustainability goals: to reduce deforestation, increase soil health and promote water conservation. Learn what these three goals mean for climate change, habitat conservation, regenerative agriculture and the recent fires in the Amazon.

The following is an edited transcript of David Butler’s interview with David Cleary. Click below to hear the full audio.

Interviewer:  I'm here with David Cleary, director of global agriculture for the Nature Conservancy. Welcome, David.

David:             It's a pleasure to be here.

Interviewer:  Thank you very much. Tell us a little bit about what your role entails.

David:             Sure. Basically, three things. We have agriculture programs in about 40 countries around the world, so my first and most important job is to support those programs to help them grow their capacity, help fund-raise for them, and also to have them sort of, more or less, flying information around a shared definition of what sustainability and agriculture means. I represent the organization and voice our opinions on topics relevant to agriculture. That's the main reason why I'm here at this particular event. I also help to manage some of the global-level relationships relevant to our agriculture work in both the private and the public sector — so large agribusiness companies that operate on a global scale, but also organizations like the World Bank, the International Finance Corporation, the Gates Foundation, institutions that have an important role to play within the global ag space that we'd like to try and have conversations with and, occasionally, try to influence.

Interviewer:  You said that the Nature Conservancy has agriculture programs in how many countries?

David:             Around about 30.

Interviewer:  Okay, so what goes on at the country level? What do your programs do?

David:             Well, we have three areas of focus. One is trying to reduce and eliminate deforestation and habitat conversion from supply chains. We also have a soil program, trying to avoid soil erosion but also manage soils and increase soil health. The third area of focus is around water, water conservation and water quality, so dealing with agriculture so that it has the least possible impact and the most efficient possible use of water around the world.

Interviewer:  Great! That sounds like very important work, really.

David:             Very important and very challenging, sometimes.

Interviewer:  Yeah. You've spent a lot of your career — you've been at the Nature Conservancy a pretty long time, right?

David:             It wasn't deliberate, but that's how it's turned out, yeah.

Interviewer:  You've spent a lot of your career there focused on Brazil. Is that right?

David:             Mm-hmm, Brazil and Latin America, more broadly.

Interviewer:  Okay, so what are some of the biggest challenges there? I can guess one of them.

David:             Well, Brazil is a big country, so wherever you are, the challenges are slightly different. I think the biggest challenge that I dealt with the time I was living there was around deforestation and commodity supply chains, especially in the soy and the beef industry. We've actually been very successful over the last 10 to 15 years in reducing deforestation in the Amazon, way below where it used to be. I'd say you have an increasing problem now in various parts of Brazil with water use. We've already been able to see some changes in rainfall patterns probably linked to climate change. We've also, I think, in different parts of Brazil, got issues around soil loss and soil health. Brazil is an extremely efficient agricultural producer. It's a massive supply of agricultural commodities to the global market, but in some ways, that grain complex, an oil seed complex that drives that, have got some vulnerabilities on the soil and the water front.

Interviewer:  And is most of the erosion there related to large quantities of rainfall? Are a lot of the farmers there using no-till?

David:             No-till is really common in Brazil. It's been taken up by wildfire, actually, over the last 10 or 15 years. Brazil is a tropical climate, so you do have quite violent rain. That's just part of the natural cycle there, but I think what's happened is that quite a lot of habitat has been cleared in recent years to be able to expand the agricultural, the planted area there, and quite often, that's loosened root structures, and it's made soil erosion a problem in some places.

Interviewer:  Yeah. I'm sure there's a massive amount of erosion right after the forests are cleared, right?

David:             Yeah, that's absolutely right. You can see it very obviously on the landscape. It's important just to flag, though, that, actually, most of the cropland area in Brazil, it's expanded over grasslands rather than forests. The Amazon is by far the most famous part of Brazil outside Brazil, but the real engine of agricultural growth in Brazil has been, actually, more the Cerrado, which is a mix of savannah and woodland-type biome.

                        It's rather similar to the U.S., actually. The history of U.S. agriculture is it expanded much more over grasslands than it did in forested areas, and that's actually true of Brazil, too.

Interviewer:  Okay. Is that actually a bigger environmental problem than the rainforest deforestation?

David:             Well, it depends (on) what lens you want to view it through. If you're worried about biodiversity, then forests are more of a problem because they have much higher levels of biodiversity. If you're worried about climate change, probably, you're going to be more worried about forests as well because, when you burn a forest, it releases more carbon, if you're burning savannahs — but at the same time, we worry about all ecosystems, not just about forests. The Cerrado and grasslands, generally — the U.S. also — they're a really important ecosystem. They have historically been incredibly important to human life both in agricultural terms and for ranging and livestock, so it's really important, around the world, that rangelands and grasslands are kept in a good state. That's always going to be a focus of our work.

Interviewer:  This episode was recorded in May 2019 at our ONE: The Alltech Ideas Conference in Lexington, Kentucky, and it was a great conversation with David Cleary. But shortly after that, things went awry in the Amazon rainforest, and there were thousands and thousands of fires this summer. David was nice enough to get on the phone with us today and give us a little update about where we are, how much damage was done, and what does the future look like for the Amazon.

