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中国精品科技期刊2020
郭莉,吴广,尹青春,等. 二氧化氯缓释剂对低温贮藏荔枝品质及关键花青素的影响[J]. 食品工业科技,2024,45(6):297−303. doi: 10.13386/j.issn1002-0306.2023050122.
引用本文: 郭莉,吴广,尹青春,等. 二氧化氯缓释剂对低温贮藏荔枝品质及关键花青素的影响[J]. 食品工业科技,2024,45(6):297−303. doi: 10.13386/j.issn1002-0306.2023050122.
GUO Li, WU Guang, YIN Qingchun, et al. Impact of Chlorine Dioxide Slow-releasing Preservative on Quality and Key Anthocyanins of Litchi during Low Temperature Storage[J]. Science and Technology of Food Industry, 2024, 45(6): 297−303. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023050122.
Citation: GUO Li, WU Guang, YIN Qingchun, et al. Impact of Chlorine Dioxide Slow-releasing Preservative on Quality and Key Anthocyanins of Litchi during Low Temperature Storage[J]. Science and Technology of Food Industry, 2024, 45(6): 297−303. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023050122.

二氧化氯缓释剂对低温贮藏荔枝品质及关键花青素的影响

Impact of Chlorine Dioxide Slow-releasing Preservative on Quality and Key Anthocyanins of Litchi during Low Temperature Storage

  • 摘要: 荔枝采后易由花青素降解、呼吸代谢等导致其品质劣变,而二氧化氯(ClO2)有护色和抑制呼吸的多重作用。为探明ClO2对采后荔枝的综合影响,本研究分别采用0.1 g(T1)、0.4 g(T2)和1.2 g(T3)ClO2缓释剂处理荔枝,以0 g(CK)为对照,通过品质指标、色泽指标、花青素等评价其保鲜效果,并通过相关性分析探讨它们间的联系。结果表明,T1组荔枝贮藏品质最佳。贮藏7 d时,T1组荔枝可溶性固形物、a*值分别比同期CK组显著(P<0.05)提高了2.93%和10.13%,而呼吸速率显著(P<0.05)降低了34.54%。与此相反,T3组荔枝第7 d相对电导率达最高值35.84%,a*达降到最低值18.38,说明细胞结构破坏、漂白明显,贮藏品质最差。为进一步探明色泽变化与花青素的关系,筛选出荔枝中10种关键花青素,含7种原花青素,它们占总花青素达66.96%。相关性分析表明,在贮藏期内,T1、T2、T3组中色泽a*值与矢车菊素半乳糖苷的相关系数分别为0.980、0.548、0.360,与矢车菊素-3-O-葡萄糖苷的相关系数为0.985、0.488、0.402。T1组维持了最好的色泽,可能与其维持以上2种关键红色花青素较慢分解有关,而T3组加速了花青素的分解。本研究可为提高荔枝采后品质提供参考。

     

    Abstract: Litchi is prone to deterioration in quality after harvest due to degradation of anthocyanins and respiratory metabolism, and chlorine dioxide (ClO2) has multiple effects on color protection and respiratory inhibition. In this study, 0.1 g (T1), 0.4 g (T2), and 1.2 g (T3) of ClO2 slow-releasing preservatives were used to treat lychees with 0 g (CK) as the control to evaluate the preservation effect by quality index, color index and anthocyanin, and correlation analysis was applied to explore the association between them. The results showed that the litchi of the T1 showed the optimal qualities. On the 7 th day, the total soluble solids and a* values of litchi in the T1 were significantly (P<0.05) increased by 2.93% and 10.13%, respectively, while the respiration rate was significantly (P<0.05) decreased by 34.54% compared to the CK group in the same period. On the contrary, the relative conductivity of the T3 litchi reached the highest value of 35.84% on the 7 th day, and a* decreased to the lowest value of 18.38, indicating significant damage to cell structure, bleaching, and the worst storage quality. To further investigate the relationship between color changes and anthocyanins, 10 key anthocyanins were selected from litchi, including 7 proanthocyanins, which accounted for 66.96% of the total. The correlation analysis showed that the correlation coefficients between a* value and cyanidin-3-O-galactoside in the T1, T2, and T3 groups were 0.980, 0.548, and 0.360, respectively, and the correlation coefficients with cyanidin-3-O-glucoside were 0.985, 0.488, and 0.402 during storage. The T1 maintained the best color, possibly due to the slower decomposition of the two key red anthocyanins above, while the T3 accelerated the decomposition of anthocyanins. This study could provide valuable insights for enhancing the postharvest quality of litchi.

     

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