Acclimation of potato plants to polyethylene glycol-induced water deficit -: I.: Photosynthesis and metabolism

The acclimation of photosynthesis and metabolism in response to water deficit is characterized using hydroponically grown potato plants (Solanum tuberosum cv. Desiree). Plants were subjected to a reduced water potential of the nutrient solution by adding 10% (w/v) PEG 6000, PEG-treated plants were retarded in growth. Leaves which had been fully developed before the PEG treatment and leaves grown during the PEG treatment showed different phenotypes and biochemical and physiological properties, Photosynthesis of all leaves decreased during the whole treatment. However, the decrease of photosynthesis in the two types of leaves had different causes indicated by differences in their metabolism. Leaves which were fully developed at the beginning of the PEG treatment began to wilt starting from the leaf rim, The apoplastic ABA content increased, coinciding with a decreased stomatal conductance. Increased energy charge of the cells indicated impaired chloroplastic metabolism, accompanied by a decrease of amounts of chloroplastic enzymes, The apoplastic and the symplastic ABA content were increased during water deficit and because ABA was concentrated in the cytosolic compartment it is suggested that ABA is involved in decreasing photosynthetic enzyme contents in old leaves. Young leaves, grown after the imposition of water deficit, were smaller than control leaves and had a curly surface, In young leaves apoplastic and cytosolic ABA contents were identical with control values. Carboxylation efficiency of photosynthesis was decreased, but the water use efficiency remained unchanged. Metabolic data of the photosynthetic pathways indicate a down-regulation of chloroplastic metabolism. It is concluded that in young leaves photosynthesis was non-stomatally limited. This limitation was not caused by ABA.