Phalaenopsis is an important floral crop in Taiwan. Due to its commercial importance and the booming activity of breeders, there are numerous cultivars and greges of Phalaenopsis on the market. The botanical characteristics of each cultivar and grex may have been documented in detail, but there were little information concerning the physiological characteristics of them. Since Phalaenopsisis is sensitive to ethylene, the sensitivity of each grex to ethylene should be an important physiological trait. In this study, a system using single cut flowers held in water was used to observe the response of flower to emasculation, and the result was related to the ethylene sensitivity of the flower. Single cut flowers from 20 Phalaenopsis greges lasted more than 3 weeks when were held in water. When these flowers were pollinated, all of them wilted within 5 days. However, when these flowers were emasculated, there were large variations in the time for the appearance of flower wilting. Based on the length of time to wilting, 3 groups were formed: The Fast Group, all flowers wilted within 5 days of emasculation, these include Phal. Sogo Yukidian and 11 other greges; The Slow Group, all flowers started to wilt 15 days after emasculation, these include Phal. Tai-Lin Red Angel and other 3 greges; The Middle Group, all flowers wilted between 6 to 12 days after emasculation, these include Dtps. Sakura Hime and other 3 greges. The symptoms of flower senescence in emasculated flower were very similar to that of natural senescence. Flowers of 9 Phalaenopsis greges representing the three Groups were used to study the physiology of senescence after emasculation. The timing of appearance of flower wilting after emasculation for each grex matched very well with the timing of starting of fresh weight decline in each grex. It also matched very well with the appearance of ethylene production peak after emasculation in each grex. All flowers wilted on the following day of its ethylene peak. The response of each grex to treatment of 0.1 μL•L-1 ethylene for 24 hrs also showed variation, the hours to the visible sign of wilting were in the same order as the emasculation response. There was a very good correlation between them with r2=0.7682. Emasculation were then performed on a single floret in the inflorescence of two whole orchid plants each representing the Fast or the Slow group; and the results showed similar response of the single cut flower system. These results indicated that the time for the appearance of senescence symptom after emasculation is related to the ethylene sensitivity of the grex, and may be considered as a physiological character of the grex. The difference in the regulation of ethylene biosynthesis between the Fast group and the Slow group were studied. After emasculation, a rise in ethylene production from the upper column of the flower of Dtps. Jiuhbao Red Rose, a member of the Fast group, were detected on the 6th hr. Other parts of the flower also started to produce ethylene, and all of them reached peak after 36 hr of emasculation and the flower wilted on the following day. The ACC content and ACO activity also showed similar pattern as the ethylene production. The ethylene production from the upper column of the flower of Phal. Tai-Lin Red Angel, a member of the Slow group, showed a similar increase 10 hr after emasculation; however, it declined to a basal level after 3 days, and increased again until the 16th day after emasculation and the flower wilted on the 17th day. The ACC content and ACO activity in the upper column increased after 10 hr, it was then declined to a low level on the 3rd day, and started to increase on the 15th day after emasculation. The results indicated that, Dtps. Jiuhbao Red Rose is an ethylene sensitive grex, the ethylene that were produced 6 hr after emasculation may have induced the autocatalytic ethylene system in the flower, which then caused rapid flower wilting. Phal. Tai-Lin Red Angel is an ethylene less sensitive grex; the ethylene that was produced after emasculation failed to induce the autocatalytic ethylene production. The flower remained open until its natural senescence occurred. In conclusion, the results of this study indicated that there are differences in the ethylene sensitivity among Phalaenopsis greges and the time required for the appearance of senescence by emasculated cut single florets may be used as a index of the ethylene sensitivity of the grex. And the differences in ethylene sensitivity may be due to the induction of autocatalytic ethylene production.