Combined effect of electrolyzed water (EW) and sonication with equilibrium modified atmosphere packaging for prolonging storage stability of fresh strawberry.

IF 1.6 4区农林科学 Q3 CHEMISTRY, APPLIED

Food Science and Technology International Pub Date : 2025-09-01 Epub Date: 2024-01-27 DOI:10.1177/10820132241227009

Cengiz Caner, Kübra Tiryaki, Çiğdem Uysal Pala, Muhammed Yüceer

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Abstract

This research focuses on the effectiveness of electrolyzed water (50 and 100 ppm for 3 min), ultrasonication (80 W for 3 min), and their combinations on fresh strawberries, which are then packaged using microperforated film to enhance their storage stability. The gas composition in the headspace, pH, soluble solids, color (L*, a*, b*, and ΔE* values), anthocyanins, total phenolics, and texture profile was evaluated for the 35 days of storage at +4 °C. The lowest weight loss was measured at about 100 ppm electrolyzed water (EW; 0.47%), and the highest one was in the control group (0.57%) after storage. At the end of the storage, O₂ in the headspace decreased from 20.90% to 10.50-8.10% and CO₂ was accumulated from 0.03% to 16.4-14.34%. The results showed that soluble solids decreased (9.95 to 8.48-7.85 °Bx) and pH values increased (3.34 to 3.79-3.91) during storage. At the end of the storage, the total phenolics in the control group decreased by the most during storage (from 1209.09 ppm to 808.00 ppm), whereas the 50 ppm EW group had the highest (931.66 ppm). Further, the significantly highest anthocyanin amount was found to be 143.86 ppm in the 100 ppm EW group at the end of 28 days of storage. The EW can significantly delay the degradation of anthocyanin over the storage period. The sonication at 100 ppm EW damages strawberry tissues, reducing their hardness. The lowest decay rate was found in fruits treated with 100 ppm EW (41.67%), followed by 50 ppm EW (58.33%), compared to the control (75.00%). This study reveals that applications of the 50 ppm EW and also 50 pm EW combined with ultrasonication have great potential in the extending storage stability of the fresh strawberries.

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电解水（EW）和超声波与平衡改良气氛包装的组合效应可延长新鲜草莓的贮藏稳定性。

本研究的重点是电解水（50 和 100 ppm，3 分钟）、超声波（80 W，3 分钟）及其组合对新鲜草莓的效果，然后使用微孔薄膜对草莓进行包装，以提高其贮藏稳定性。在 +4 °C 下贮藏 35 天后，对顶空的气体成分、pH 值、可溶性固形物、颜色（L*、a*、b* 和 ΔE* 值）、花青素、总酚和质地进行了评估。贮藏后，在约 100 ppm 的电解水（EW；0.47%）条件下测得的重量损失最小，而对照组的重量损失最大（0.57%）。贮藏结束时，顶空中的 O2 从 20.90% 降至 10.50-8.10%，CO2 从 0.03% 累积至 16.4-14.34%。结果表明，在贮藏期间，可溶性固形物下降（从 9.95 降至 8.48-7.85 °Bx），pH 值上升（从 3.34 升至 3.79-3.91）。贮藏结束时，对照组的总酚类物质在贮藏过程中减少最多（从 1209.09 ppm 降至 808.00 ppm），而 50 ppm EW 组的总酚类物质则最高（931.66 ppm）。此外，在储藏 28 天结束时，100 ppm EW 组的花青素含量明显最高，为 143.86 ppm。可见，EW 能明显延缓花青素在贮藏期间的降解。100 ppm EW 的超声波会破坏草莓组织，降低其硬度。与对照组（75.00%）相比，经 100 ppm EW 处理的水果腐烂率最低（41.67%），其次是 50 ppm EW（58.33%）。这项研究表明，应用 50 ppm EW 以及 50 pm EW 与超声波处理相结合，在延长新鲜草莓的贮藏稳定性方面具有巨大潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Food Science and Technology International 工程技术-食品科技

CiteScore

5.80

自引率

4.30%

发文量

审稿时长

18-36 weeks

期刊介绍： Food Science and Technology International (FSTI) shares knowledge from leading researchers of food science and technology. Covers food processing and engineering, food safety and preservation, food biotechnology, and physical, chemical and sensory properties of foods. This journal is a member of the Committee on Publication Ethics (COPE).