Transport of [1-¹⁴C]-indole-3-acetic acid in Abies balsamea shoots ringed with Ethrel

Abstract

The terminal (1-year-old) shoot of dormant, 2-year-old Abies balsamea (L.) Mill. seedlings was ringed with 0 or 10 mg Ethrel g^–1 lanolin. After 5 weeks of culture under environmental conditions favorable for growth, some of the treated shoots were harvested to measure tracheid number by microscopy and ethylene evolution by gas chromatography-flame ionization detection. The remaining shoots were used to measure basipetal IAA transport in the cambial region by decapitating the shoot apex, applying a pulse of [1-¹⁴C]-IAA to the cut surface, and monitoring the subsequent distribution of radioactivity. Ringing with 10 mg Ethrel g^–1 lanolin, compared with lanolin alone, stimulated cambial region ethylene evolution about 26-fold at, and 3-fold above and below the ringing site, but promoted tracheid production at the ringing site only. Ethrel ringing also increased the velocity, after 26 h transport, at which the front of the [1-¹⁴C]-IAA pulse moved below the ringing site. After 72 h of [1-¹⁴C]-IAA transport, when only immobilized radioactivity was present, the amount of radioactivity recovered in shoots ringed with 10 mg Ethrel g^–1 lanolin was higher than with lanolin alone at the ringing site but lower below it. No difference was observed above the ringing site. The distribution of radioactivity was the same in shoots ringed with lanolin alone and in unringed shoots. The results support the hypothesis that an abnormally high cambial region concentration of ethylene derived from Ethrel ringing inhibits the capacity of basipetal IAA transport at the ringing site, resulting in a local accumulation of IAA that stimulates tracheid production.