Petal Senescing Processes Monitored by Dynamic States of Water in Orchid Plants Exposed to Exogenous Ethylene

  • IWAYA-INOUE Mari
    <I>Laboratory of Crop Scinece, Department of Plant Resources, Faculty of Agriculture, Kyushu University</I>
  • WATANABE Yuka
    <I>Agronomical and Food Chemistry, Facutly of Agriculture, Kagoshima University</I>
  • TOMIZAWA Akiko
    <I>International Technical Cooperation for Rural Development, Faculty of Agriculture, University of Tokyo</I>
  • ISHIBASHI Yushi
    <I>Laboratory of Crop Scinece, Department of Plant Resources, Faculty of Agriculture, Kyushu University</I>
  • SEKIGUCHI Kenichi
    <I>Zeon KASEI Co., Ltd</I>
  • CHIKUSHI Jiro
    <I>Biotron Institute, Kyushu University</I>
  • SAGARA Yasuyuki
    <I>International Technical Cooperation for Rural Development, Faculty of Agriculture, University of Tokyo</I>

この論文をさがす

抄録

Ethylene induces premature senescence of orchid flowers when plants are particularly transported with fruits and vegetables stored nearby. Exogeneous ethylene regulated a complex physiological changes of petals in intact flowering clones ofDendrobium phalaenopsisduring seven days; decrease in distance between petals, water content, NMR relaxation times (T1sandT2s) and degree in vital staining, while increase in ion leakage and translucence. Petal wilting and decrease in water content in florets were closely correlated with loss in viability of petal parenchyma tissues adjacent to the vascular bundles in the ethylene-exposed orchid flowers. Highly mobile water measured by T1values of the long fraction in the petals was considered to free water derived from intact vacuoles. The loss of membrane integrity and free water of the orchid petals can be modulated by ethylene. After ethylene exposure treatment, the free water gradually decreased at 5 d. Additionally, T2s of the short fraction in the petals markedly decreased at 5 d after the ethylene exposure and they reached to 10 ms at 7 d. From these results, the decrease in the T1 and T2of the orchid petals due to ethylene exposure indicated decreased vacuolar water, followed by turgor loss and increased bound water, thus decrease in diffusion of substrates and metabolism.

収録刊行物

参考文献 (37)*注記

もっと見る

詳細情報

問題の指摘

ページトップへ