David:             Thank you, David. Well, yes, you're right. Things have gone awry. The background to that is that the Brazilian government essentially signaled to the farming and ranching sectors in the Amazon that they weren't going to spend a huge amount of time or effort chasing down people who didn't have the requisite deforestation permits to clear land.

                        What we've been able to verify so far is an uptick, quite a strong uptick, in fire activity. It's important you understand what we know and what we don't know. What we do know is there's a lot more fire activity in the Amazon. What we don't know is the size of the land areas that those fires are clearing. We don't know that because the smoke and the clouds at this time of year make it very difficult for us to get reliable satellite data. But what happened is we're at the end of the year, and at the end of the year, we'll know what the deforestation figures are.

                        Now, I know the figures that you've seen in the media are quite dramatic. There definitely has been a significant increase in fire activity, but there's a lot of other factors in the mix as well. I mean, if the rains come early, that dampens it down. It's not necessarily true that a large increase in fire activity in the Amazon is going to result in that level of increase in deforestation. It could be more; it could be less. We won't know until the end of the year. What I think we can say is that, even with the quite strong uptick of deforestation in the Amazon, it will be bad in comparison with last year, but it's still going to be at a level that, historically, is not as bad as it was about ten years ago. It's bad news, but it's not devastating yet.

Interviewer:  What do you see for the remainder of President Bolsonaro's term? Do you expect that this is going to be an ongoing thing year after year? Will it accelerate? I know that conversations or messages from the G7 to him didn't work very well this summer. How can we engage with Brazil to slow this down?

David:             Well, I think it's pretty interesting, what happened, because I think the strong international reaction to the fires in the Amazon really put the Brazilian government on the back foot. It was very clear that they weren't expecting such a strong reaction. It wasn't just the environmental NGOs and the Greenpeaces of this world that were very critical. A lot of the companies that invest in Brazil and are active in the agricultural sector were also critical.

                        Brazil depends upon those companies, and the agribusiness sector in general is an incredibly important and thriving part of its economy. So, to the extent that Brazil makes life more difficult for its big agribusiness sector, and because it's an exporting economy, an agricultural commodity-exporting economy, it could do without the sort of damage to its image that the Amazon fires do. I think the government understands that better now. There are actually parts of the Brazilian government that always understood that very well. The Agriculture Ministry, for example, is run by an extremely competent woman who was very active in saying that, “No, no, this is not the way for us to be going.”

                        I think you did point to the sort of diversity of opinion even within the Brazilian government. In fact, there are different power centers within it. I'd be quite optimistic that, next year, perhaps, learning a little bit from this experience, we'll find the government and the private sector and the farmers making more of an effort to combat the damage that was done. There was clearly damage.

Interviewer:  Well, that sounds good. I hope that we can find a good way to go forward and not lose all the progress that we made over the last decade or more. At this point, we'll rejoin our previous interview in which you talk about how all that progress was made. Thanks for joining us again today, David. I really appreciate it.

David:             It was a pleasure.

Interviewer:  You mentioned that there's been a lot of progress in reducing deforestation in the Amazon. What were some of the things that were successful there?

David:             Both private and public initiatives played a role. On the public side, you have, actually, very good regulatory framework for agriculture. Farmers in the Amazon have to keep 80% of the land holding in native vegetation, so that's already a good thing, a high bar to be able to work from. The government also recognized deforestation is a problem, and it had targeted strategies to crack down on it where in the bits of the Amazon they could see that deforestation was increasing.

                        Technology really improved over the last 20 years to the point that you could really pinpoint where the problem was, and that made it much easier to target policing actions, but it wasn't just a sort of top-down regulatory approach. There was also, I think, a recognition on many market actors that there's plenty of land that's already cleared that you could expand soy over. There was also an understanding, I think, that there was consumer resistance to deforestation because the soy and beef that was being produced, significant amounts of that were exported to Europe. There was also, I think, a feeling among the big global traders that had their presence there that they had a reputation or risk here as well, so it was a kind of perfect storm of coming together of both the public and private initiatives that drove the deforestation levels down. It's worth saying by how much: Fifteen years ago, it was about 30,000 square kilometers a year. Right now, it bumps along between 5,000 and 8,000 kilometers, so very, very significant reduction.

Interviewer:  That is a big difference, yeah. How is that effort working on the savannah areas?

David:             Well, it's sort of like a catch-22 because, the way the geography of Brazil is, is you have the forest in the north. In the center of Brazil, you have the grasslands, the Cerrado. From our standpoint as a conservation organization, it's not a win if we're successful in reducing deforestation in the Amazon but all that does is displace that pressure for habitat conversion into the grasslands of the Cerrado. That has actually not happened. The dynamics are slightly different in the different regions.

                        Right now, we're in a situation where, for the last three years, habitat conversion levels in the Cerrado have been very low. Six or seven years before that, they were really booming. A lot of the Cerrado was converted and, right now, we're in a situation where we have about half of the Cerrado in native vegetation; the other half is under agricultural or pasture. There's a very large amount of pasture that's not particularly productive — probably about 20 million hectares in total that you could expand cropland over. So, at least in theory, you can see a future sweet spot where you have cropland expanding over pasture and pasture intensifying. That would make a lot of economic sense. Of course, there's many a slip between cup and lip, and you can see that in theory, but actually, having that land-use pattern develop is a complicated thing, but that's what we're working towards there.

