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Photosynthesis under osmotic stress

Differential recovery of photosynthetic activities of stroma enzymes, intact chloroplasts, protoplasts, and leaf slices after exposure to high solute concentrations

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Abstract

The reversibility of the inhibition of photosynthetic reactions by water stress was examined with four systems of increasing complexity—stromal enzymes, intact chloroplasts, mesophyll protoplasts, and leaf slices. The inhibition of soluble chloroplast enzymes by high solute concentrations was instantly relieved when solutes were properly diluted. In contrast, photosynthesis was not restored but actually more inhibited when isolated chloroplasts exposed to hypertonic stress were transferred to conditions optimal for photosynthesis of unstressed chloroplasts. Upon transfer, chloroplast volumes increased beyond the volumes of unstressed chloroplasts, and partial envelope rupture occurred. In protoplasts and leaf slices, considerable and rapid, but incomplete restoration of photosynthesis was observed during transfer from hypertonic to isotonic conditions. Chloroplast envelopes did not rupture in situ during water uptake. It is concluded that inhibition of photosynthesis by severe water stress is at the biochemical level brought about in part by reversible inhibition of chloroplast enzymes and in part by membrane damage which requires repair mechanisms for reversibility. Both soluble enzymes and membranes appear to be affected by the increased concentration of internal solutes, which is caused by dehydration.

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Authors and Affiliations

  1. Botanisches Institut der Universität, Mittlerer Dallenbergweg 64, D-8700, Würzburg, Germany

    Werner M. Kaiser, Georg Kaiser, Silvia Schöner & Spidola Neimanis

Authors
  1. Werner M. Kaiser
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  2. Georg Kaiser
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  3. Silvia Schöner
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  4. Spidola Neimanis
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Kaiser, W.M., Kaiser, G., Schöner, S. et al. Photosynthesis under osmotic stress. Planta 153, 430–435 (1981). https://doi.org/10.1007/BF00394981

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  • DOI: https://doi.org/10.1007/BF00394981

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