Nutritional impact of phytosanitary irradiation of fruits and vegetables

5.6Other fruit

A study of three grape cultivars assessed the effects of irradiation with 2, 2.5 and 3.5 kGy, as well as the combined effect of a hot water dip (50C, 5 min) with irradiation at 1 kGy (Thomas et al. 1995). AA levels were measured both immediately and after storage at different temperatures. In Thompson seedless grapes, irradiation with 2 kGy decreased AA by 28% to 41% compared to non-irradiated grapes. The combination of hot-water dip and 1 kGy irradiation had a similar effect on AA, with decreases of 13% to 60%; however, it is not possible to separate the effects of irradiation from that of the heat-treatment on AA levels in this group. In another two cultivars, grapes were irradiated with 2.5 and 3.5 kGy and AA measured after 1 and 56 days storage at 10C. In Sonaka grapes, irradiation at both doses initially increased AA by 13-18%, but after storage levels were ~13% lower in irradiated fruit. Tas-A-Ganesh grapes showed the opposite pattern, with AA levels initially 7-10% lower in irradiated grapes, but AA levels were 8-11% higher after 56 days storage. It is important to note that no statistical analyses were presented in this paper, thereby limiting the interpretation of these results. Unpublished data from DAFF QLD (2012) found no significant effect of irradiation with 0.15, 0.6 and 1.0 kGy on total vitamin C or -carotene levels in grapes either one day after irradiation or after 50 days storage at 0C.

Irradiation of muskmelon (rockmelon, cantaloupe) with 0.5 and 1.0 kGy had no significant effect on vitamin C levels in fruit studied from four harvests over two consecutive years (Lalaguna 1998). Similarly, irradiation of fresh-cut rockmelon with 0.5 Gy had no significant effect on AA levels after 1, 3 and 7 days (Fan et al. 2006).

Irradiation of mature, unripe kiwifruit with 1 and 2 kGy had no effect on AA levels, but levels decreased significantly with 3 kGy (~10%) (Kim and Yook 2009). After 1-3 weeks storage, AA levels increased in all fruit, but were significantly lower in all irradiated fruit compared to non-irradiated fruit. However, in this study only AA levels were measured; the small differences in AA content between irradiated and control fruit could be due to conversion to DHAA. Antioxidant activity was similar between control and irradiated kiwifruit throughout the storage period, with the exception of a small (<10%) but significant decrease immediately after irradiation with 2 and 3 kGy.

Irradiation of persimmons with 0.075 and 0.3 kGy had no effect on total vitamin C content either immediately or after 3 weeks storage; vitamin C increased ~2-fold with storage in both control and irradiated persimmons (Mitchell et al. 1992).