The Effect of Ventilation on in vitro Response of Seedlings of the Cultivated Tomato and its Wild Salt-tolerant Relative Lycopersicon pennellii to Salt Stress

Abstract

Organs or plants grown in vitro do not always exhibit the same responses to salinity as the whole plant of same species grown ex vitro. The response to salinity (100 mM NaCl) of seedlings of the wild tomato species Lycopersicon pennellii acc. Atico (Lpa) and of the cultivated tomato L. esculentum cv. M82 (Lem), the former is known as salt tolerant and the second as relatively salt sensitive under ex vitro conditions, was compared under in vitro conditions with three different ventilation regimes. It was found that under salinity shoots of the wild species accumulated the same or even more dry biomass than the control (roots somewhat less) under all ventilation levels. Growth of shoots and roots of the cultivated species was inhibited under the same conditions especially under the high ventilation. Ventilation reduced some abnormalities of leaf development related to hyperhydricity and consequently ventilated leaves exhibited a more compounded structure, increased area, increased resistance to water loss and stomata functioning. Ventilation increased K+, Na+ and Cl− accumulation in shoots of both tomato species. This was more pronounced under salinity and in Lpa. This work indicates that differences that characterize whole plants of these species in response to salinity under ex vitro conditions are exhibited also in whole plants grown in vitro under high ventilation. It is suggested that ventilation is needed to evaluate well the response of whole plants to salt stress applied in vitro.