TEXTURAL GAIN AND SUBSEQUENT LOSS IN IRRADIATED APPLES, CARROTS AND POTATOES WITH INCREASE IN DOSE FROM 0.03 TO 1.0 kGy

ABSTRACT Cored samples (16mm × 15mm diameter) of apples, carrots and potatoes were irradiated in an Isomedix Gammacell 1000 irradiator at a dose rate of approximately 9Gy/min. Texture was measured using unrestrained uniaxial compression to microrupture on the JJ Universal Testing Machine. The loading rate was 6mm/min. Texture or firmness was assessed as the force to microrupture; the force required for various microrupture sample deformations (25%, 50% and 75%); the apparent Young's Modulus (ratio of the average stress to the average strain to microrupture); and the microrupture energy (area under the force‐deformation curve). As the dose increased from 0.03 up to about 0.1 kGy, a gain in texture generally occurred in all products ranging from 3% to 16%. A transition area from gain to loss occurred within the 0.1 to 0.3 kGy range. Loss of texture occurred in all products as the dose increased from 0.3 to 1.0kGy, the loss ranging from 4% to 30%. The greatest loss of texture occurred in apples and the least loss in carrots. There textural trends may have commercial significance in low dose irradiation processes such as sprout inhibition, senescence delay and disinfestation.