The bacterial mechanism, explained without the marketing.
HayRite works through the BioMatrix Mechanism™ — a five-pathway biological system that protects hay from cutting through storage. Each pathway addresses a different vulnerability in the haymaking process, and together they form a coordinated defence.
1. Active colonisation
When hay is baled, the freshly cut plant material carries a surface population of microorganisms — some beneficial, many neutral, and some that drive spoilage (specifically yeasts and moulds). These spoilage organisms compete for the available sugars and moisture on the hay's surface.
✓ Confirmed When HayRite is applied at baling, it introduces approximately 10⁹ colony-forming units per millilitre of Bacillus amyloliquefaciens DB38 — a population so large and so quickly germinating that it occupies the surface niche before the spoilage organisms can establish.
Once the niche is occupied, the spoilage organisms can't get a foothold. The mechanism is purely competitive — the same dynamic that keeps a healthy soil microbiome from being overrun by pathogens, scaled to the surface of a hay bale.
2. Extracellular antifungal production
As the Bacillus population grows on the hay surface, it produces a class of compounds called lipopeptides — specifically surfactin, iturin, and fengycin. These are naturally produced antifungal molecules.
✓ Confirmed Bacillus lipopeptides are extensively documented in the peer-reviewed literature on biocontrol applications across many crops and food preservation systems. The mechanism by which they suppress moulds and yeasts is well-characterized.
⚠ Strain Caveat The specific lipopeptide profile of DB38 versus other Bacillus amyloliquefaciens strains has been characterized but isn't yet published in detail.
3. Dynamic biodesiccation
The Bacillus DB38 in HayRite digests stem waxes — the natural waxy layer that slows moisture movement out of plant tissue. By breaking these waxes down, HayRite accelerates drying, shortens the high-risk window where spoilage fungi establish, and reduces the heating that drives bale temperatures into dangerous territory.
✓ Confirmed Bacillus species are well-documented producers of cuticle-degrading enzymes that affect plant surface waxes, across multiple crop systems in the agricultural microbiology literature.
◐ Trial Data Field trials documented baling readiness reduced from approximately 14 days down to approximately 6 days under treatment — a meaningful narrowing of the weather-exposure window between cutting and storage.
4. Resilient spore persistence
HayRite's Bacillus is delivered as a spore-based formulation, not as live vegetative cells. That distinction matters in the field.
✓ Confirmed Bacillus spores are naturally resistant to UV light and to desiccation — properties that have been characterised across the broader Bacillus literature for decades. The spore form survives environmental conditions that would kill the active cells, then rapidly reactivates when moisture becomes available.
This means the population stays viable from application through baling and into the early storage window, where the heating and mould risk lives. The product doesn't lose efficacy on a hot, sunny windrow the way many biological inoculants do.
5. Natural & safe by design
✓ Confirmed HayRite's active strain is non-GMO and non-pathogenic. DB38 was originally isolated from Australian alfalfa under commercial hay production conditions — it comes from the same agricultural environment it now protects.
✓ Confirmed No withholding period when used as directed. No equipment corrosion. No chemical residues to manage in the milk tank or at slaughter. No specialised PPE for routine application.
The pathway isn't a single mechanism so much as a property of the product as a whole — the consequence of building the system around a beneficial, naturally-occurring bacterium rather than a chemical preservative.
The bee-hive analogy
Think about what a healthy honeybee colony does when it's established in a hive. The bees defend the territory aggressively. They consume the food. They produce compounds (propolis, antimicrobial enzymes) that keep pests, fungi, and competing organisms out. They occupy the space — and that occupation is the defense.
HayRite does the same at the surface of the hay. Applied early, the beneficial population establishes before the spoilage organisms can. The treated hay's surface gets occupied. Sugars get consumed. Antifungal compounds get produced. The combined effect is that heating and mould growth, the two drivers of stored-hay quality loss, are dramatically suppressed.
Why temperature is the leading indicator
Bale temperature is the cleanest measurement of microbial activity. When spoilage organisms are growing, they respire — and respiration generates heat. A hot bale is a bale where unwanted organisms are active.
◐ Trial Data In Darts' 2023 trial, treated bales averaged ~30% lower internal temperatures during the critical first 14 days. That's the most direct evidence we have that the bacterial mechanism is working as intended.
Continue learning
Read about application protocol or see the full product overview.
Application guideProduct overview