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Changes in photosynthetic capacity,carboxylation efficiency,and CO2 compensation point associated with midday stomatal closure and midday depression of net CO2 exchange of leaves of Quercus suber
Authors:J. D. Tenhunen  O. L. Lange  J. Gebel  W. Beyschlag  J. A. Weber
Affiliation:(1) Lehrstuhl für Botanik II der Universität, Mittlerer Dallenbergweg 64, D-8700 Würzburg, Germany;(2) Biological Station, University of Michigan, 48109 Ann Arbor, MI, USA
Abstract:The carbon-dioxide response of photosynthesis of leaves of Quercus suber, a sclerophyllous species of the European Mediterranean region, was studied as a function of time of day at the end of the summer dry season in the natural habitat. To examine the response experimentally, a ldquostandardrdquo time course for temperature and humidity, which resembled natural conditions, was imposed on the leaves, and the CO2 pressure external to the leaves on subsequent days was varied. The particular temperature and humidity conditions chosen were those which elicited a strong stomatal closure at midday and the simultaneous depression of net CO2 uptake. Midday depression of CO2 uptake is the result of i) a decrease in CO2-saturated photosynthetic capacity after light saturation is reached in the early morning, ii) a decrease in the initial slope of the CO2 response curve (carboxylation efficiency), and iii) a substantial increase in the CO2 compensation point caused by an increase in leaf temperature and a decrease in humidity. As a consequence of the changes in photosynthesis, the internal leaf CO2 pressure remained essentially constant despite stomatal closure. The effects on capacity, slope, and compensation point were reversed by lowering the temperature and increasing the humidity in the afternoon. Constant internal CO2 may aid in minimizing photoinhibition during stomatal closure at midday. The results are discussed in terms of possible temperature, humidity, and hormonal effects on photosynthesis.Abbreviations and symbols CE carboxylation efficiency - NP net photosynthesis rate - PAR photosynthetically active radiation - Pi leaf internal CO2 partial pressure - DeltaW water vapor mole fraction difference between leaf and air - T CO2 compensation pressureDedicated to Professor Dr. Hubert Ziegler on the occasion of his 60th birthday
Keywords:Carboxylation efficiency  Compensation point (CO2)  Photosynthesis (temperature, humidity)  Quercus  Sclerophyll
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