Post Harvest DON reduction Strategies for Canadian Western Spring Wheat, Durum and Barley

Researchers: Dr. Rex Newkirk, Denise Beaulieu, Daniel Columbus, Natacha Hogan

Co-Funders: uncertain

SaskBarley's Investment:

$25 000

Start Date:

2018

End Date:

2020

Project Overview:

Deoxynivalenol (DON) is the major secondary metabolite produced by Fusarium graminearum. F. graminearum can infect cereals such as: wheat, durum, barley, rye, triticale, and corn. This toxin can make the grain unmarketable for producers.

This study examined methods to recover high quality (low DON) wheat and barley from infected seed lots. Seed sorting by BoMill (Near Infrared Transmittance single seed sorting), air fractionating grain cleaning, the combination of the two and oxidation of the mycotoxin through introduction of Ozone gas produced by an ozone generator into the air stream of an aeration bin during grain drying immediately following harvest.

The BoMill technology effectively sorted both wheat and barley into high and low DON fractions resulting in recovery of significant quantities of low DON wheat especially when using the Fusarium calibration combined with the appropriate vitreous kernel setting and precleaning.

Air fractionation effectively separated infected wheat and barley based on relative grain density but the air speed settings had a significant effect on effectiveness. The combination of air fractionation followed by sorting of mid DON fractions on the BoMill was the most effective method of recovering high quality wheat and barley from material that otherwise had few marketing opportunities.

Ozone treatment during drying by aeration significantly reduced DON concentration (up to a 50% reduction) and would be effective when grain is only marginally too high to market but in more extreme cases the combination of air fractionation and BoMill sorting are recommended.