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Free asparagine (ASN) is the main precursor of acrylamide (AA), a probable human carcinogenic process contaminant in cereal-based bakery products. This study has assessed the combined effects of soil tillage, minimum tillage (MT) vs conventional tillage (CT), and a chemical disease control fungicide application (F) vs an untreated control (NF) on the accumulation of ASN in wholegrain and refined flour. MTNF showed the highest ASN levels in wholegrain flour from multiple wheat genotypes and different agronomic years, whereas on average a MTF treatment reduced ASN by 37%, CTNF by 22% and CTF by 48%. The AA levels measured in the wholemeal biscuits mirrored the initial ASN concentrations. Biscuits produced under MTF accumulated 18% less AA than MTNF, while those from CTNF and CTF showed 14% and 22% lower AA levels than MTNF, respectively. The observed differences in the ASN concentration were mostly associated with the effects of the applied crop practices on the thousand kernel weight (TKW). The severity of Fusarium head blight was reduced by both the CT and F treatments, leading to heavier kernels due to enhanced starch accumulation, and lowering the ASN concentration per unit weight. This dilution effect accounted for more than 50% of the observed variation of ASN concentration in the wholegrain flour. The observation that the application of F slightly reduced ASN, compared with NF, in the refined flours of the MT treatment, without a corresponding change in the starch content, suggests an additional physiological response of the plant to the applied crop practices. Overall, agronomic practices that ensure an appropriate grain filling can dilute ASN in whole kernels and reduce the AA content of wheat-based products.
Guarino et al. (Wed,) studied this question.