Disentangling the contributions of ontogeny and water stress to photosynthetic limitations in almond trees |
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Authors: | Egea Gregorio González-Real María M Baille Alain Nortes Pedro A Diaz-Espejo Antonio |
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Institution: | área de Ingeniería Agroforestal, Escuela Técnica Superior de Ingenieros Agrónomos, Universidad Politécnica de Cartagena, Paseo Alfonso XIII 48, 30203 Cartagena, Spain. |
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Abstract: | Very few studies have attempted to disentangle the respective role of ontogeny and water stress on leaf photosynthetic attributes. The relative significance of both effects on photosynthetic attributes has been investigated in leaves of field‐grown almond trees Prunus dulcis (Mill.) D. A. Webb] during four growth cycles. Leaf ontogeny resulted in enhanced leaf dry weight per unit area (Wa), greater leaf dry‐to‐fresh weight ratio and lower N content per unit of leaf dry weight (Nw). Concomitantly, area‐based maximum carboxylation rate (Vcmax), maximum electron transport rate (Jmax), mesophyll conductance to CO2 diffusion (gm)′ and light‐saturated net photosynthesis (Amax) declined in both well‐watered and water‐stressed almond leaves. Although gm and stomatal conductance (gs) seemed to be co‐ordinated, a much stronger coordination in response to ontogeny and prolonged water stress was observed between gm and the leaf photosynthetic capacity. Under unrestricted water supply, the leaf age‐related decline of Amax was equally driven by diffusional and biochemical limitations. Under restricted soil water availability, Amax was mainly limited by gs and, to a lesser extent, by photosynthetic capacity and gm. When both ontogeny and water stress effects were combined, diffusional limitations was the main determinant of photosynthesis limitation, while stomatal and biochemical limitations contributed similarly. |
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Keywords: | Prunus dulcis deficit irrigation leaf age leaf structure mesophyll conductance nitrogen content photosynthetic capacity stomatal conductance temperature response |
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