5 things to look for in forage inoculant research

5 things to look for in forage inoculant research

Producers should also consider local conditions, farm practices and silage history.

Applying a forage inoculant to a crop at harvest requires a leap of faith, as the producer will not see the resulting silage until it is opened weeks, or even months, later.

“To get best results, producers should use inoculants that are proven with independent, scientific research in the target crop,” said Bob Charley, Ph.D., Forage Products Manager, Lallemand Animal Nutrition. “The trials should validate the efficacy of the product at the application rate stated on the label and, ideally, be published in a reputable journal or presented at a scientific conference.”

Charley recommends making sure that research is:

Look for research before purchasing, applying silage inoculant. (Photo: oticki/Thinkstock)

1. Performed with the specific product formulation. There can be wide differences between specific strains of inoculant bacteria, so discount generic data.

2. Fits the crop being ensiled. Inoculants can perform differently when applied on different crops due to variations in dry matter (DM) content, ensiling challenges and susceptibility to aerobic spoilage.

3. Conducted at independent research facilities, such as universities.

4. Published in reputable journals. Trials published in scientific journals are peer reviewed.

5. Validates the intended application rate. Data should be from studies using the level that will be applied following product recommendations.

Producers should also consider their own local conditions, farm practices and silage history — although not all these factors can be reflected in independent research. For instance, slow feedout rates may point to using an inoculant proven to increase aerobic stability.

“While it is a stretch to expect to see a specific trial showing the inoculant’s performance under slow feedout rates in your state or region, producers facing those management challenges should absolutely look for data on the product’s ability to enhance aerobic stability,” Charley said.

Not all products are proven to affect aerobic stability. Lactobacillus buchneri 40788, applied at a minimum of 400,000 CFU per gram of silage or 600,000 CFU per gram of high-moisture corn (HMC), is the only bacteria reviewed by the FDA and allowed to claim improved aerobic stability. Products combining the high rate L. buchneri 40788 with a homolactic bacterium can help control the initial ensiling fermentation and keep the silage stable throughout feeding.

“It comes back to looking for the independent trials data to validate the efficacy you need,” Charley recommends. “I ask producers to think back to challenges they experienced in previous years. Then, look for an inoculant that can help you overcome those obstacles. Asking for proof that an inoculant can do the job you need is your right, and can help ensure your inoculant investment is returned to you in the form of high quality silages.”

Source: Lallemand Animal Nutrition

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