^{David J. Bonfil}

Eran Tas

Tropospheric ozone (O₃) is widely recognized as the cause of substantial yield and quality reduction in crops. Most of the previous studies focused on the exposure of wheat cultivars to elevated O₃ levels. Our main objectives were to: (i) investigate the consistency of wheat cultivars’ physiological responses across two different realistic O₃ levels; and (ii) compare these physiological responses with those under short acute O₃ exposure. Three commercially available hard spring wheat cultivars bred under semiarid and Eastern Mediterranean conditions were exposed to two different O₃ levels during two consecutive seasons (2016–2018)—36 and 71 ppbv 7 h mean O₃ mixing ratios in open-top chambers. The results were compared to those following short acute O₃ exposure (102.8 ppbv, 7 h mean for 10 days) in a greenhouse. Non-stomatal responses were significantly more pronounced than stomatal responses in all cultivars under different levels of O₃. The specific cultivar was observed as the most O₃-tolerant under all experiments. The fact that the same cultivar was found remarkably tolerant to the local semiarid ambient conditions according to other studies and to O₃ exposure based on the present study supports a link between cultivar resistance to drought conditions and O₃.