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Environmental and Stress Physiology

Use of a Laser-Driven Photoacoustic Detection System for Measurement of Ethylene Production in Cymbidium Flowers

Ministry of Agriculture and Fisheries, Sprenger Institute, P. O. Box 17, 6700 AA Wageningen, The Netherlands, Department of Molecular and Laser Physics, University of Nijmegen, Toernooiveld, 6525 ED Nijmegen, The Netherlands

A laser-based photoacoustic method was used for determination of ethylene (C₂H₄) production of emasculated orchid (Cymbidium) flowers in a flow-through system. The laser photoacoustic equipment consisted of a line-tuneable CO₂ laser in conjunction with a single-pass resonant acoustic cell. The minimum detection limit of the system for C₂H₄ in air was 0.03 nanoliter per liter. C₂H₄ production of intact Cymbidium (cv Mary Pinchess `Del Rey') flowers was very low (0.015 nanoliter per gram per hour) and showed an increase within 3 hours following emasculation (removal of pollinia plus anthercap). Production peaked (0.14 nanoliter per gram per hour) 8 hours after emasculation and decreased thereafter. Production again increased 45 hours after emasculation. Coloration of the labellum appeared shortly after the first peak; wilting of the petals and sepals appeared during the second rise in ethylene production. The use of the laser photoacoustic technique in plant physiological studies is discussed.

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