ศูนย์นวัตกรรมเทคโนโลยีหลังการเก็บเกี่ยว

The rate of ion leakage from chilling-sensitive tissue does not immediately increase upon exposure to chilling temperatures.

Saltveit, M. E.

Postharvest Biology and Technology, Volume 26, Number 3, November 2002 , pp. 295-304.

2002

บทคัดย่อ

Exposure to non-freezing temperatures below approx equal to 10 deg C causes an increase in the subsequent rate of ion leakage from chilling sensitive tissue (e.g. tomato fruit). The conditions of tissue preparation and conductivity measurements necessary to accurately calculate the rate of ion leakage from excised discs of tomato pericarp tissue were determined. Under the proper conditions, the rate of leakage expressed as a percent of the total conductivity per hour was linear for the period of 30-240 min following immersion of the discs in aqueous solutions of 0.2 M mannitol. A kinetic analysis of the efflux data showed that a combination of two exponential equations of the form y=C0(1-e-K.t), one for a 'fast' extra-cellular reservoir of ions (C0f, Kf; y=C0f 1-e-Kf.t), and one for a 'slow' cellular reservoir (C0s, Ks; y=C0s 1-e-Ks.t), fit the original data with an R2>0.95. When measured at 25 deg C after chilling, chilling at 2.5 deg C for 3.5 days increased the rates of ion leakage and the values of C0f and Ks, but had no effect on C0s or Kf. This implies that chilling increased the permeability (Ks) of the cellular reservoir that allowed ions to leak out during the exposure to chilling and increase the content of C0f. However, when ion leakage was measured at temperatures from 2 to 20 deg C, C0f remained unchanged and the changes in Ks paralleled those in Kf. These changes in the rate constants reflect the effects of temperature on diffusion and did not show the abrupt increase predicted by the membrane phase-transition model of chilling injury.