Articles
PARAMETERIZATION AND TESTING OF A COUPLED MODEL OF PHOTOSYNTHESIS-STOMATAL CONDUCTANCE FOR GREENHOUSE ROSE CROP
Article number
593_14
Pages
113 – 120
Language
English
Abstract
A coupled model of leaf photosynthesis and stomatal conductance as a function of photosynthetically active radiation (PAR), CO2, leaf temperature, relative humidity, and leaf age was calibrated for rose leaves.
The photosynthetic parameters: maximum carboxylation rate (Vcmax), potential rate of electron transport (Jmax), rate of triose phosphate utilization (TPU),
and leaf dark respiration rate (Rd) were determined using gas exchange data of fully expanded, young, sunlit leaves.
The temperature dependence of Vcmax, Jmax, and TPU were determined.The stomatal conductance model was calibrated using the gas exchange data for combinations of relative humidity, light, and temperature.
The model was calibrated and validated for the cut-flower rose variety Kardinal. Vcmax and Jmax were also evaluated for cultivars Cara Mia and FireN Ice.
The photosynthetic parameters: maximum carboxylation rate (Vcmax), potential rate of electron transport (Jmax), rate of triose phosphate utilization (TPU),
and leaf dark respiration rate (Rd) were determined using gas exchange data of fully expanded, young, sunlit leaves.
The temperature dependence of Vcmax, Jmax, and TPU were determined.The stomatal conductance model was calibrated using the gas exchange data for combinations of relative humidity, light, and temperature.
The model was calibrated and validated for the cut-flower rose variety Kardinal. Vcmax and Jmax were also evaluated for cultivars Cara Mia and FireN Ice.
Authors
S.-H. Kim, J.H. Lieth
Keywords
Rosa hybrida, gas exchange, biochemical model
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