Source: Alltech news release
[LEXINGTON, Ky.] — This year, U.S. farmers and producers have experienced droughts, high rainfall, and other weather events affecting the corn harvest, making it more critical than ever to analyze mycotoxin risks across the nation. The Alltech 2023 U.S. Harvest Analysis has collected and assessed almost 450 new-crop samples from across the U.S., and the results show regional variation in mycotoxin risk. Samples showed lower risk in the upper Midwest and higher risk in the East. A combination of drought and untimely rains led to much of the risk.
Mycotoxins are produced by certain species of molds and are a concern for livestock producers, as they can influence feed quality and subsequent animal health and performance. The Alltech U.S. Harvest Analysis, a decade-long initiative, is a comprehensive step in understanding the complexities of new-crop quality, mycotoxin prevalence, and the threat that mycotoxins pose to animals and producers. To determine the most accurate representation of mycotoxin risk across the U.S., samples are collected by Alltech representatives and sent to the Alltech 37+ laboratory at the company’s headquarters in Kentucky, which can detect up to 54 individual mycotoxins.
The corn silage and corn grain crops for the U.S. in 2023 have been a “moving target” for mycotoxin risk, according to Dr. Max Hawkins, technical support manager with Alltech’s mycotoxin management team.
“Drought in the Southwest and the Western Corn Belt created distinct fumonisin risks in this region, while further eastward, late season rainfall created ideal conditions for Fusarium toxins such as type B trichothecenes to flourish,” he said.
As always, Dr. Hawkins recommends routine monitoring of these ingredients during storage, noting, “Ingredients will rarely be in better condition than when they are harvested.”
Key insights from the Alltech 2023 U.S. Harvest Analysis include:
•Dry conditions in the West created more fumonisin risk, while the later, rain-affected harvest in the East resulted in higher levels of deoxynivalenol (DON).
•In general, the mycotoxin challenge in corn grain and corn silage is lower in 2023 than in recent years. However, there are still pockets of higher risk in the Midwest and the South.
•A surprisingly high risk of aflatoxin B1 was identified in Iowa this year. Another surprising find was Penicillium present in grains, since they are typically a concern in forages.
•A good amount of corn went into storage at 14% moisture this year. It will be crucial to monitor corn coming out of storage, as it may be at higher risk now than when it was first stored.
Corn
Mycotoxin levels continue to be higher in the East and Midwest U.S., specifically for Fusarium mycotoxins such as deoxynivalenol (DON). Earlier harvest conditions and drier conditions in the West helped to create lower risk conditions. However, producers there should be aware of a higher fumonisin risk.
More than 190 new-crop corn grain samples were analyzed this year, and results show an average of 4.4 mycotoxins per sample, with 87% of samples having multiple mycotoxins. Beyond the DON and fumonsin risks already described, another interesting finding was a high level of aflatoxin B1 identified in Iowa. Producers should be vigilant about testing their grains.
Corn silage
Drought early in the growing season negatively affected corn silage in the West this harvest season. The stress of dry conditions followed by moisture allowed certain molds to flourish, particularly Fusarium molds. In the East, the risk was varied, but overall higher. Feed and livestock producers are encouraged to continue to monitor and test silage in storage every 60 to 90 days. This will help inform them of the mycotoxin risk they are facing as the season progresses.
The Alltech 2023 U.S. Harvest Analysis demonstrates that mycotoxins are an ongoing, dynamic issue that livestock producers need to manage. Although testing directly post harvest provides an overview of regional contamination patterns, what happens before the animal receives the feed — including storage conditions post harvest and feeding practices on-farm — can influence what the animal will actually be ingesting in terms of mycotoxins. To best manage this ongoing challenge, producers should consider a routine testing program that can uncover the specific risks. With this information, informed choices can be made on what mitigation strategies are necessary to support the health and performance of the animals.
To access the complete report, as well as a series of videos that provide further species-specific insights, visit Alltech 2023 U.S. Harvest Analysis. For more information about Alltech Mycotoxin Management solutions, visit knowmycotoxins.com.
About Alltech:
Founded in 1980 by Irish entrepreneur and scientist Dr. Pearse Lyons, Alltech delivers smarter, more sustainable solutions for agriculture. Our diverse portfolio of products and services improves the health and performance of plants and animals, resulting in better nutrition for all and a decreased environmental impact.
We are a global leader in the agriculture industry. Our team produces specialty ingredients, premix supplements, feed and biologicals, backed by science and an unparalleled platform of services.
Strengthened by more than 40 years of scientific research, we carry forward a legacy of innovation and a unique culture that views challenges through an entrepreneurial lens. As a private, family-owned company, we adapt quickly to our customers’ needs and focus on advanced innovation.
We believe agriculture has the greatest potential to shape the future of our planet. Our more than 5,000 talented team members worldwide share our purpose of Working Together for a Planet of Plenty. Together, we can provide nutrition for all, revitalize local economies and replenish the planet’s natural resources.
Headquartered just outside of Lexington, Kentucky, USA, Alltech serves customers in more than 120 countries, has five bioscience centers, and operates more than 80 manufacturing facilities across the globe.
For more information, visit alltech.com, or join the conversation on Facebook, X and LinkedIn.
