Ethylene as a possible mediator of light‐induced inhibition of root growth

Abstract

Eliasson, L. and Bollmark, M. 1988. Ethylene as a possible mediator of light‐induced inhibition of root growth. ‐ Physiol. Plant. 72: 605–609.Pea seedlings (Pisum sativum L. cv. Weibull's Marma) were used to investigate the possible role of ethylene in light‐induced inhibition of root elongation. Illumination of the roots with white light inhibited root elongation by 40–50% and increased ethylene production by the roots about 4‐fold. Our main approach was to use exogenous 1‐aminocyclopropane‐1‐carboxylic acid (ACC), supplied in the growth solution, to monitor ethylene production of the roots independent of light treatment. Ethylene production of excised root tips increased with increasing ACC concentrations. The rate of ethylene production in dark‐grown roots treated with 0.1 μM ACC was similar to that caused by illumination. Low ACC concentrations (0.01–0.1 μM) decreased the rate of root elongation, especially in seedlings grown in the dark, and 0.1 μM ACC inhibited elongation to about the same extent as light. In light the roots curved and grew partly plagiogravitropically. This effect was also simulated by the 0.1 μM ACC treatment. At 1 μM and higher concentrations, ACC inhibited root growth almost completely and caused conspicuous curvatures of the root tips both in light and darkness. Inhibitors of ethylene synthesis and action partially counteracted the inhibition of root elongation caused by light. These observations suggest that the increase in ethylene production caused by light is at least partly responsible for the decreased growth of light‐exposed roots.