Effect of Far-Red and Green Irradiation on the Nyctinastic Closure of Albizzia Leaflets

Abstract

The nyctinastic closing of Albizzia julibrissin pinnules is delayed by exposure to far-red radiation at 710 and 730 nanometers, with the former more effective than the latter. Far-red radiation at 750 and 770 nanometers has no effect on the process. Red light at 660 nanometers, which by itself has no effect, delayed closure when given before or simultaneously with far-red radiation at 750 or 770 nanometers. Low doses of green light, on the other hand, prevented all far-red radiations from delaying closure when given together with one of them. Effectiveness peaks at 550 nanometers. Green light by itself has no effect on the closing process. From these and previous results, it is concluded that phytochrome is one of two photoreceptors in the process, that the other photoreceptor is an unknown pigment, and that the unknown photoreceptor requires some prior effect of the far-red-absorbing form of phytochrome before its action. Predictions are made of some of the properties of the unidentified pigment.