Defoliation, not gibberellin, induces tree peony autumn reflowering regulated by carbon allocation and metabolism in buds and leaves.

Plant Physiol Biochem

Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Key Laboratory of Biology and Genetic Improvement of Horticultural Crops, Ministry of Agriculture and Rural Affairs, Beijing, 100081, China. Electronic address:

Published: June 2020

Short and concentrated natural fluorescence hinders tree peony (Paeonia suffruticosa) annual production, and defoliation and gibberellin (GA) application is used to induce its reflowering in autumn. Here, the individual roles of defoliation and GA treatment were determined by monitoring morphological and soluble sugar changes in buds and leaves, and by investigating carbon allocation- and metabolism-related gene expression. Both defoliation and GA treatment induced early bud development, but induction was faster using the GA treatment. Only defoliation, not GA treatment, induced the final reflowering, although their combination accelerated it. Furthermore, defoliation decreased the sucrose content in buds much faster than the GA treatment. This sucrose reduction may play a key role in tree peony reflowering, and the higher carbon metabolism activity in young leaves after defoliation may further help the reflowering process. Defoliation enhanced the expression of sucrose transporters PsSUT4 and PsSWEET12 in buds, and their expression in young leaves was greater than after GA treatment. This indicated that PsSUT4 and PsSWEET12 may help transport carbon into buds after defoliation. In addition, the invertases, PsCIN2 and PsCWIN1 in young leaves were more highly expressed after defoliation, indicating that they may contribute to reflowering after defoliation by accelerating sucrose hydrolysis in young leaves. In addition, the expression levels of PsVIN1 and PsVIN2 in leaves, and PsVIN2 in buds were more highly induced by GA treatment than by defoliation, indicating that PsVINs may mainly respond to GA treatment. These results may help improve the tree peony forcing culture technology and related industrial production.

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Source
http://dx.doi.org/10.1016/j.plaphy.2020.04.005DOI Listing

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