Interviewer:  Some of the areas that have been in agriculture the longest, do they suffer from soil degradation, loss of fertility, possibly partly because of the heavy rainfall?

David:             Well, that's a hard question to answer because if you pull out globally and just do a quick look around the world, there are places that have had agriculture in place literally for millennia with reasonable soil quality being maintained throughout that period. There are parts of Southeast Asia, for example, that you've got these smallholder, peasant farming systems that use a very intensive — they use manure a lot, and they have maintained really excellent soil quality. That's because, on the whole, there are fairly stable systems, and they're in fairly stable market context.

                        What's destabilizing for soil is when you have a sudden expansion of demand and intensification of production that the natural ecosystem of the soil in that particular area can't support. There are many places around the world where you can point to that kind of dynamic having happened as well. There's no hard and fast rule, I think. You can certainly generate what the basic principles of good soil management are and apply them pretty much anywhere and it's going to improve your situation if you're in one of those stress systems.

Interviewer:  Yeah. Is there a movement to try to use regenerative agriculture techniques like no-till?

David:             Yeah. No-till, cover cropping, there's a whole range of systems. I think whatever agricultural system you're in — whether it's a system that's typical of, like, the U.S. or the Brazilian corn and soy belt, very high productivity, industrial agriculture, or a smallholder system like you could find in Africa or Southeast Asia — good soil management is a basic principle of success in all of those different agricultural systems. That's why it's really strategic for us to focus on it, because it doesn’t really matter what scale of agriculture you're in; basic soil management is going to be important, too, so it's an across-the-board strategy for us.

Interviewer:  Okay. Let's step back up to the global level that you're focused on. When you look at agriculture as a whole internationally, what do you see with regard to greenhouse gas emissions? That's a trickier thing to measure at the local level, right?

David:             Yeah. Well, we know a lot about what the patterns of greenhouse gas emissions around agriculture are, and I think we can make some pretty secure assumptions moving forward based around what we know about population growth rates and also consumption, patterns of consumption in developing countries as they transition from developing status to developed. I think China is a really good example of what you can expect; the country, a generation ago, was poor. I have colleagues in China who talk to me about their siblings who — they remember famine conditions when they were children. China today is a totally transformed country: much higher levels of income, much higher levels of protein consumption, protein demand, rather, so we can expect a world where hundreds of millions of people are transitioning into a middle-class lifestyle with all of these demand patterns that are involved.

                        For agriculture, I think the really big question on the climate change standpoint is you're going to have a big increase in demand for protein. As we know, enteric fermentation is the second-biggest source of greenhouse gasses after land conversion, so if you have the huge increase in protein demand that we expect, that's got implications. The agriculture could increase overall, in absolute terms, its contribution to greenhouse gas emissions. That's a really important problem for the industry to be thinking about, the solutions to it. There's different range, a very large range of potential solutions to it, but it's really important that people understand, I think, within the industry, that the development pattern that we're on, which we have to manage, too — I don’t think it's possible to do more than bend the curve of development of the margins. It's very difficult to go to countries like China and Brazil and say, “No, you can't be achieving the same levels of consumption and development of the U.S. and Western Europe.” That's not going to happen, but I think, with the combination of wider understanding within the agriculture industry of how critical this is, and also science and ingenuity, which has always been really important in agricultural history as well, I'm reasonably optimistic that we can make progress.

Interviewer:  Can you drill down on a couple of the tools that we might put into place there?

David:             There are a lot of things around soil management that you can do that reduce carbon emissions. There's a lot of work that you can do around reducing the emissions intensity of livestock production. We're going to be diving into, I think, some of that work during this conference (ONE: The Alltech Ideas Conference). There's also a lot that you can do around managing fertilizer, which is an important contributor here as well.

                        But most critically of all, I think we can think about ways that we can intensify agriculture without expanding its geographical footprint into a natural habitat because, if you look at the numbers, that's the single biggest contributor of agriculture to greenhouse gas emissions. It's the expansion of the geographical footprint of agriculture. If food demand increases by 70% or 100% or whatever it is — we know it's going to be a big number — there is no way that we can do that by expanding 70% or 100% the area that we farm or the area that we graze. We absolutely have to intensify our production systems but do that in a way that doesn’t increase the environmental impact of those systems. It's hard, but I think there are some places around the world that you can point to where this is happening to a significant extent already.

Interviewer:  What do you sense as the mood in the room, sort of, when you talk to large agribusiness companies and you talk to governments? Do you think they're excited about digging into this challenge, or are they helpful or optimistic or pessimistic?

David:             That's a hard question to answer because I think it depends on who you're talking to. If I could make some very dangerous generalizations, I'd say that I think the CEO level of ag companies in the agribusiness sector, they get how climate change is important. They're faced with two problems. One is their obligation is to their shareholders, and a lot of the short-term impact of what you need to do to address climate change is not necessarily going to be positive for your bottom line, so there's that tension between the short-term time horizon that many companies have to manage to and the medium- to long-term nature of the impacts of climate change.

                        The other problem, I think, that the private sector often faces is that you have — the world food system and the agribusiness companies within it are very large and complicated organizations, and it's like trying to change, the proverbial changing the direction of a supertanker. It's a difficult thing to do and it takes time and one has to be patient about it, but at the same time, there's a limit to the patience that we can have here given the urgency of some of the problems that we face.

