Low shoot multiplication, morphological abnormalities, poor rooting frequency and high cost of production are among the factors challenging the micropropagation of ornamental perennials and garden plants. Most of these problems can be alleviated by using the appropriate type and concentration of plant growth regulator(s) (especially cytokinins) in developing efficient micropropagation protocols. In this study, we investigated the effects of five different aromatic cytokinins (BA, Kin, mT, mTR and MemTR) on adventitious shoot production from shoot-tip explants of B. greenii, a critically endangered plant with horticultural potential. Of all the cytokinin concentrations evaluated, the highest adventitious shoot production (5.88 +/- A 0.73 shoots/explant) was observed in cultures containing 7 mu M MemTR. Low adventitious shoot production, which was not significantly different from that of the control, was observed at all the concentrations of kinetin (Kin), suggesting that it is a weak cytokinin for shoot production in this species. All the treatments with BA alone showed higher adventitious shoot production when compared to the BA treatments supplemented with NAA concentrations. At equimolar concentrations, however, all the BA concentrations had a higher abnormality index than the other cytokinins. It is noteworthy that the abnormality index in all the topolin treatments was much lower than that recorded at the lowest BA concentration. Almost all the abnormality indices recorded with mTR and MemTR concentrations were lower than that of the control. Given that the explants used were from BA-containing cultures, it is likely that the abnormalities recorded using mTR and MemTR were carry-over effects of BA. Culturing under 16 h light/8 h dark conditions resulted in a higher production of adventitious shoots with lengths greater than 10 mm compared to culturing under continuous light. This measure could help reduce the cost of production. Regenerated shoots were successfully rooted and acclimatized with a 65% survival frequency and no observable morphological variation. The developed micropropagation protocol has the potential for producing more than 60,000 transplantable shoots per year from a single shoot-tip explant of this critically endangered species.

• 出版日期2011-3