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  • EI
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  • 食品科學與工程領域高質量科技期刊分級目錄第一方陣T1
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中國精品科技期刊2020
吳雙杰,智錦錦,王德華,等. 光敏性殼聚糖基復合膜在南美白對蝦保鮮中的應用[J]. 食品工業科技,2023,44(21):367?372. doi: 10.13386/j.issn1002-0306.2023020016.
引用本文: 吳雙杰,智錦錦,王德華,等. 光敏性殼聚糖基復合膜在南美白對蝦保鮮中的應用[J]. 食品工業科技,2023,44(21):367?372. doi: 10.13386/j.issn1002-0306.2023020016.
WU Shuangjie, ZHI Jinjin, WANG Dehua, et al. Application of Photosensitive Chitosan-based Composite Films in the Preservation of Litopenaeus vannamei[J]. Science and Technology of Food Industry, 2023, 44(21): 367?372. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023020016.
Citation: WU Shuangjie, ZHI Jinjin, WANG Dehua, et al. Application of Photosensitive Chitosan-based Composite Films in the Preservation of Litopenaeus vannamei[J]. Science and Technology of Food Industry, 2023, 44(21): 367?372. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023020016.

光敏性殼聚糖基復合膜在南美白對蝦保鮮中的應用

Application of Photosensitive Chitosan-based Composite Films in the Preservation of Litopenaeus vannamei

  • 摘要: -本文旨在研究一種復合膜-光動力技術的保鮮模式應用于南美白對蝦,延緩對蝦品質劣化。以殼聚糖為成膜基質,分別負載姜黃素、姜黃素/殼聚糖顆粒,制備了姜黃 素(PsC)和姜黃素/殼聚糖顆粒(PsG)復合膜,探究了兩種復合膜的光敏特性,及其介導光動力殺菌(PsC-L/PsG-L)對南美白對蝦的保鮮作用。分別使用PsC膜和PsG膜覆蓋南美白對蝦,經420 nm LED光源照射10 min后,在4 ℃貯藏0~4 d。貯藏期間,通過測定南美白對蝦菌落總數、揮發性鹽基氮、pH、質構、游離氨基酸等理化指標的變化,綜合評價復合膜的保鮮作用。結果表明,在4 d的貯藏時間內,PsG-L與PsC-L可以影響南美白對蝦菌落總數的生長。PsG-L可抑制南美白對蝦TVB-N和pH的上升,延緩質地軟化,保鮮效果優于PsC-L。PsG-L處理在2 d的貯藏時間內,保留鮮味氨基酸和降低苦味氨基酸含量的效果優于PsC-L。兩種復合膜均具有光敏特性,在420 nm波長的光源驅動下具有光動力抑菌保鮮作用,對南美白對蝦具有良好的保鮮效果。本研究成果為光動力非熱殺菌技術在水產品保鮮中推廣應用提供了支撐。

     

    Abstract: The purpose of this paper was to study the application of a fresh preservation mode of composite film-photodynamic technology to delay the quality deterioration of Litopenaeus vannamei. Composite films (PsC and PsG) were prepared by loading curcumin and curcumin/chitosan granules, respectively, onto chitosan as the film-forming matrix. For the preservation of Litopenaeus vannamei, the photosensitive characteristics of two composite films and their mediated photodynamic sterilization (PsC-L/PsG-L) were explored. Litopenaeus vannamei was covered by PsC films and PsG films, respectively, and kept them at 4 ℃ for 0~4 days after irradiating them with a 420 nm LED light source for 10 minutes. Throughout the storage period, the preservation impact of the composite films was examined comprehensively by assessing the changes in physicochemical indicators such as total bacterial colony, volatile salt nitrogen, pH, texture, and free amino acids in Litopenaeus vannamei. Results indicated that PsG-L and PsC-L might alter the development of microorganism of Litopenaeus vannamei over a 4 day storage period. PsG-L inhibited the increase of TVB-N and pH in Litopenaeus vannamei, delayed texture softening, and had a greater preservation effect than PsC-L. Over a 2 day storage period, PsG-L treatment was more successful than PsC-L in preserving fresh amino acids and reducing the amount of bitter amino acids. Both composite films exhibit photosensitive qualities and photodynamic inhibition of freshness induced by a light source with a wavelength of 420 nm, and they effectively preserve Litopenaeus vannamei. These findings give support for the promotion and deployment of photodynamic non-thermal sterilizing technology in the preservation of aquatic products.

     

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