                        In governments, I think there's much greater variety compared to market actors and how they look at climate change and the urgency that they feel. I think the European governments, to take one example, feel the urgency of climate change a great deal, and that's because they're reflecting, I think, the greater level of concern about that among European electorates. You don’t see that same level of concern in developing countries, for obvious reasons; they have very pressing social and economic issues that they have to address, and they regard those as more politically important in the short term than the longer-term issues that swirl around climate change. I completely get where they're coming from on that, but that's basically the picture of where we are.

Interviewer:  Well, let's talk about a couple of specific governments, maybe. The president in Brazil has just rolled back a lot of environmental regulations there. Are you afraid that that might undermine a lot of the progress that you've made?

David:             Well, I broadened it out because I think that Brazil and the United States are a really interesting compare-and-contrast right now. There's also, in the U.S., been a rollback of a lot of environmental regulations. There are some similarities, I think, with the view of the world that both President Trump and President Bolsonaro have. I think what you'll find in Brazil, and I think what we've seen in the U.S., is that the president can try and do things and set a certain tone, but Brazil and the U.S. both have quite strong institutions.

                        You will, I think, see a lot of the things that President Bolsonaro was attempting to do end up in court in the same way as things in the U.S. are ending up in court. Brazil has a very strong judicial system. It will take a while for things to work themselves out. I know there's a lot of coverage, all the media coverage about all of the things that could happen and might happen. I suspect that what actually will happen is actually a lot less than some people are thinking, because those institutions are going to come into play and, I think, to a significant extent, moderate what President Bolsonaro is thinking about doing. I think you're probably going to see the same or have seen the same dynamic in the U.S. as well.

Interviewer:  Tell me a little bit about this online tool that you've created for mapping out soybean production in Brazil.

David:             Sure. As I've referred to, a critical question for the long-term sustainability of agriculture in the Cerrado is encouraging soy and other grains and oil seeds to expand over land that's already been cleared instead of directly into native habitat. So, companies and other market actors, they might want to do that, but they'd face the challenge of, "Well, where would it be most economic for me to do that?" That's partly a question of what your environmental conditions are, what your topography is, what your precipitation ratio is, what your soil conditions are like, but it's also a question of economics — like, what are your transport costs going to be like, what's the yield history of this particular area, what yields can I expect, how much fertilizer am I going to need, all those kinds of questions.

                        What Agroideal does — and I should emphasize that Nature Conservancy put the system together, but the parameters of the system and what it's meant to do was completely designed by the soy traders and the financial institutions in Brazil that have a direct interest in this and can actually really drive what happens. All we did was execute what they said they needed. Agroideal is a geospatial planning tool. It's web-based. It's free for anyone who wants to use it. It allows you to zoom in on particular regions within the Cerrado. It covers the whole of the Cerrado. It's also, by the way, being expanded to Chaco in Argentina and Paraguay. It layers different categories of information — environmental, social, economic — and it allows the user to model different potential scenarios. So, I put a silo here or if I build a road spur over there or a railway in here, how can I do that in a way that minimizes soy expansion into native habitat and maximizes expansion over land that's already been cleared? It's a tool that allows market actors to be able to play with different scenarios and have that influence where they site their infrastructure in a way that channels cropland expansion over cleared land, over pasture, usually, rather than into native vegetation.

Interviewer:  That's fantastic. Well, let's talk a little bit about resiliency. You mentioned that as one of your global focuses.

David:             Well, the first thing to say about resilience is, it's kind of difficult to define. Scientists tie themselves up in knots trying to define it and map it, but you can recognize it when you see it. It's like good art: difficult to define but easy to see when you're walking around the landscape.

                        I'd say there are two really important points to make. One is that you can make all agricultural systems, whatever scale they are, more resilient. You often hear debates about, "Well, this particular system is more resilient than that particular system." Well, that might be true, but that doesn’t mean that you can't increase the resilience of all systems. The other thing, I think, that's really important to understand is that, in order to increase the resilience of your system, it's going to make sense for you to be sharing your agricultural landscape at least a little bit with natural habitat, because natural habitat plays a huge role in buffering the environmental impacts of agriculture. That's true even in a largely converted landscape like the U.S. Corn Belt, for example.

                        Provided you've got patches of native vegetation buffering your field edges, provided you're doing things like cover cropping and trying to do what you can to increase the variety of the agricultural system that you're using — intercropping, whatever it is — you're going to be more resilient than you would be if you weren't doing it.

                        Now, if you're in a smallholder system in Africa, say, or Southeast Asia or China, you're going to be probably more resilient in the sense that you've got lots of different crops instead of just one or two, often, in a really small area — but at the same time, you've got bigger population and growth. You've got urgent demands for production, and that can also undermine the resilience of your system, because you're over-intensifying, basically. The strategies that you would use in different settings vary depending on the nature of the system, but in general, don’t keep all your eggs in one basket. Diversify as much as you can. Make sure you've got some native habitat around to be buffering the impacts of what you're doing.

