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Light Requirement for AgNO₃ Inhibition of Ethrel-Induced Leaf Abscission from Cuttings of Vigna radiata¹

Department of Botany and Plant Pathology, Purdue University, West Lafayette, Indiana 47907

To obtain information regarding the antiethylene properties and binding site of Ag⁺, studies were initiated to define conditions under which Ag⁺ does or does not inhibit ethylene action. AgNO₃, applied as a leaf spray, inhibited 2-chloroethylphosphonic acid (Ethrel)-induced leaf abscission from green cuttings of Vigna radiata in white light but lost considerable activity in the dark. In the absence of Ethrel, AgNO₃ stimulated abscission in the dark. When cuttings were dark-aged for 24 hours prior to treatment with AgNO₃ and aged for an additional 24 hours in the dark after treatment, good inhibition of subsequent Ethrel-induced abscission was restored by returning the cuttings to light. However, when dark aging was preceded by far-red irradiation, considerably less inhibition of Ethrel-induced abscission was restored in the light. AgNO₃ was completely inactive on cuttings aged in the dark and treated with Ethrel in the dark. Light is required for the antiethylene activity of AgNO₃ with regard to leaf abscission of Vigna.