| 1. Introduction Eustoma grandiflorum (Raf.) Shinn. (Syn. Lisianthus russellianus) is a seed propagated ornamental flower, ¬v®Ü±ð¬O¤@ºØºØ¤lÁc´ÞÆ[½àªá.
produced worldwide and introduced to Norway about 10 years ago. ¥Í²£¹M¤Î¥þ²y¦a¤j¬ù¦b10¦~¤§«e¥Ñ®¿«Â¤Þ¶i.
It is a North American wild flower, ¥¦¬O¤@¦·¥_¬üì³¥ªá native to central and southern US and mainly inhabits the moist prairies from Nebraska to Colorado and Texas (Shinners, 1957; Wood and Weaver, 1982; Halevy and Kofranek, 1984). ¥Íªø¦b¬ü°ê¤¤¥¡©M«n¤è ¦Ó¥B¥Dnì²£¦a©ó±q¤º¥¬©Ô´µ¥[¨ì¬ìù©Ô¦h©M¼w§JÂÄ´µªº¼é·Ãªº¯óì Eustoma has been a very popular cut flower because of its floral colours and long vase life and is a leading cut flower in Japan (Takeda, 1994; Hisamatsu et al., 1998). ¬v®Ü±ð¬O«D±`¨üÅwªïªº¤Áªá.¦]¬°ªáªºÃC¦â©Mªø¤[ªº²~´¡¹Ø©R.¦b¤é¥»¤@¦V¬O¤Áªá¤¤ªº¥D¨¤. Eustoma is now available all year round by using selected cultivars grown in appropriate climatic conditions.At present, however,
Eustoma ²{¦b ¥iÂǥѨϥγQ®âºØªº¬D¿ïªº®â°ö«~ºØ¦b¾A·íªº®ðÔ¤W¤@¾ã¦~¥Íªø¡C¥Ø«e¡AµM¦Ó¡A pot culture of Eustoma is not as significant as cut flowers (Bradley et al., 2000; Ohkawa and Sasaki, 1999). In Norway, ¬Ö®â®â°ö¤£¹³¤Áªá¤@¼Ëªº«n¡A
a year round greenhouse cut flower production of Eustoma is achieved by supplementing light with high-pressure sodium lamps (HPS). ¤@¾ã¦~¦b·Å«Ç¤º¾aHPS¶u®ð¿OÀò±o¥ú½u¹F¨ì¤Áªá¥Í²£ªº¥Øªº Due to the complex response to photoperiod of Eustoma cultivars, ¥Ñ©óEustoma®â°ö«~ºØ¹ï¥ú¶g´Á½ÆÂøªº¤ÏÀ³. it has been classified differently, ¥¦¤w¸g³Q¤£¦P¤ÀÃþ
both as day-neutral plant (Azrak, 1984; Halevy and Kofranek, 1984) and as a quantitative long-day plant (Tsukada et al., 1982; Grueber et al., 1984; Roh et al., 1989). ¨âªÌ·í°µ¤¤¤é«¬´Óª« ªø¤é«¬´Óª« Growth of Eustoma, crop time and flower quality are affected by light intensity and day length (Corr and Katz, 1997).
Eustoma¥Íªø¹Lµ{. ºØ´Ó®É¶¡©Mªáªº«~½è. ¨ü¨ì¥ú±j«×©M¤éªø®ÄÀ³¼vÅT.
At seedling stage, growth rate of Eustoma is very slow and requires 50¡V140 days from germination to transplanting (Matsuo and Shirasaki, 1990; Harbaugh, 1995) and totally about 22¡V28 weeks from seeding to anthesis of the terminal flower bud (Halevy and Kofranek, 1984; Roh and Lawson, 1984). ¦b¥®]¶¥¬q¡A Eustoma ªº¦¨ªø«D±`ºC±qµoªÞ¨ì²¾´Ó»Ýn 50-140 ¤Ñ. ±q¼·ºØ¨ì³Ì«áªáªÞ§Î¦¨¤@ª½¶}ªá´Á¤j¬ù22¡V28©P. Recently, Zaccai and Edri (2002) have reported a direct effect of photoperiod on floral transition in Eustoma as well as a promoting effect of high temperature.
³ø§i«ü¥X¥ú¶g´Áª½±µªº¼vÅTªáªºÅܤƥH¤Î°ª·Å¯à«P¶i®ÄªG
As light is one of the most important climatic factors in floral development and growth of Eustoma, it is important in commercial production to know how the flower initiation
¦bªáªº¥Íªø¹Lµ{¤¤¥ú¹ï¬v®Ü±ð¬O¤@ºØ«D±`«nªº®ðÔ¦]¤l. ¦b°Ó·~¥Í²£¤Wª¾¹DªáªÞ¤À¤Æ¬O«Ü«nªº. and development are affected by photoperiod and light integrals. ¥Íªø¨ü¨ì¥ú¶g´Á©M¥ú±j«×ªº¼vÅT. Traditionally, appearance of visible flower buds and time to first open flower along with the number of nodes to first flower are often used to indicate the effect of the environment on the flowering process (Mastalerz, 1977). ¶Ç²Î¤W¡A ©úÅãªáªÞªº¥~Æ[ ©M®É¶¡»P²Ä¤@¦·ªá¶}©l¸òªº²ô¸`ªº¼Æ¶q¤@°_¸g±`³Q¥Î¨Óªí©úÀô¹Ò¹ï¶}ªáªº¹Lµ{ªº¼vÅT The aim of the present study was to examine the effects of light integral on floral initiation and development and subsequent growth of Eustoma.
¥Ø«e¬ã¨sªº¥Øªº¦b©ó¤F¸Ñ¥ú±j«×¹ïªá¤§³Ð©lªº¼vÅT©M¦¨ªø¥H¤Î«á¨Óªº¥Íªø In addition, ¥t¥~
we included different time periods in short day (SD) before transfer to long day (LD) to see how plant age is related to the effect of day length on flowering.
¦bSD ¦bÂಾ¨ì(LD)¤§«e ¥]¬A¤£¦Pªº®É´Á ¬Ý¥X´Óª«®èÄÖ»P¤éªø®ÄÀ³¹ï¶}ªá¦³Ãöªº¼vÅT
The present study describes an experiment performed in 2001.
¥Ø«eªº¬ã¨s´yz¤@Ó¹êÅç¦b2001¦~¶i¦æ
The results of preliminary studies in January¡VMay 2000 were similar to those in 2001 and therefore not included. ¦bJanuaryay 2000ªºªì¨Bªº¬ã¨sªºµ²ªG¦b2001¦~Ãþ¦ü©ó¨º¨Ç¡A¦]¦¹¤£¥]¬A¡C
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