Stomatal oscillations at small apertures: indications for a fundamental insufficiency of stomatal feedback-control inherent in the stomatal turgor mechanism

doi:10.1093/jexbot/52.359.1303

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Journal of Experimental Botany, Vol. 52, No. 359, pp. 1303-1313, June 1, 2001
© 2001 Oxford University Press

Original Papers

Stomatal oscillations at small apertures: indications for a fundamental insufficiency of stomatal feedback-control inherent in the stomatal turgor mechanism

Hartmut Kaiser¹ and Ludger Kappen

Botanisches Institut der Christian-Albrechts-Universität zu Kiel, Olshausenstraße 40, D-24098 Kiel, Germany

Continuous measurements of stomatal aperture simultaneouslywith gas exchange during periods of stomatal oscillations arereported for the first time. Measurements were performed inthe field on attached leaves of undisturbed Sambucus nigra L.plants which were subjected to step-wise increases of PPFD.Oscillations only occurred when stomatal apertures were smallunder high water vapour mole fraction difference between leafand atmosphere ( ${Delta}$ _W). They consisted of periodically repeatedopening movements transiently leading to very small apertures.Measurements of the area of the stomatal complex in parallelto the determination of aperture were used to record volumechanges of guard cells even if stomata were closed. Stomatalopening upon a light stimulus required an antecedent guard cellswelling before a slit occurred. After opening of the slit theguard cells again began to shrink which, with some delay, ledto complete closure. Opening and closing were rhythmically repeated.The time-lag until initial opening was different for each individualstoma. This led to counteracting movements of closely adjacentstomata. The tendency to oscillate at small apertures is interpretedas being a failure of smoothly damped feedback regulation atthe point of stomatal opening: Volume changes are ineffectivefor transpiration if stomata are still closed; however, at thepoint of initial opening transpiration rate rises steeply. Thisdiscontinuity together with the rather long time constants inherentin the stomatal turgor mechanism makes oscillatory overshootingresponses likely if at high ${Delta}$ _W the ‘nominal value’of gas exchange demands a small aperture.

Key words: Stomatal oscillations, stomatal aperture, feedback control, turgor mechanism.

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