Porometric measurements indicate wound severity and tuber maturity affect the early stages of wound-healing

Abstract

We demonstrated that porometrically derived wound-healing profiles of whole tubers were greatly affected by the depth or severity of the wound. A rapid decrease in water vapor conductance was detected during the first 24 h of healing after mature, whole tubers were wounded by tangentially cutting into the cortex. The rapid decline in vapor conductance, indicating deposition of soluble waxes, was not concurrent with detectable deposition of polymeric phenolic or polymeric aliphatic components of the suberin polyester; instead these polymerized components were detected after vapor conductance decreased by approximately 80% and was nearly stable. The rate of decline of vapor conductance of wound-healing tubers was hormonally hastened with abscisic acid treatments. Although deeper tangential wounds (3.0 mm) had slower initial rates of wound-healing than did shallow wounds (0.75 mm) through tuber growth and maturation, the ability to wound-heal more rapidly increased as the tubers matured in the field. The vapor conductance of wound healing tubers declined in a log-linear fashion during the first 1 to 3 days after wounding depending upon tuber maturity and genotype.