Abstract
Adventitious rooting, whereby roots form from non-root tissues, is critical to the forestry and horticultural industries that depend on propagating plants from cuttings. A major problem is that age of the tissue affects the ability of the cutting to form adventitious roots. Here, a model system has been developed using Pisum sativum to differentiate between different interpretations of ageing. It is shown that the decline in adventitious rooting is linked to the ontogenetic switch from vegetative to floral and is mainly attributed to the cutting base. Using rms mutants it is demonstrated that the decline is not a result of increased strigolactones inhibiting adventitious root formation. Monitoring endogenous levels of a range of other hormones including a range of cytokinins in the rooting zone revealed that a peak in jasmonic acid is delayed in cuttings from floral plants. Additionally, there is an early peak in indole-3-acetic acid levels 6h post excision in cuttings from vegetative plants, which is absent in cuttings from floral plants. These results were confirmed using DR5:GUS expression. Exogenous supplementation of young cuttings with either jasmonic acid or indole-3-acetic acid promoted adventitious rooting, but neither of these hormones was able to promote adventitious rooting in mature cuttings. DR5:GUS expression was observed to increase in juvenile cuttings with increasing auxin treatment but not in the mature cuttings. Therefore, it seems the vegetative to floral ontogenetic switch involves an alteration in the tissue's auxin homeostasis that significantly reduces the indole-3-acetic acid pool and ultimately results in a decline in adventitious root formation.
Highlights
Adventitious roots, such as those that form on the base of cuttings, initiate from non-root tissues including stems or petioles
For the analysis of indole-3-acetic acid (IAA) and jasmonic acid (JA) concentration by GC-MS/MS, the extraction and clean-up of plant extracts were carried out according to Ahkami et al (2013) based on the multiplex GC-MS/MS technique described by Müller
It is demonstrated that the decline in adventitious root formation is linked to the transition from vegetative to floral ontogenetic switch possibly owing to changed auxin homeostasis
Summary
Adventitious roots, such as those that form on the base of cuttings, initiate from non-root tissues including stems or petioles. There are several ways to describe ageing in plants, which are often confounded in studies on maturation. The chronological age of a tissue is the time since that tissue differentiated from the meristem. The timing of phase changes, do not correspond strictly to the chronological age of a plant. The tissues differentiate from a meristem that is getting physiologically older (and has undergone more cell divisions). Physiological age may depend on environmental conditions and stress responses of the plant and so is not the inverse of chronological age. Maturational effects can be confounded by positional effects (topophysis) which are linked to environmental effects, for example lighting effects, or specific distance effects (Leakey and Storeton-West, 1992)
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