Ecolex Animal Nutrition supported a presentation on next-generation feed additives at the Global Poultry Forum, highlighting strategies to reduce antibiotic reliance. The session focused on enzymes, humic acid and fatty acids to improve poultry health and performance.
Ecolex Animal Nutrition, demonstrating its commitment to One Health solutions that support animal performance, producer profitability, and help tackle antimicrobial resistance (AMR), served as Platinum Sponsor of the Advanced Poultry Nutrition Forum 2026 in Bangkok, Thailand. The company supported Prof. Julian Wiseman of the University of Nottingham in presenting “Next Generation of Feed Additives—Where Are We Heading?”, focusing on reducing reliance on feed antibiotics and exploring effective alternatives.
The presentation, which focused on enzymes, humic acid, and fatty acids to improve poultry health and performance, highlighted the following:
RAW MATERIAL QUALITY
Supply chain disruptions are driving diversified locally sourced ingredients with associated quality issues:
• Mycotoxin contamination
• Microbial contamination
• Anti-nutritional factors
Mycotoxin contamination can be mitigated through the use of binders but there are problems with this approach including limited mycotoxin spectrum. Other approaches include the use of humic acid and enzyme solutions.
HUMIC ACID—AN EMERGING TOOL FOR MYCOTOXIN MITIGATION
Prof. Wiseman identified humic acid as one of the key emerging molecules likely to play a greater role over the next five years as an adjunct to antibiotic reduction strategies—in the context of rising mycotoxin risk. As more by-products and local raw materials are incorporated into poultry diets, the potential for hidden mycotoxin-related losses is expected to increase.
Humic acid stands out because:
• It is a natural organic compound, derived from decayed plant and animal material and brown coal.
• It contains trace minerals, humus, and fulvic acid, long recognized in crop agriculture for improving nutrient uptake.
• It is available as a feed ingredient or water-soluble additive, offering flexible application in animal production.
Functionally, humic acid offers more than just organic matter:
• Its complex, high molecular weight structure confers a strong binding (chelating) capacity, allowing it to form complexes with mycotoxins and heavy metals, much like clays or yeast cell wall products.
• It also acts as an antioxidant, helping to protect the intestine and liver and supporting birds under oxidative stress associated with mycotoxin exposure.
The unique chemistry of humic acid—its aromatic rings, phenolic, carboxyl, and quinone groups—underpins both its mycotoxin-binding properties and its role in gut and liver support. This dual functionality is exactly why humic acid is gaining attention as part of the “next generation” toolbox for more resilient, sustainable poultry production.
ENZYMES—TAKING MYCOTOXIN CONTROL TO THE NEXT LEVEL
Prof. Wiseman highlighted how mycotoxin-neutralising enzymes are changing the way we think about feed safety. Unlike traditional binders that simply physically adsorb mycotoxins, these enzymes provide rapid, irreversible and highly targeted detoxification, pushing feed safety to the next scientific level.
He highlighted several advantages of enzymatic approaches:
• Specific bio-transformation of mycotoxin molecules into non-toxic metabolites
• High selectivity and substrate specificity, reducing the risk of interfering with valuable nutrients
• Enhanced activity, stability, and scalability through advances in protein engineering
Specialised enzymes derived from diverse microbial sources can now achieve precise, irreversible mycotoxin neutralisation, and are gaining growing importance in commercial feed solutions.
At Ecolex, we see humic acid and enzymes as promising components within integrated mycotoxin management, developing solutions such as PuraTox Pro that protect animal health, support producer profitability, and reduce reliance on antibiotics within a One Health framework.
THE FUTURE BELONGS TO ENZYME BLENDS + EMULSIFIERS
In his presentation, Prof. Wiseman highlighted how the future lies in multi-enzyme blends working together with innovative emulsifiers to unlock more value from every ingredient. Candidate molecules that exhibit digestibility enhancement include:
• Sodium stearoyl-2-lactylate (SSL)
• Glycerin monostearate (GMS)
• Distilled Monoglycerides (DMG)
Prof. Wiseman stressed that non-starch polysaccharides (NSPs) are not one simple target, they are a highly complex group of molecules—pentosans (arabinoxylans), hexosans (β-glucans), mixed (xyloglucan) and cellulose. That means no single NSP enzyme can do it all—enzyme blends need to be designed with this complexity in mind.
Interestingly, he noted that while xylanase is traditionally used to break down NSPs, studies at the University of Nottingham suggest it may act indirectly by affecting physiological mechanisms, such as increasing intestinal glucose absorption capacity, which in turn can support better growth and FCR.
For Ecolex, the next step is clear: multi-enzyme blends plus targeted emulsifiers—like EnzaMax Pro, helping producers manager variable raw materials, and support gut health—turning complexity in the feed into opportunity on-farm.
BEYOND ANTIBIOTICS—THE POWER OF FATTY ACIDS
He reminded us that most major bacterial pathogens in poultry now include multi-drug resistant strains. One of the strategies he highlighted is combining short-chain fatty acids (SCFAs) with alpha‑monolaurin (AML) to provide broad-spectrum control of Gram+ and Gram- bacteria.
He spotlighted medium chain fatty acids (MCFAs)—especially lauric acid (C12) from coconut and palm oil—for their ability to act quickly in the gut, disrupting harmful bacteria, supporting gut integrity, and boosting flock performance. Through efficient processing, a 60–68% AML product can be achieved, and when emulsified, its molecular potency is significantly increased.
| Inhibition ratio (%) – glycerol monolaurate vs. emulsified a-monolaurin | ||||||
| Bacteria | Control | Glycerol monolaurate | Emulsified a-monolaurin (Lipo ZAP) | |||
| 600ppm | 1,200ppm | 600ppm | 1,200ppm | |||
| E. coli | 0 | 4.5 | 11.4 | 87.2 | 92.3 | |
| S. suis | 0 | 6.5 | 15.8 | 90.5 | 95.6 | |
| Fu et. al., (2007) Inhibition ratio (%) = (1-(bacteria CFU in treatment/bacteria CFU in control) x 100% | ||||||
AML doesn’t just hit one target. It can disrupt bacterial membranes, alter intracellular pH, interfere with DNA and protein synthesis, destabilise enveloped viruses, and modulate the host immune response. While acting locally in the gut, AML can also exert systemic effects via the blood and lymphatic systems, reducing pathogen prevalence, supporting a more favourable gut microbiome, and improving digestion and nutrient absorption.
Strategically combining AML and SCFAs was presented as a robust approach to reinforcing gut barrier function, suppressing pathogenic load, and enhancing flock vitality, thereby providing a proven alternative to antibiotic growth promoters (AGPs)—fully aligned with Ecolex’s vision for sustainable poultry nutrition.
FINAL THOUGHTS
Prof. Wiseman concluded that consumers are becoming increasingly discerning and health conscious, demanding high quality and safe proteins. Meeting this demand requires producers to treat nutrition, health, and food safety as a continuous chain, not isolated points—from raw material quality through to the live bird and final product. By adopting a holistic One Health approach, that includes smarter nutrition, producers can build more robust, efficient birds while lowering infection pressure and the need for antimicrobials. Such integrated programmes not only safeguard performance and profitability, but also contribute directly to protecting animal welfare, preserving antibiotic efficacy, and deliver poultry products that consumers can trust.
