Adaptation of plants to altered shoot orientation relative to the gravity vector

• Published in: Journal of gravitational physiology Vol. 11; no. 2; p. P207
• Main Authors: Smolyanina, S O, Berkovich, Yu A, Ivanov, V B
• Format: Journal Article
• Language: English
• Published: United States 01.07.2004
• Subjects: Biomass; Brassica - growth & development; Brassica - radiation effects; Daucus carota - growth & development; Daucus carota - radiation effects; Gravitropism - physiology; Light; Plant Roots - growth & development; Plant Shoots - growth & development; Plant Shoots - physiology; Tagetes - growth & development; Tagetes - radiation effects; Triticum - growth & development; Triticum - radiation effects; Water - metabolism
• ISSN: 1077-9248

Wheat Triticum aestivum L., carrots Daucus carota L., Chinese cabbage Brassica pekinensis Rupr., and African marigold Tagetes patula L. were grown at natural and inverted orientation in the Earth gravitational field. Light vector was set unidirectional or opposite directional relative to the gravity vector. Shoot orientation relative to the gravity vector was set natural or invert. Plants grew in the special pots furnished with plane or cylindrical hydrophilic porous membranes. The membrane allowed to stabilize a water potential in the root zone at the fixed level. Seeds were put into a fiber ion-exchange artificial soil overlaying horizontal hydrophilic plates of porous titanium or anchored to porous metal-ceramic tubes. Plants grew at the PPF level 550 +/- 20 micromoles/(m2 s) during 24-hr lighting and at the water potential level at the membrane surface (-1.00) +/- 0.08 kPa. Normal plants were obtained both at the natural and at the inverse shoot orientation in the all experiments. The wheat plants were yielded healthy germinating seeds no matter plant orientation. In the inverse orientation, no negative influence for plant biomass accruing was marked, but the increasing of shoot to root mass ratio was considerable. However carrot root crop mass decreasing was not revealed in the inverse orientation. The results demonstrated substantial dependence of morphological and physiological characteristics of higher plants on the gravity factor.