4. DiscussionThe postharvest physio

4. Discussion
The postharvest physiology associated with petal senescence
in lilies has received great attention in relation to the available
carbohydrates (Han, 2003) or ethylene production (Reid and Wu,1992; Woltering and van Doorn, 2009). However, the physiology
and induction of flower bud abscission has not been investigated
in detail, possibly due to a complexity of floral organs and the presence
of flower buds under various development stages. Failure of
flower bud opening in three Asiatic hybrid lily cultivars depends on
the size of detached flower bud size. The minimum bud length for
opening was reported to be 6 cm (José et al., 2001).
All Asiatic hybrid lily flower buds develop to open when they
remain intact on the inflorescence (José et al., 2001). Therefore,
information obtained from detached flower buds as used in this
study may not identify the cause of abscission of the flower buds
on intact stems. Abnormalities in flower buds depend on cultivar,
forcing season, high temperature, and light intensities in Lilium
(Einert and Box, 1970; Durieux et al., 1982; Roh, 1990a,b). However,
using detached individual flowers reveals the critical size of flower
buds required to reach anthesis, and also the critical floral organ
or organs that triggered the flower bud abscission. Lilium was not
included in the list of Liliaceae sensitive to flower abscission (refer
to Table 2, van Doorn and Stead, 1997 to bud abscission. In this study, the weight of flower buds that fail
to develop was around 1.5–1.7 g fw, which is about 2.5 cm in size.
If assimilates supplied to the anthers of the small buds is limited,
development of the anthers will be arrested, and eventually leads
to ethylene production. This carbohydrate deprivation process may
trigger the onset of flower bud abscission.