Abstract
Cupressus sempervirens is a relevant species in the Mediterranean for its cultural, economic and landscape value. This species is threatened by Seiridium cardinale, the causal agent of the cypress canker disease (CCD). The effects of biotic stressors on O3 risk assessment are unknown and a comprehensive O3 risk assessment in C. sempervirens is missing. To fill these gaps, two clones of C. sempervirens, one resistant (Clone R) and one susceptible to CCD (Clone S), were subjected to three levels of O3 (Ambient Air - AA; 1.5 × AA; 2.0 × AA) for two consecutive years in an O3-free-air controlled exposure facility and artificially inoculated with S. cardinale. Both the exposure- (AOT40) and flux-based (PODy) indices were tested. We found that PODy performed better than AOT40 to assess O3 effects on biomass and the critical level for a 4% biomass loss was 2.51 mmol/m2 POD2. However, significant O3 dose-response relationships were not found for the inoculated cypresses because the combination of middle level O3 (1.5 × AA) and inoculation stimulated a biomass growth in Clone S as hormetic response. Moreover, we found a different inter-clonal response to both stressors with a statistically significant reduction of total and belowground biomass following O3, and lower root biomass in Clone S than in Clone R following pathogen infection. In summary, Clone R was more resistant to O3, and inoculation altered O3 risk via an hormetic effect on biomass. These results warrant further studies on how biotic stressors affect O3 responses and risk assessment.
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