Changes in gibberellin levels in the flowering shoot of Phalaenopsis hybrida under high temperature conditions when flower development is blocked

• Main Authors: Wei-Ren Su, 蘇維仁
• Other Authors: Zin-Huang Liu
• Format: Others
• Language: zh-TW
• Published: 2003
• Online Access: http://ndltd.ncl.edu.tw/handle/17794780258989185695

碩士 === 國立中山大學 === 生物科學系研究所 === 91 === The ability of exogenous gibberellin (GA) A3 to substitute for low temperatures in inducing flowering in Phalaenopsis hybrida under high temperatures suggests a similar role for endogenous GAs in normal (low temperature) development of the inflorescence and floral buds. Changes in endogenous GAs in shoot-tips (about 2.0 cm long) were examined when potentially flowering shoot was 2-3 cm and 7-10 cm long, respectively. Treatments included warm control (30/25 ℃ day/night, non-flowering), GA3-treated (30/25 ℃ day/night, flowering) and cool-induced (25/20 ℃ day/night, flowering) plants. GA3 at 0.5 μg•shoot-1 was injected into the cavity of the second visible bud scale below the flowering shoot apex. The contents of the tips of potentially flowering shoot of GA1, GA20, GA19 and GA53 tended to be highest in cool-induced plants, intermediate in GA3-treated plants, and lowest in the warm controls (non-flowering). Tips of potentially flowering shoots in warm controls also contained higher GA8 relative to GA3-treated and cool-induced plants. Tips of potentially flowering shoots (2-3 cm in length with no flower primordium), contained low levels of GAs than older 7-10 cm long flowering shoot (with flower primordium) under cool-inductive conditions. These results suggest that continued inflorescence development and flower bud initiation are closely associated with increases in endogenous GAs, even in GA3-treated plants. They also suggest that a more rapid biosynthetic flow-through from GA19→GA20→GA1→GA8 leaving reduced levels of GA1 may be involved in the inhibition of flowering and shoot elongation seen in warm (30/25 ℃ day/night) control plants. A reduced conversion of “active” GA1 to inactive GA8 may thus be required for successful floral initiation and development whether induced by cool temperature or by applied GA3. These results imply that the high temperature inhibitory effect on flowering is mediated through its effect on lowering the level of endogenous GA1 and its precursors.