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Ethylene Production and Leaflet Abscission in Mèlia azédarach L. ¹

Department of Plant Sciences and Texas Agricultural Experiment Station, Texas A & M University, College Station, Texas 77843

Ethylene production or content was compared to leaflet abscission in detached, compound leaves of Mèlia azédarach L. In late autumn, when abscission was progressing from basal leaves upward, the oldest leaves both produced ethylene at the highest rates and abscised their leaflets first. When C₂H₄ levels were measured in intercellular air removed immediately after leaves were harvested, C₂H₄ levels were also highest in basal leaves and declined progressively in more apical leaves. Levels as high as 1.8 microliters C₂H₄ liter^–1 air were observed. Earlier in the season groups of leaves demonstrated a pattern of sequential initiation of abscission from base to apex, but the peak rates of C₂H₄ production followed an opposite trend, being highest in the youngest leaves. Peak rates of C₂H₄ production occurred after the initiation of leaflet abscission and presumably are related to either the auxin content or a climacteric-like, autocatalytic phase of C₂H₄ production not directly involved in the initiation of abscission. In these experiments, the early abscission of the older leaflets reflects their greater sensitivity to C₂H₄, presumably due to lower auxin content. C₂H₄ production rates in all experiments, with rare exceptions, exceeded 3 microliters per kilogram fresh weight per hour at least 24 hours before leaflet abscission reached 10%. This achieving of a threshold internal C₂H₄ level is viewed as an initiating event in leaflet abscission. Hypobaric conditions, to facilitate the escape of endogenous C₂H₄, delayed abscission compared to controls, and termination of hypobaric exposure allowed a normal progression of abscission as well as normal C₂H₄ synthesis rates. All of the data indicate that C₂H₄ initiates leaflet abscission in intact but detached leaves of Mèlia azédarach L. The seasonal patterns observed suggest that C₂H₄, in concert with those hormones which govern sensitivity to C₂H₄, regulate autumn leaf fall in this species.

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