                        I think it's easy to talk about it in the abstract. It's often good to be citing some concrete examples. My favorite example is actually what, on the surface, looks like one of the most vulnerable, politically unstable parts of the world for farmers, and that's Sahel. That's the area just south of the Sahara Desert as it transitions into West Africa. In the last 10 to 15 years, specifically in Mali and Niger, countries which had all sorts of political problems, you've had this extremely impressive agroforestry movement, where thousands and thousands of small farmers have implemented a system that's known in the trade as farmer-managed natural regeneration. It involves using a lot of different tree species to intersperse with their cropping. Some of the tree species have direct economic use, some of them don’t, but they all have an important role in helping to shield cropping from the effects of drought and increasing yield. You look at satellite photos of that part of the world, compare them, what they are, compare them today with what that part of the world looked like 20 years ago. It's much greener today, so there are examples of success stories. It's not just a story of “what a terrible problem, and it's really difficult to do anything about it.”

Interviewer:  Yeah. Well, that's really exciting that they're seeing increased yield from that practice. Do you know if there are upfront costs that they have before they can switch to a practice like that, and how can we overcome those upfront costs?

David:             There are upfront costs. The upfront costs are quite modest. It's a fairly low-tech solution compared to what you might be using in other parts of the world. Those costs have been funded by a combination of governments getting behind it, agriculture research institutes and extension agents getting behind it, so a lot of experimentation on what particular species would be good that was done within CGIAR network, which is a UN-funded network of agricultural research institutes. A lot of non-governmental organizations also played a really important role in bankrolling some of the costs, so lots of different people got involved.

                        The critical thing, I think, is that this was a low-tech solution. There were costs, but they weren't crippling. And even within the context of the fairly poor, hardscrabble farming that most of these villages were in, it was realistic. With appropriate external help, they were able to scale it up to the level that it's reached today.

Interviewer:  I imagine that Nature Conservancy works to try to spread practices like that.

David:             Yeah. Funnily enough, we can't claim any credit here because we actually don’t have a program in West Africa. Our programs are in East Africa in Africa. It's very much the type of thing that we try to encourage, building resiliency, but also when we're looking at it, not just trying to import expensive external solutions that just aren't a realistic proposition for the realities on the ground and the places that we're trying to influence.

Interviewer:  A similar kind of practice, I think, is silvopasture, where you mix forests and livestock pasture. Where do you see that taking off in parts of the world?

David:             Actually, that is one of the areas we work very directly with in Colombia and also in Argentina. You do see it taking off, yeah. It's really impressive to see some of the transformations it's been able to cause on the ground. I would introduce one note of caution, which I think is not just with agro-silvopastoral systems, but across the board, is that, sometimes, the impacts are really spectacular, especially in places that have been badly degraded. It's extraordinary how quickly areas can come back when they're well-managed, and these systems are really good at doing that.

                        Agriculture is always about context. It's the most contextual thing that there is, and what works in one valley might not work in the next valley along, so it's important not to get too evangelical and oversell any individual strategy. I think sometimes that happens with agro-silvopastoral systems. People try and say it's a silver bullet when, in fact, we're in a world where it's silver buckshot. I think it's really useful. We work with it directly. We find, especially in Colombia and Argentina, it's really made a huge contribution, but it's one of lots of solutions that we need to be thinking about and implementing.

Interviewer:  Well, it's exciting that there are some very low-tech solutions like this that are helping farmers put carbon back into the soil and into the forests.

David:             Yeah, although I would say also, I'm not knocking for the high-tech solutions either, because I think one of the really interesting things about American agriculture right now is that you look at the digital technologies that are coming out and the extraordinary way that they can transform how we manage water, for example, how we're able to target inputs in a really efficient way so that we can, for example, know exactly when we ought to be applying fertilizer, exactly where, and that kind of input efficiency is also really important in being able to reduce the environmental impact of agriculture while increasing yields.

                        I think one of the really fascinating questions that we'll be working out over the next 10 or 20 years is the U.S., in particular, it's always been this engine of technological innovation that's always led the way in thinking about the appliance of science. It's really had an extraordinary impact on the productivity of American agriculture. Now, if we could get those, even a fraction of those productivity gains in places like Africa or in Southeast Asia, we'd be well on the way to solving the problems that the world food system faces.

                        One of the great challenges, I think, is how can we translate those technologies and bring the promise that digital agriculture offers to very different settings, where you have farmers who are, on the whole, poor; on the whole, can't afford the level of investment that American farmers can to access these technologies; and, on the whole, don’t have much of a digital education. These technologies are complicated, and a farmer who doesn’t have much education is going to have trouble applying them. You don’t have, in Kenya or Tanzania, this ecosystem of service providers that you have in the U.S., but when you think about the need to increase the productivity of agriculture while minimizing its environmental impacts, these technologies can be incredibly transformative. How you can get them working at a scale in a smallholder farming context, where you have poor farmers and not so much capital to invest — that, I think, is one of the great unanswered questions of the next generation. If we answer it, I think we'll be a long way towards cracking the kind of questions that we've been discussing today.

Interviewer:  That's very exciting, and I like your concept of silver buckshot.

David:             It's not my phrase, by the way. I have to acknowledge Jon Foley, who's the president of the California Association of Science, who came up with that.

Interviewer:  Well, thank you very much, David. It was great talking to you.

