This study addressed photosynthetic acclimation of sweet sorghum under progressive soil drying at different growth stages: (i) three fully expanded leaves (D1); (ii) growing point differentiation (D2); (iii) booting (D3); (iv) half-blooming (D4). Soil water potential (SWP), photosynthetic traits and soluble sugars accumulation were determined. Under progressive drought stress, D1 and D2 photosynthesized until 20 days after stress imposition (SWP≈-3.5MPa), while, D3 and D4 were phothosynthetically inactive 12 days after irrigation suspension (SWP≈-1.5MPa). Photoprotection mechanisms also changed with plant age: in mature plants, electron transport rate per cross section (ETo/CSm), and silent PSII reaction centers (RCs) drastically declined at SWP of -1.0MPa, while remained unchanged in young plants until -1.5MPa. As water stress increased (SWP<-1.8MPa), the light energy absorption (ABS/CSm), the trap energy flux (TRo/CSm) and ETo/CSm dramatically decreased in mature plants (-70% compared to control). Soluble sugars significantly correlated with thermal energy dissipation (DIo/CSm) and density of active reaction centers (RCo/CSm) at young stages. The acceptor side of Photosystem I (PSI) was affected by plant age resulting in a lower efficiency than donor side of PSII.
Photosynthetic acclimation of sweet sorghum under progressive water stress / Zegada-Lizarazu, Walter; Luna, Dario Fernando; Monti, Andrea. - In: INDUSTRIAL CROPS AND PRODUCTS. - ISSN 0926-6690. - ELETTRONICO. - 66:(2015), pp. 216-219. [10.1016/j.indcrop.2014.12.045]
Photosynthetic acclimation of sweet sorghum under progressive water stress
ZEGADA LIZARAZU, WALTER;LUNA, DARIO FERNANDO;MONTI, ANDREA
2015
Abstract
This study addressed photosynthetic acclimation of sweet sorghum under progressive soil drying at different growth stages: (i) three fully expanded leaves (D1); (ii) growing point differentiation (D2); (iii) booting (D3); (iv) half-blooming (D4). Soil water potential (SWP), photosynthetic traits and soluble sugars accumulation were determined. Under progressive drought stress, D1 and D2 photosynthesized until 20 days after stress imposition (SWP≈-3.5MPa), while, D3 and D4 were phothosynthetically inactive 12 days after irrigation suspension (SWP≈-1.5MPa). Photoprotection mechanisms also changed with plant age: in mature plants, electron transport rate per cross section (ETo/CSm), and silent PSII reaction centers (RCs) drastically declined at SWP of -1.0MPa, while remained unchanged in young plants until -1.5MPa. As water stress increased (SWP<-1.8MPa), the light energy absorption (ABS/CSm), the trap energy flux (TRo/CSm) and ETo/CSm dramatically decreased in mature plants (-70% compared to control). Soluble sugars significantly correlated with thermal energy dissipation (DIo/CSm) and density of active reaction centers (RCo/CSm) at young stages. The acceptor side of Photosystem I (PSI) was affected by plant age resulting in a lower efficiency than donor side of PSII.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
