WATER RELATIONS AND GROWTH OF TOMATO FRUIT PERICARP TISSUE

The water relations of young tomato fruit pericarp tissue were examined and related to tissue expansion, The relationship between bulk turgor pressure and tissue expansion (as change in fresh mass or length of tissue) was determined in slices of pericarp cut from young, growing fruit by incubation in different osmotic concentrations of polyethylene glycol 6000 or mannitol, The bulk turgor of this tissue was low (about 0.2 MPa), even in fruit from plants that were otherwise fully turgid, whether measured psychrometrically or by length change in osmotic solutions, The rate of tissue growth at maximum turgor was less than that at moderate turgor unless calcium was added to the incubation medium, However, added calcium also decreased the rate of growth at lower turgor pressures, Yield turgor was < 0.1 MPa, but it was increased by the addition of calcium ions, Electrolyte leakage from tissue was greatest at maximum turgor pressure but was decreased by the addition of calcium ions or osmoticum, Tissue growth was unaffected by a range of plant growth regulators (IAA, abscisic acid, benzyladenine and GA(3)) but was inhibited, particularly at high turgor, by low concentrations of malic or citric acid. The low turgor pressure of pericarp tissue could be due to the presence of apoplastic solutes within the pericarp, and evidence for this is discussed, Thus, fruit tissue may be able to maintain optimal expansion rates only at moderate turgor and low calcium concentration.