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The effect of temperature on flower bud differentiation and development in Lycoris radiata


, : The effect of temperature on flower bud differentiation and development in Lycoris radiata. Kagawa Daigaku Nogakubu Gakuzyutu Hokoku 24(2): 157-162

Flower buds developed more quickly at 30 and 25 deg C than at 20 deg , but after the flowers were formed the flower stalk elongated more rapidly at 20 and 25 deg than at 30 deg.


Accession: 000228470

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Related references

Hasegawa A.; Konishi K., 1973: The effect of temperature on the flower bud differentiation and development of lycoris radiata. Kagawa Daigaku Nogakubu Gakujutsu Hokoku 24(2): 157-162

Mori G.; Sakanishi Y., 1988: Effects of temperature on flower initiation and leaf emergence in lycoris radiata and lycoris squamigera. Bulbs of Lycoris radiata and L. squamigera did not form flower buds when they were moved from outdoors to the glasshouse kept above 20.degree. C on or before December 20 and on or before February 20, respectively. Among bulbs grown at 15.degree. C...

Mori, G.; Imanishi, H.; Sakanishi, Y., 1990: Effect of temperature on flowering of lycoris squamigera maxim. and lycoris radiata herb. The effect of temperatures during different developmental stages on the time of initiation and development of flower buds of L. squamigera and L. radiata which blooms in mid-August and the late September, respectively, was studied. 1. Flower initi...

WangLei; TangGengGuo; LiuTong, 2008: Variation of endogenous hormone and nucleic acid content during flower bud differentiation in Lycoris radiata. Changes in endogenous hormone content during flower bud differentiation in <i>L. radiata</i> were studied. The relationship between the endogenous hormone content and nucleic acid content was analysed. The endogenous hormone content pe...

Mori, G.; Sakanishi, Y., 1988: Effects of temperature on flower initiation and leaf emergence in Lycoris radiata and L. squamigera. Bulbs of L. radiata and L. squamigera lifted from the field in July did not initiate flower buds if they were moved from natural conditions into a warm greenhouse (> 20 degrees C) on or before 20 Dec. and 20 Feb., respectively. Of bulbs grown a...

Mori, G.; Imanishi, H.; Sakanishi, Y., 1990: Effect of temperature of flowering on Lycoris squamigera Maxim. and L. radiata Herb. L. squamigera, which flowers in mid-Aug., and L. radiata, which flowers in late Sep., were subjected to different temperatures at various stages of development. The optimum temperature for flower initiation and subsequent differentiation to stage...

Tone S., 1988: Effect of temperature on growth flower bud differentiation and flower stalk development of leaf lettuce. Investigating the characteristics of growth in leaf lettuce with the sowing time, the relation to temperature was examined. The results are as follows: The increase of stock weight became largest in the sowing time of May to July. High temperature...

Choi, S.K., 1991: Studies on the culture of lycoris radiata herb in medicinal plant 1. the effect of seed bulb size on plant growth and bulb yield in lycoris radiata herb. To obtain information on propagation and cultivation Lycoris radiata Herb the seed bulb was classified by size and planted on May 10, 1987 in Kwangsan [Korea]. Seed bulb size (diameter 5-10, 11-15, 16-20, 21-25, 26-30, 31-35 and 36-40mm) had an ef...

Kobayashi, S.; Takeda, S.; Ishikawa, H.; Matsumoto, H.; Kihara, M.; Shingu, T.; Numata, A.; Uyeo, S., 1976: Alkaloids of the amaryllidaceae a new alkaloid sanguinine from lycoris sanguinea var kiushiana and pretazettine from lycoris radiata. The bulbs of L. sanguinea var. kiushiana (Amaryllidaceae) contained a new phenolic alkaloid, sanguinine (I), as well as lycorine and galanthamine. C16H19O3N, was established to be O-demethylgalanthamine. Pretazettine was isolated from the bulbs of...

Tomoda, M.S.imizu, N., 1982: Plant mucilages. XXXI. An acetyl-rich mucous polysaccharide, Lycoris-R-glucomannan from the bulbs of Lycoris radiata. Chemical and pharmaceutical bulletin 30(11): 3965-3969