Modeling the Thermal Inactivation of Ascospores from Heat-Resistant Molds in Pineapple Juice and Evaluating Disinfection Efficiency of Sodium Hypochlorite and Chlorine Dioxide

IF 3 Q2 FOOD SCIENCE & TECHNOLOGY
Beverages Pub Date : 2023-11-14 DOI:10.3390/beverages9040096
Thanapoom Maneeboon, Somsiri Sangchote, Ratchanee Hongprayoon, Chananya Chuaysrinule, Warapa Mahakarnchanakul
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Abstract

The contamination and spoilage of heat-treated fruit juices by heat-resistant mold ascospores present significant challenges to the food industry. Understanding effective strategies to mitigate this contamination is vital for ensuring the shelf-life and microbial safety of heat-treated fruit juices. This study investigated the thermal resistance of ascospores from different heat-resistant mold species, including Aspergillus laciniosus, A. chevalieri, A. denticulatus, A. siamensis, Hamigera pallida, and Talaromyces macrosporus, isolated from pineapple and sugarcane field soils. Ascospores inactivation kinetics in pineapple juice under heat treatment (75–97 °C) were analyzed using log-linear and Weibull models. Among these species, A. laciniosus displayed the highest heat resistance (δ-value: 104.59 min at 85 °C), while A. siamensis exhibited the lowest (δ-value: 3.39 min at 80 °C). Furthermore, A. laciniosus, the most heat-resistant species, showed notable tolerance to sanitizers. The most effective inactivation was achieved using 1.0% (w/v) sodium hypochlorite for 15 min. Chlorine dioxide, however, was generally ineffective and even activated dormant ascospores in some cases. The combination of hot water (65 °C for 5 min) with sanitizer increased ascospore reduction in most species but did not achieve the 3-log reduction required by the European Standard N13697. This study revealed a correlation between ascospore resistance to heat and chlorine dioxide, offering significant findings for practical inactivation strategies.
菠萝汁中耐热霉菌子囊孢子热失活模拟及次氯酸钠和二氧化氯消毒效果评价
耐热霉菌子囊孢子对热处理果汁的污染和破坏对食品工业提出了重大挑战。了解减少这种污染的有效策略对于确保热处理果汁的保质期和微生物安全至关重要。本研究研究了从菠萝和甘蔗田土壤中分离的不同耐热霉菌,包括曲霉(Aspergillus laciniosus)、A. chevalieri、A. denticulatus、A. siamensis、Hamigera pallida和Talaromyces macrosporus)的子囊孢子的耐热性。采用对数线性和威布尔模型分析了菠萝汁热处理(75 ~ 97℃)时子囊孢子失活动力学。其中,裂唇竹的耐热性最高(85℃时的δ值为104.59 min),气孔竹的耐热性最低(80℃时的δ值为3.39 min)。此外,最耐热的品种laciniosus对消毒剂表现出显著的耐受性。使用1.0% (w/v)的次氯酸钠灭活15分钟是最有效的。然而,二氧化氯通常无效,甚至在某些情况下激活了休眠的子囊孢子。热水(65°C 5分钟)与消毒剂的组合增加了大多数品种的子囊孢子减少,但没有达到欧洲标准N13697所要求的3对数减少。本研究揭示了子囊孢子耐热性与二氧化氯之间的相关性,为实际灭活策略提供了重要的发现。
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
Beverages
Beverages FOOD SCIENCE & TECHNOLOGY-
CiteScore
6.10
自引率
8.60%
发文量
68
审稿时长
11 weeks
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