A Coupled Model of Photosynthesis, Stomatal Conductance and Transpiration for a Rose Leaf (Rosa hybrida L.)

doi:10.1093/aob/mcg080

AOBPreview published online on March 28, 2003
Annals of Botany, doi:10.1093/aob/mcg080
© 2003 by Annals of Botany Company

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Submitted on November 20, 2002
Revised on January 6, 2003
Accepted on February 3, 2003

A Coupled Model of Photosynthesis, Stomatal Conductance and Transpiration for a Rose Leaf (Rosa hybrida L.)

SOO-HYUNG KIM¹ and J. HEINRICH LIETH¹^*

Affiliation of the authors: ¹ Environmental Horticulture, University of California, Davis, CA 95616, USA

^* To whom correspondence should be addressed. E-mail: jhlieth{at}ucdavis.edu.

The following three models were combined to predict simultaneouslyphotosynthesis, stomatal conductance, transpiration and leaftemperature of a rose leaf: the biochemical model of photosynthesisof Farquhar, von Caemmerer and Berry (1980, Planta 149: 78-90),the stomatal conductance model of Ball, Woodrow and Berry (In:Biggens J, ed. Progress in photosynthesis research. The Netherlands:Martinus Nijhoff Publishers), and an energy balance model. Thephotosynthetic parameters: maximum carboxylation rate, potentialrate of electron transport and rate of triose phosphate utilization,and their temperature dependence were determined using gas exchangedata of fully expanded, young, sunlit leaves. The stomatal conductancemodel was calibrated independently. Prediction of net photosynthesisby the coupled model agreed well with the validation data, butthe model tended to underestimate rates of stomatal conductanceand transpiration. The coupled model developed in this studycan be used to assist growers making environmental control decisionsin glasshouse production.

Key words: Rosa hybrida L., photosynthesis, stomatal conductance, transpiration, coupled model, cut-flower, crop simulation, calibration, validation.

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