4. DiscussionColchicine, acts as an

4. Discussion
Colchicine, acts as an antimitotic agent and, as such, has been
widely used to induce polyploidy in plant breeding (Kermani et al.,
2003; Kunitake et al., 1998; Nigel et al., 2007). Seedlings of L. indica
at the developmental stage undergoing cotyledon expansion were
used in this study as the initial targets of colchicine application,
and this follows the techniques previously applied in many other
plant species, e.g. Platanus acerifolia (Liu et al., 2007) and Rosa
chinensis minima (Zlesak et al., 2005). In this study, only the apical
growing tips of cotyledon-stage seedlings were treated with
colchicine solution. Such localized application was intended to
reduce the negative effects of colchicine on overall plant
development, thereby increasing the survival rate of the seedlings.
In this study, the death rate amongst the seedlings treated with
0.8% colchicine for 96 h was just 5.0%. Previous reports have stated
seedling mortality rates of 74.6% in Lolium perenne ‘S. 24’ when
treated with 0.2% colchicine for 3 h (Ahloowalia, 1967), and 100%
in P. acerifolia when treated with 0.5% colchicine for 24 h (Liu et al.,
2007). Thus, the low mortality rates (3.33–5.00% when treated
with 0.8% colchicine) observed in this study indicates that crape
myrtle has a high level of resistance to the general toxicity of
colchicine. Conversely, since colchicine was effective for the
induction of polyploidy in crape myrtle, we deduce it should also
be effective for producing tetraploid lines within other species and
hybrids of the genus. Such materials have the potential to provide
highly useful germplasm for breeding programs of ornamental
cultivars. In support of this suggestion, stable generations of
tetraploids, through self-pollination, and triploid lines, generated
by the crossing of tetraploid lines with diploids, have already been
obtained in our laboratory (data not shown).