Litcius/Paper detail

Species‐specific variation of photosynthesis and mesophyll conductance to ozone and drought in three Mediterranean oaks

Yasutomo Hoshika, Elena Paoletti, Mauro Centritto, Marcos Thiago Gaudio Gomes, Jaime Puértolas, Matthew Haworth

2022Physiologia Plantarum33 citationsDOIOpen Access PDF

Abstract

Abstract Mesophyll conductance ( g mCO2 ) is one of the most important components in plant photosynthesis. Tropospheric ozone (O 3 ) and drought impair physiological processes, causing damage to photosynthetic systems. However, the combined effects of O 3 and drought on g mCO2 are still largely unclear. We investigated leaf gas exchange during mid‐summer in three Mediterranean oaks exposed to O 3 (ambient [35.2 nmol mol −1 as daily mean]; 1.4 × ambient) and water treatments (WW [well‐watered] and WD [water‐deficit]). We also examined if leaf traits (leaf mass per area [LMA], foliar abscisic acid concentration [ABA]) could influence the diffusion of CO 2 inside a leaf. The combination of O 3 and WD significantly decreased net photosynthetic rate ( P N ) regardless of the species. The reduction of photosynthesis was associated with a decrease in g mCO2 and stomatal conductance ( g sCO2 ) in evergreen Quercus ilex , while the two deciduous oaks ( Q. pubescens , Q. robur ) also showed a reduction of the maximum rate of carboxylation ( V cmax ) and maximum electron transport rate ( J max ) with decreased diffusive conductance parameters. The reduction of g mCO2 was correlated with increased [ABA] in the three oaks, whereas there was a negative correlation between g mCO2 with LMA in Q. pubescens . Interestingly, two deciduous oaks showed a weak or no significant correlation between g sCO2 and ABA under high O 3 and WD due to impaired stomatal physiological behaviour, indicating that the reduction of P N was related to g mCO2 rather than g sCO2 . The results suggest that g mCO2 plays an important role in plant carbon gain under concurrent increases in the severity of drought and O 3 pollution.

Topics & Concepts

EvergreenPhotosynthesisStomatal conductanceBotanyAbscisic acidDeciduousOzoneBiologyPhotosynthetic capacityHorticultureCarbon dioxideChemistryEcologyBiochemistryOrganic chemistryGenePlant responses to elevated CO2Atmospheric chemistry and aerosolsPlant Water Relations and Carbon Dynamics
Species‐specific variation of photosynthesis and mesophyll conductance to ozone and drought in three Mediterranean oaks | Litcius