Combined and single effects of elevated CO 2 and temperatures on rice bakanae disease under controlled conditions in phytotrons

Bakanae disease, caused by Fusarium fujikuroi , was investigated under different CO 2 and temperature environments in order to simulate climate changes in the F . fujikuroi– rice pathosystem. F . fujikuroi ‐infected plants were grown under six phytotron conditions: low (18/22 °C night/day), medium (22/26 °C), and high (26/30 °C) temperature, at either ambient (450 ppm) or elevated (850 ppm) CO 2 concentrations. Bakanae disease index (DI), seedling death incidence, fungal DNA quantity, and chlorophyll and carbohydrate contents varied significantly in infected plants as a consequence of changes in both CO 2 and temperature. Plant height and dry weight were only influenced by single factors (temperature for height, and temperature or CO 2 for dry weight), and not by the CO 2  × temperature interaction. Medium and high temperatures (irrespective of the CO 2 level) increased the DI significantly (range from 67.5% to 95.8%) compared to low temperatures (range from 45.8% to 47.5%). Under elevated CO 2 levels, noticeable differences in the expression of four rice defence‐related genes and fungal DNA quantity were observed between those plants grown at higher temperatures and those at lower temperatures. Overall, combined and single effects of elevated CO 2 and high temperatures seem to be favourable for bakanae disease development in the Mediterranean basin.