David:             Yeah, it was a great pleasure. Thanks a lot.

Interviewer:  Thanks.

Over the next few years, food production must almost double to meet the needs of the world population and the global demand for protein. This has put pressure on the livestock sector to maximize output while reducing the usage of resources, making animal feed the largest and most important component in the industry to provide healthy and sustainable animal protein.

One of the biggest challenges for the feed industry and animal nutrition is the rising cost of feed, which can account for up to 70% of total production expenses. Furthermore, around 25% of the available nutrients cannot be fully utilized by the animal due to anti-nutritional factors in the feed, which could be costly for the global livestock industry.

Today, the greatest challenge for the nutritionist in the feed industry is reducing this indigestible fraction and maximizing feed efficiency based on nutritional and economic factors, which often vary and may be unique to each production system.

Improving animal and feed performance with feed innovation

Scientific innovation is critical for the future of animal nutrition and protein production. Some key areas of focus for the global animal feed industry to improve animal and feed efficiency are:

• Improving animal performance characteristics (e.g., feed-to-weight-gain ratios, smart feed for more nutritious animal products)
• Minimizing costs (e.g., less expensive base ingredients, more efficient utilization of grain for feed)
• Maximizing feed production efficiencies in a sustainable way (e.g., processes and practices)

While traditional feedstuffs continue to be used at high rates, new and novel feedstuffs are now routinely implemented in animal feed formulation. A range of innovative applications are being used to optimize and assess the continued development of efficient and sustainable advances. Advanced technologies, such as nutrigenomics, reveal the relationship between feed nutrients and gene expression. Nutrigenomics allows the industry to identify feeds that can help animals reach their genetic potential by directly impacting the genes responsible for growth rate, meat quality and disease prevention.

Another technology that will allow for the prompt characterization of the nutritional value of raw feed materials is in vitro digestion modeling. These models, which can be used for both poultry and swine, provide real-time decision-making options to maximize feed usage while also improving animal production.

A third area of feed innovation involves providing supplemental feed that contains exogenous enzymes, also known as feed enzymes, which aid digestion by promoting the release of nutrients that are typically unavailable to the animal, improving animal performance in a sustainable way.  

The role of enzymes in the feed industry

Enzymes, which are essential for life, serve a wide range of functions and are especially important to the feed industry, thanks to their ability to break down nutrients. Enzymes are naturally occurring catalysts that speed up the rate of most chemical reactions that take place within cells.

Enzymes play a key role in the animal’s digestive process. Although digestive enzymes are produced by the animal itself — or by naturally occurring microbial organisms in the animal’s digestive system — producers have also used exogenous feed enzymes for many years for nutrient utilization and improved performance in animal feed.

Using poultry nutrition as an example, feed substrates and enzymes can generally be thought of in three ways:

1. Naturally produced endogenous poultry enzymes in the digestive tract of the bird for the liberation of nutrients from feed components, such as starches, proteins and lipids
2. Exogenous enzymes not native to the animal’s digestive system that act on recalcitrant substrates, which are not easily digested but which could potentially be utilized as nutrients, such as the glucose in cellulose in poultry diets (e.g., use of cellulase enzyme in poultry nutrition)
3. Exogenous enzymes not produced by the animal’s digestive system that could act on difficult-to-digest substrates, as well as any anti-nutritive effects, due to compounds such as β-glucans, xylans and phytate (e.g., phytase enzyme in poultry feed)

Performance and profitability are often the primary reasons for utilizing feed enzymes, as they are the direct result of the improved digestibility and the increased availability of nutrients like phosphorous, carbohydrates and amino acids and, in turn, an increase in available energy as well. However, feed enzymes also allow for the use of a broader range of feedstuffs, which can allow for flexibility in the formulation of the diet by using non-conventional sources or alternative raw materials. These alternative sources are a direct result of the growing demand for corn, wheat and soybean meal. The increased demand for grains has also increased their value, leading feed producers and nutritionists to look for alternative feedstuffs to reduce costs. Non-conventional dietary sources, however, might not be as readily digestible, as the animal may lack the necessary endogenous digestive enzymes and, as such, will glean less nutrition from the feed. The utilization of exogenous enzymes to make the feed more digestible increases the nutritional value of these non-conventional feed sources for the animal.

Over the past 20 years, enzyme supplementation in the animal feed sector has grown and developed dramatically. The global feed enzyme market is currently estimated to be more than US$1 billion and is expected to grow by another 8% over the next five years. Right now, phytase holds the largest market share; however, the use of proteases and NSP enzymes, such as xylanase, has accelerated to such an extent that they are being included in over 57% of monogastric diets. Enzymes in poultry feed has been the largest segment, followed by the swine and aquaculture industries.

Feed enzymes over the years

Early research studying the role of enzymes in poultry nutrition was already taking place in the 1920s. The R&D evolution continued through the 50s and 60s, when barley diets were commonly fed, and research showed that enzymes improved poultry performance. During the 80s and 90s, a better understanding of NSPs in fiber and their impact on animal performance became a focus of the research, and the use of xylanase also became prevalent. During the late 90s, the use of phytase became standard practice. Currently, in terms of the feed penetration of phytase and carbohydrase enzymes such as xylanase, the feed enzyme sector is a mature market. The benefits of providing exogenous enzymes in the feed include the reduction of anti-nutritional factors in the animal feed, the use of lower-cost feed ingredients and an improvement in feed conversion and animal performance — but in order to get the most out of your animal nutrition, it is important that you choose the right feed enzyme to meet your needs.

