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Environmental and Stress Physiology

Chara buckellii, a Euryhaline Charophyte from an Unusual Saline Environment ¹

III. Time Course of Turgor Regulation

Department of Biological Sciences, Cooke 109, State University of New York at Buffalo, Buffalo, New York 14260

The time course of turgor regulation of the euryhaline giant-celled alga, Chara buckellii, is presented. Isolated intermodal cells were challenged by increasing or decreasing the external osmotic pressure by 150 milliosmoles per kilogram with all ions in the media or by dilution, respectively. Regulation following hypotonic stress was complete within 48 hours whereas regulation following hypertonic stress required between 96 and 144 hours. The change in internal osmotic pressure could be entirely accounted for by changes in vacuolar KCl in response to hypotonic stress, but this ion pair only accounted for 45% of the change in response to hypertonic stress. The membrane potential of C. buckellii is normally hyperpolarized with respect to the equilibrium potential for K⁺ (E_K). The membrane depolarized to a level close to E_K in response to hypotonic treatment and this was accompanied by a transient increase in membrane conductance. In response to hypertonic stress, the membrane hyperpolarized transiently, then repolarized to a level close to the control. This was accompanied by a temporary decrease in membrane conductance. The data are discussed with respect to the ecological significance of the time course and ion transport mechanisms during turgor regulation.

¹ Supported by National Science Foundation grant DMB 8400555.

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