Abstract
Two poplar clones, hybrid Populus deltoides Bartr. Ex Marsh × Populus nigni L. (Populus × euramericana), clone I-214, and Populus deltoides, clone Lux, were grown from clonal hardwood cuttings for one growing season in either ambient (360 μml mol-1) or elevated (560 μol mol-1 [CO2] in FACE-system rings at Rapolano Terme (Siena, Italy). Both clones I-214 and Lux exhibited a higher above-ground biomass, photosynthesis at light saturation and instantaneous transpiration efficiency (ITE) in CO2-enriched air. The elevated [CO2]-induced responses of clone I-214 included increased investment in branch and leaf biomass, and enhanced stem volume. The elevated [CO2]-induced responses of clone Lux included an increase in the number of branches and leaf area (which might result in a higher leaf area index, LAI). Photosynthetic acclimation under elevated [CO2] was found only during the early morning and only in clone I-214. Stomatal conductance and transpiration (on a leaf area basis) decreased under elevated [CO2] particularly in clone Lux and at the end of the experiment. The effects of elevated [CO2] on leaf osmotic potential were limited, at least in conditions of non-limiting water availability. Clonal differences in response to elevated [CO2] should be taken in account when planning future poplar plantations in the forecast warmer and drier Mediterranean sites.(© Inra/Elsevier, Paris.).