Ethylene and cytokinin interaction in the morphogenesis of Pelargonium × hortorum L.H. Bailey in vitro

Pelargonium × hortorum ‘Grand Prix’ which is susceptible to leaf yellowing and ‘Bergpalais’ which is not susceptible to leaf yellowing were chosen for the experiments. Ethylene production and action as well as the associated morphological response of Pelargonium shoots grown in the presence of a precursor of ethylene biosynthesis 1-aminocyclopropane-1-carboxylic acid (ACC), ethylene inhibitors: α-aminooxyacetic acid (AOA) and silver nitrate (AgNO₃) and different cytokinins: (meta-topolin) (mT) or 6-benzylaminopurine (BAP) were studied. It was found that ‘Grand Prix’ was more sensitive to ethylene than ‘Bergpalais’ and it showed the leaf yellowing in response to 0.1 mg l^?1 ACC. Moreover, it was noted that ACC added separately or together with cytokinin influenced Pelargonium morphogenesis. Depending on the concentration of ACC (0.1–2.0 mg l^?1), it either stimulated or inhibited shoot and root formation as well as the growth of shoots and leaf blades. ACC-induced leaf yellowing in ‘Grand Prix’ was effectively inhibited by mT. In contrast, BAP did not enhance shoot quality. Simultaneously, the presence of mT in the medium resulted in up to a twofold increase in the ethylene production by ‘Grand Prix’ shoots throughout the culture period compared with the shoots growing on the BAP-medium. The inhibitor of ethylene action (AgNO₃) added with cytokinin prevented the yellowing of Pelargonium shoots, but simultaneously influenced the formation of mature shoots with limited long-term multiplication potential. The shoots of P. × hortorum ‘Grand Prix’ treated with AgNO₃ and mT emitted two- and sevenfold more ethylene after 11th and 21st day of culture compared with those treated with AgNO₃ and BAP. It is suggested that mT inhibits the early senescence of Pelargonium in vitro by decreasing its sensitivity to ethylene.     

Regeneration of <Emphasis Type="Italic">Pelargonium × hederaefolium</Emphasis> ‘Bonete’ from petiole explants

The adventitious shoot regeneration from petiole explants of Pelargonium × hederaefolium ‘Bonete’ was achieved via a mixed pathway i.e. organogenesis and somatic embryogenesis. The histological study of regenerated structures revealed the presence of both shoot primordia and embryo-like structures. The initial growth in petiole explants occurred on media with BAP + auxin or TDZ alone. However, the most effective regeneration (24 structures/explant) was noted in the presence of TDZ (2 mg l⁻¹) and IBA (0.1 or 0.2 mg l⁻¹). Moreover, the application of TDZ in the induction phase reduced the time needed for the formation of adventitious structures and positively influenced the further shoot development on the medium containing m-topolin and IBA.     

Soluble sugar,starch and phenolic status during rooting of easy- and difficult-to-root magnolia cultivars

The aim of the study was to determine the effect of indole-3-butyric acid (IBA) and exogenous sucrose concentrations on in vitro rooting, soluble sugar, starch and phenolic production, and ex vitro survival of four magnolia cultivars. There was a significant linear increase in rooting of most magnolia genotypes with an increase in IBA concentration in the medium from 1 to 6 mg L^?1. A further increase of IBA concentration to 10 mg L^?1 decreased (‘Elizabeth’, ‘Burgundy’) or had no effect on rooting frequency (‘Spectrum’). The effect of IBA on rooting of magnolia shoots was modified by sucrose supply. The three out of four magnolia cultivars showed the highest rooting efficiency in the presence of 6 mg L^?1 IBA and 30 g L^?1 of sucrose. Generally, decreasing and increasing the sucrose supply from 30 g L^?1 significantly lowered the rooting frequency. In ‘Yellow Bird’, sucrose at 40 g L^?1 totally blocked root formation. It has been found that the poor rooting ability of ‘Yellow Bird’ coincided with a low soluble sugar content, and high production of starch and phenolics in the shoot bases during the whole rooting period as compared to easy-to-root cultivars. After 5 weeks of the growth on IBA medium, rooted and unrooted shoots were transferred to ex vitro conditions. Both types of shoots showed a high survival and rooting rate (85.4–100%), but they differed in their growth activity and quality. Sucrose concentration in the rooting medium had a post-effect on ex vitro root formation and survival of magnolia plantlets. Ex vitro establishment (13.3%) of recalcitrant ‘Yellow Bird’ was obtained only when the shoots were taken from rooting medium containing the lowest level of sucrose (20 g L^?1).