Ba. Bergmann et R. Whetten, IN-VITRO ROOTING AND EARLY GREENHOUSE GROWTH OF MICROPROPAGATED PAULOWNIA-ELONGATA SHOOTS, New forests, 15(2), 1998, pp. 127-138
Experiments focused on improving methods for rooting micropropagated P
aulownia elongata shoots and enhancing the quality of plants grown fro
m rooted shoots transferred to the greenhouse. Micropropagated shoots
rooted on basal Murashige and Skoog medium, but inclusion of 0.2 mg/l
naphthaleneacetic acid and 0.4 mg/l indole-3-butyric acid during a 10-
day rooting treatment resulted in a shorter rooting time, a greater nu
mber of roots per shoot, and shorter roots that were more easily manip
ulated during transfer to the greenhouse. Shoots with a greater initia
l height had greater rooting success than short shoots. Shoots from 1.
1 to 2.0 cm in height were preferable to taller shoots because: (1) le
ss time is required to produce them, (2) their smaller leaf size makes
them easier to handle, (3) they root with about the same frequency, (
4) rooted shoots are more easily transferred to the greenhouse, and (5
) once in the greenhouse they attain a height that is indistinguishabl
e from shoots that were classified as very tall at the start of the ro
oting process. Inclusion of sucrose in the rooting medium promoted roo
ting as compared to shoots rooted without sucrose. Of the fertilizer t
reatments applied to plants newly transferred to the greenhouse, 17-17
-17 (N-P-K) and 0-44-0 each applied at 1 g/l with each watering result
ed in the highest portion of plant fresh mass allocated to roots (49%)
.