A unique process development

The majority of feed enzyme production originates by using both bacterial and fungal microorganisms produced either from the submerged fermentation (SmF) or solid-state fermentation (SSF) processes. 

Naturally occurring microbial strains for the production of enzymes are of great value and continue to be utilized, but the use of recombinant versions accounts for the majority of industrial enzyme production today. 

Solid-state fermentation systems can be tailored to address specific needs based on the substrate and microbial selection. For example, Aspergillus niger produces a cocktail of enzymes that contain multi-enzymes such as phytase, xylanase, cellulase, protease and β-glucanase. These enzymes, both as individual applications or as a concoction of enzymes, have a broad spectrum of industrial applications.

Early assessments characterized SSF as being a simplistic process, less technologically advanced than the SmF process, but that assessment was later shown to be erroneous and based on a poor understanding of SSF process requirements. Recent rigorous studies have shown that, with the proper design, the technical and economic advantages of SSF far outweigh those of SmF. The many economic advantages of SSF over SmF include a lower capital investment, lower energy requirements, a lower environmental impact based on water consumption and waste generation, and lower costs for downstream processing. Additional studies are needed to continue identifying opportunities for agro-industrial residues as substrates and to match the appropriate microbes to cultivation conditions. Tray fermentation has become the proven leader in large-scale SSF applications, and much work has been completed on the control of key parameters to optimize growth at a commercial scale. Innovations in engineering to allow for large-scale SSF processes offer a major opportunity for growth in the commercial enzyme industry.

Maximizing feed efficiency with enzyme technologies

Enzymes are well-known to be an effective solution for optimizing feed efficiency. Enzyme supplementation in animal diets increases nutrient digestion by breaking down anti-nutritive components, such as phytate and NSPs, into forms that are more readily absorbed by the animal, reducing the environmental impact as well, while saving on costs for producers. 

Feed efficiency starts with an accurate knowledge of raw materials and their quality, allowing for the precise adjustment of the feed formulation. How well an enzyme performs, in many cases, is determined before it even reaches the animal. Feed processing methods — whether milling, grinding or, particularly, pelleting — can have a major impact on enzyme stability. Furthermore, digestive tract conditions, particularly pH changes and substrate availability, can also influence enzyme efficiency.

Enzyme characteristics can vary widely depending on the source. Solid-state fermentation has the potential to offer competitive advantages based on cost and efficacy.

Click here for more information about the Alltech Enzyme Management Program.

To improve profitability and meet consumer demands, farmers need to manage dairy cow comfort as well as intakes, body temperature, stress levels and additional aspects for each cow. Without precision dairy monitoring and real-time data, this is nearly impossible. Dr. Jeffrey Bewley, Alltech's dairy housing and analytics specialist, shares where technologies like robotic milking and sensors come into play.

The following is an edited transcript of Kara Keeton’s interview with Jeffrey Bewley. Click below to hear the full audio.

Kara:              Dr. Jeffrey Bewley, Alltech's dairy housing and analytics specialist, is with me today to talk about the impact of technology on the dairy industry. Glad to have you today, Jeffrey.

Jeff:                Glad to be here. Thank you.

Kara:              I know your interest in the dairy industry grew from your involvement with your family's dairy operation in Kentucky. How did experiencing a traditional operation inspire your research today?

Jeff:                In the end, what drives me is helping dairy farmers and helping improve the lives of dairy cows, and that was something that was instilled in me from a very young age on the dairy farm in Kentucky from my grandfather. He was actually quite a good dairy farmer and didn’t realize it at the time, but I learned a lot from him. I learned the importance of understanding records and data. From a way too young age, I was working with spreadsheets for the dairy farm, and that got me interested in data. I really guess I was probably born at the right time in that regard because, now, we have a data explosion. You hear about terms like big data and precision dairy and the internet of things, and here I am in the right place at the right time, because those are now very important parts of dairy operations and are going to continue to be more and more important because there's a massive opportunity with the amount of data that we have available to us now on dairy farms.

Kara:              You mentioned precision dairy monitoring. What opportunities can that provide to dairy operators?

Jeff:                Basically, when I refer to precision dairy monitoring, I'm talking about monitoring individual variables on the same animals across time. We might be looking at something behavioral — for example, a Fitbit for cows kind of an idea — or we might be looking at something within the milk or something physiological with the animal, or looking even with image analysis to look at the contour of the animal for something like how thin or how fat the animals are.

                        So, we're looking at these variables, trying to perform a management by exception approach. We're looking for animals that maybe are deviating from their normal behavior; that might indicate that it's time to take some kind of an action with that animal. For example, there might be an early indication that that animal is becoming sick. These technologies provide us an opportunity to monitor cows 24 hours a day. They're watching that animal, and they give us an early indication that something is going on. If we're able to detect something early, then the chances that we're going to have a successful intervention are higher, so, basically, it's all about making the lives of the animals better.

