Phytochrome Control of Nyetinasty in Samanea as Modified by Oxgen, Submergence, and Chemicals

Samanea saman has rapid phytochrome-regulated nyctinasty: red light preceding darkness causes pinnules to close while far-rod light allows opening- Not only the initial angle of the pinnules, but the degree of control by phytochrome depends on the “subjective time of day” at which the tissue is exposed. Excised pairs of pinnules close rapidly when submerged in water; such closure is prevented by bubbling oxygen through the water. However, if submergence closure were due solely to low oxygen levels, then nonsubmerged pinnules in a pure nitrogen atmosphere should also close. Instead, they neither close nor respond to light, but they do respond when air is readmitted, indicating that oxygen is necessary for movement rather than for photoreception. The closure of submerged pinnules remains unexplained. Attempts to detect effects of red or far-red on oxygen uptake by pulvinus tissue were unsuccessful. The following method has been used to test the effects of various inhibitors and other substances: pinnules are excised at the first hour of the day, trimmed, submerged in a sealed chamber, given far-red light, and left in darkness while oxygen is bubbled through the medium. Concentrated test solutions are injected either initially or when the red and far-red exposures are given. Thus far, the substances tested have had little or no effect on the phytochrome response.