The effect of water shortage on growth and gas exchange of maize grown on sandy soil (SS) and clay soil was studied. The lower soil water content in the SS during vegetative growth stages did not affect plant height, aboveground biomass, and leaf area index (LAI). LAI reduction was observed on the SS during the reproductive stage due to early leaf senescence. Canopy and leaf gas exchanges, measured by eddy correlation technique and by a portable photosynthetic system, respectively, were affected by water stress and a greater reduction in net photosynthetic rate (AN) and stomatal conductance (gs) was observed on SS. Chlorophyll and carotenoids content was not affected by water shortage in either condition. Results support two main conclusions: (1) leaf photosynthetic capacity was unaffected by water stress, and (2) maize effectively endured water shortage during the vegetative growth stage.
Growth and gas exchange response to water shortage of a maize crop on different soil types / Vitale, Luca; P., DI TOMMASI; Arena, Carmen; M., Riondino; A., Forte; A., Verlotta; Fierro, Angelo; A., VIRZO DE SANTO; A., Fuggi; V., Magliulo. - In: ACTA PHYSIOLOGIAE PLANTARUM. - ISSN 0137-5881. - 31:(2009), pp. 331-341. [10.1007/s11738-008-0239-2]
Growth and gas exchange response to water shortage of a maize crop on different soil types
ARENA, CARMEN;FIERRO, ANGELO;
2009
Abstract
The effect of water shortage on growth and gas exchange of maize grown on sandy soil (SS) and clay soil was studied. The lower soil water content in the SS during vegetative growth stages did not affect plant height, aboveground biomass, and leaf area index (LAI). LAI reduction was observed on the SS during the reproductive stage due to early leaf senescence. Canopy and leaf gas exchanges, measured by eddy correlation technique and by a portable photosynthetic system, respectively, were affected by water stress and a greater reduction in net photosynthetic rate (AN) and stomatal conductance (gs) was observed on SS. Chlorophyll and carotenoids content was not affected by water shortage in either condition. Results support two main conclusions: (1) leaf photosynthetic capacity was unaffected by water stress, and (2) maize effectively endured water shortage during the vegetative growth stage.| File | Dimensione | Formato | |
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