Approaches to optimising surface coatings for fruits.
Banks, N. H.; Cutting, J. G. M.; Nicholson, S. E.;
New Zealand Journal of Crop and Horticultural Science Year: 1997 Vol: 25 Issue: 3 Pages: 261-272 Ref: 30 ref.
1997
บทคัดย่อ
A mathematical model predicted that final water vapour permeance in surface-coated fruits would depend upon water permeance of the coating but not the proportion of pores blocked on the fruit surface. In contrast, predicted final oxygen (O2) permeance depended upon numbers of pores blocked but not O2 permeance of the coating. Predicted variation in internal atmosphere composition caused by coatings that blocked different proportions of pores on the model fruit surface was consistent with data from two experiments on coated apples. A new equation was developed to characterize the relationship between internal CO2 and O2 levels resulting from different coating treatments. Two graphical approaches to assess surface coatings for fresh fruits are presented. In the first, a plot of water vapour permeance against internal O2 was used to identify the most suitable of 3 surface coatings for reducing water loss in Royal Gala apples at 20 deg C. The second method used a plot of internal CO2 versus internal
O2 in coated fruits to identify the crop's internal lower O2 limit (LOLi), which lies just below the optimum internal O2 level for modified atmosphere effects. Coatings containing different concentrations of carboxymethyl cellulose produced internal O2 levels ranging from almost 0 to 16 kPa in Granny Smith apples at 20 deg . The LOLi of these fruits was estimated using the new equation to be approx equal to 0.8 kPa O2. Large fruit-to-fruit variability with some coating treatments indicated that uniformity of response may be as important as average response in selection of coatings. Risks cannot be separated from benefits when using surface coatings to gain modified atmosphere benefits, making their use to achieve modified atmosphere benefits more risk-laden than for other purposes.