Abstract
The objective of this research was to evaluate the use of a controlled-release carvacrol powder to delay storage decay and maintain the safety of blueberries. The controlled-release carvacrol powder was a microcapsule of carvacrol (11% (w/w) active carvacrol) surrounded by a pectin/sodium alginate matrix. The microcapsules were packed in an air-permeable pouch, and then attached to the top of a clamshell filled with blueberries. The blueberries, inoculated with Escherichia coli or Colletotrichum acutatum, or non-inoculated control, were monitored for microbial growth and quality for 10 days at 10 °C and 5 days at 20 °C. Three treatments were compared: controlled-release microencapsulated carvacrol, non-encapsulated carvacrol, and control. The results showed that both the microencapsulated carvacrol and the non-encapsulated carvacrol treatments significantly reduced the populations of yeast and mold, and of E. coli and mesophilic aerobic bacteria. The microencapsulated carvacrol treated berries retained better quality due to significantly lower weight loss than control after 10 days at 10 °C. Sensory panelists found that the microencapsulated carvacrol berries had significantly higher overall blueberry flavor and lower discernible off-flavor in comparison with the non-encapsulated treatment after 3 days at 20 °C. The fruit internal quality, including total soluble solids content (SSC), and titratable acidity (TA), was not significantly affected by any treatment. These results indicate that pectin/sodium alginate controlled-release microencapsulated carvacrol can be used for the preservation of blueberries or other small fruit.
Highlights
To maintain the safety and quality of blueberries, one proven successful postharvest technique is the application of edible films and coatings containing certain essential oils that naturally have strong antimicrobial activity [2,3,4]
Citrus pectin (≥74% degree of methylation), sodium alginate, carvacrol (99%, natural, and generally recognized as safe (GRAS)), and Tween-80 were obtained from Sigma Aldrich
The results showed that both the encapsulated and nonencapsulated carvacrol treatments reduced the populations of yeasts, molds, E. coli, and total mesophilic aerobic bacteria (Table 1)
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Blueberries have been proven to be a rich source of phenolic compounds, dietary fiber, and vitamin C along with processing strong antioxidant activities [1]. Blueberries are highly perishable due to the rapid physical damage caused by precipitous water loss and common microbial decay [2]. To maintain the safety and quality of blueberries, one proven successful postharvest technique is the application of edible films and coatings containing certain essential oils that naturally have strong antimicrobial activity [2,3,4]
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