Differential accumulation of bioactive compounds as a result to post-anthesis thermal stress in field-grown barley

Barley (Hordeum vulgare L.) is a healthy grain due to high contents in dietary fiber and phenolic compounds. It faces periods of high temperatures during grain filling, frequently reducing grain weight. Heat stress may also affect some of the bioactive compounds present in the grain. To produce quality grains that provide nutritional and health benefits, it is important to understand the effect of environmental stresses on the quantity and quality of bioactive compounds. We have studied the effect of post-anthesis thermal stress on barley bioactive compounds and antioxidant capacity under Mediterranean field conditions during two consecutive growing seasons in four barley genotypes. Thermal stress affected grain weight and size and changed the relative composition of bioactive compounds. The relationship between heat stress and grain β-glucans and arabinoxylans content was indirect, as the resulting increases in concentrations were due to the lower grain weight under stress. On the contrary, heat stress had a significant direct impact on some phenolic compounds, increasing their concentrations differentially across genotypes, which contributed to an improvement in antioxidant capacity of up to 30%. Post-anthesis thermal stress had a significant effect on β-glucans, arabinoxylans, phenolic compounds concentration and antioxidant capacity of barley grains. Final grain quality could be, at least partially, controlled in order to increase the bioactive concentrations in the barley grain, by cultivation in growing areas prone to heat stress. Late sowings or late flowering genotypes could also be considered, should a premium be implemented to compensate for lower yields. This article is protected by copyright. All rights reserved.