Relationship between ABA and chilling injury in mangosteen fruit treated with spermine

Abstract

Theeffects of spermine on abscisic acid (ABA), hardening, and browning in storedmangosteen fruit were investigated. The hardening and browning, which areassociated with chilling injury (CI), were observed in only the skin of fruitstored at 7 °C. However, the hardening of skin was notaccompanied by moisture loss. The spermine treatment decreased the browning andhardening of the skin and extended storage time. Carbon dioxide(CO2)production from stored fruit gradually increased with d in storage(DIS). The increase of CO2 may be associated with the moisture lossbecause these levels coincided. ABA concentrations in the skin were highest infruit stored at 7 °C, followed by spermine treatment at 7°C, and the lowest at 13 °C. That is, thespermine treatment inhibited the increase of ABA in the skin of stored fruit.ABA concentrations in the skin may be associated with the degree of CI becausetheir fluctuations coincided. ABA metabolism in fruit stored at 7°C or 13 °C was also examined. The PA-DPApathway may not be the primary pathway of ABA metabolism because theconcentrations of PA and DPA were very low compared with those of ABA. ABAconcentrations in the aril were not significantly different between 7°C and 13 °C. This may be related to the lackof CI observed in the aril. ABA metabolism was different at each temperature.The decrease of ABA and the increase of DPA correlated at 13°C, however this correlation was not observed at 7°C. ABA metabolism may be influenced by temperature.