Kara:              I love the idea of a Fitbit for dairy cows. How are farmers embracing this technology? We all know some are tentative to move to something new. In your work, your research and your work on the farms and with farmers, are they accepting this new technology? Are they seeing the benefits of this into their operation?

Jeff:                They're generally fairly accepting of the technology. I think they see the value in it. They see the real-world stories, and they see the differences that the technology can make. The biggest issue, ultimately, probably comes down to cost. There's a cost involved, and the last few years have not been the strongest for milk prices, so it's been a little bit difficult in terms of adoptions, because people haven't had the extra capital to invest in those kinds of improvements. But for those that have had that or those that see that they need it to take them to the next level, they've been able to adopt that type of technology very readily and very successfully.

Kara:              Those that are embracing technology, of course, still have to focus on the day-to-day operations. Is technology replacing the human factors in operation, or is it just enhancing their ability to run a successful dairy operation?

Jeff:                It is definitely not replacing it. It may replace, in some cases, some of the monotonous tasks that are involved. For example, if we think about something like robotic milking, milking is pretty much a monotonous task, and robotic milking is able to do that, but in general, I would actually say that the use of technologies on dairy farms increases the need for people that really can understand cow behavior and can interpret what that information means. It increases the level of skill required.

                        So those that really understand animals and really can read beyond what the data might say are the ones that are going to benefit the most from the technologies. The people that use it as an easy way out are not going to be very successful. The analogy that I use a lot of times is, for example, if people want to lose weight, then it would be really nice if we could go down and take a pill and automatically lose weight. In reality, you still need to exercise and eat better, and I think that's the case with dairy farms too.

                        It's not an easy way out. We can't put a technology and, suddenly, things get better. You still need to be a good manager and know how to use and interpret that data.

Kara:              You spoke of the automatic milkers on farms, and that technology is a time-saver and labor-saver for farmers. How are technologies impacting dairies across the world? Are we seeing, on a global scale, this technology embraced, or is it more in the U.S. and maybe Europe?

Jeff:                There are definitely differences in the technology adoption around the world. I think, in general, Europe and Israel are the biggest adopters of technology. The United States is definitely behind in that regard. I think a lot of that has to do with labor costs. European labor costs are higher. That means that the technologies start looking economical sooner. Then, another factor is that a lot of our operations in the U.S. are larger, and some of the technologies, the economy as a scale, aren't quite there, so it still makes sense to do things with people instead of with technology, in that case. Also, I think the economic conditions in the last few years would have an impact, too.

Kara:              With your work at Alltech and the research that you're doing here and around the world, what new technologies are on the horizon that will really change the way that dairy producers manage their animals in the future?

Jeff:                I think it's really neat, what's coming on, in terms of being able to analyze variables within the milk, so there are a lot of biological parameters that we can pick up in the milk. The nice thing is we don’t have a variable cost associated with attaching something to every animal in the herd. We can use the same technology to monitor sometimes 10 or 15 different variables with the same technology.

                        The other place is in image analysis — so, being able to use the same technologies that are used in the human industry for looking at facial recognition or even the same kind of cameras that are used in the Xbox, for example, to look at something like how fat or how thin the animals are and measure that automatically, basically, just using geometry to do that, or being able to track the movement of the limbs as the cow walks, to be able to pick animals up that have feet and leg problems sooner, or being able to use that kind of technology to monitor feeding behavior and which cows are eating, how much time they're eating, and perhaps even eventually getting into how much that they're eating. These two areas, I think, are huge opportunities that we're going to see more and more technologies come out in the next decade.

Kara:              While technology is being embraced by the dairy industry, it is still, in large part, a family-friendly industry. There are a lot of family dairies out there. As you work with different farms, what do you see as the changes in the operations? Are the families still seeing a future for the industry? Do you see it changing in another direction in the future?

Jeff:                Well, one of the things that's particularly nice about robotic milking, for example, is that it takes away a task for a small dairy that really takes a lot of their time. With robotic milking, you can have one robot handle 50 or 60 cows, so it works very well for a small dairy and allows them to be able to not have to be tied down to three times a day when they're in the milking parlor with that monotonous task. Most people would argue that one of the biggest advantages of investing in a robotic milking system — particularly for a smaller dairy — is quality of life improvement. I think that technology has an opportunity to really improve the lives of small farms. Also, it's something that a lot of younger people really gravitate toward. In many cases, you hear stories where it's something that the next generation maybe wasn't that interested in being the dairy farmer and carrying on the family legacy until the robot came about, and then, that increased their level of interest to be able to continue that operation.

Kara:              So, from the health of the animal, the production on the farm, operations and even the life of the family members, in the bottom line, the technologies in the dairy industry are all-around improving what they're seeing in their operations.

Jeff:                They have a lot of potential for improving things at a lot of different levels. I think there's always a reality check that comes in that, sometimes, the data doesn’t do necessarily what it was supposed to do. You have to do something with the information that turns into a meaningful decision, and the economics of those technologies become very important also, so it's not necessarily magic, but I often say that the technologies don’t change the cows and they don’t change the people. They will change the way the two work together.

Kara:              Well, thank you so much for your time today, Dr. Bewley, and we appreciate you coming.

Jeff:                Thank you.

Kara:              That was Dr. Jeffrey Bewley, Alltech's dairy housing and analytics specialist.

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