Deciphering the main determinants of O3 tolerance in Euramerican poplar genotypes
Résumé
Tropospheric ozone (O-3) is the main secondary pollutant and considered to be the most damaging for growth and productivity. O-3 is well known to induce oxidative stress and Reactive Oxygen Species accumulation in leaf tissues. Several mechanisms have been suggested to enable trees to cope with such stress; however, their relative contribution to O-3 tolerance is still unclear. Here, tell Euramerican poplar genotypes (Populus dettoicles x nigra) were investigated regarding their response to 120 ppb of O-3 for 3 weeks in order to determine main mechanisms and identify the key traits and strategies linked to a better tolerance to O-3 induced oxidative stress. Results showed that ascorbate peroxidase and ascorbate regeneration through monodehydroascorbate reductase are the main determinants of O-3 tolerance in Euramerican poplar, in protecting photosynthesis capacity from oxidative stress and therefore, maintaining growth and productivity. Besides, slomatal closure was harmful in sensitive genotypes, suggesting that avoiding strategy can be further deleterious under chronic ozone. Finally, O-3-induced early senescence appeared essential when up scaling leaf level mechanistic response to whole plant productivity, in line tuning resource reallocation and photosynthesis area.