Use of edible alginate and limonene-liposome coatings for shelf-life improvement of blackberries

•Sodium alginate and limonene-liposome based edible coatings tested on blackberries.•Sodium alginate coated blackberries had lower respiration and weight loss during storage.•Limonene-liposomes coated blackberries had lower mold incidence compared to alginate coated berries.•No differences in total...

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Bibliographic Details
Published in:Future foods : a dedicated journal for sustainability in food science 2021-12, Vol.4, p.100091, Article 100091
Main Authors: Joshi, Prabesh, Becerra-Mora, Nathalie, Vargas-Lizarazo, Annie Y., Kohli, Punit, Fisher, Derek J., Choudhary, Ruplal
Format: Article
Language:English
Subjects:
Alginate
Blackberries
Edible coating
Limonene
Liposome
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Summary:•Sodium alginate and limonene-liposome based edible coatings tested on blackberries.•Sodium alginate coated blackberries had lower respiration and weight loss during storage.•Limonene-liposomes coated blackberries had lower mold incidence compared to alginate coated berries.•No differences in total polyphenol and anthocyanin content between coated and uncoated berries. Blackberries are an important seasonal fruit crop. However, their supply and market growth are negatively impacted by a short shelf-life. To address this problem, the shelf-life and quality characteristics of blackberries coated with edible alginate and limonene-liposomes were investigated. The weight loss, respiration rates (O2/CO2), physicochemical properties, and microbial loads of blackberries treated with edible coatings and stored under refrigeration (4 °C) were determined. The rate of weight loss in alginate-coated fruits was significantly lower (0.44 ± 0.02 g/day/100 g) compared to limonene-encapsulated liposome coated blackberries (0.50 ± 0.02 g/day/100 g) as well as uncoated blackberries (0.54 ± 0.02 g /day/100 g) after the first 10 days of storage. The alginate-coated fruits also had a lower rate of CO2 release (0.47 ± 0.03 mmol/h/100 g) compared to the uncoated blackberries (0.80 ± 0.27 mmol/h/100 g). Both alginate and limonene-liposome coated blackberries had a lower average respiratory quotient (RQ) compared to non-coated blackberries. The quality indices of total soluble solids, pH, total polyphenol content, and total anthocyanin content did not exhibit significant deviation from non-coated blackberries. The yeast and mold count on limonene-liposome coated blackberries was significantly lower than the control after 1, 7, and 12 days of storage. The results suggest that the alginate coating was more effective than the control in lowering respiration rates and weight loss. Similarly, the limonene-liposome coating was effective at lowering microbial growth on the berries.
ISSN:2666-8335
2666-8335
DOI:10.1016/j.fufo.2021.100091