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中國精品科技期刊2020
孟敵,焦賀,趙安琪,等. 真空預冷對采后娃娃菜流通及貨架品質的影響[J]. 食品工業科技,2024,45(9):296?308. doi: 10.13386/j.issn1002-0306.2023060008.
引用本文: 孟敵,焦賀,趙安琪,等. 真空預冷對采后娃娃菜流通及貨架品質的影響[J]. 食品工業科技,2024,45(9):296?308. doi: 10.13386/j.issn1002-0306.2023060008.
MENG Di, JIAO He, ZHAO Anqi, et al. Effect of Vacuum Pre-cooling on the Circulation and Shelf Quality of Postharvest Baby Cabbage[J]. Science and Technology of Food Industry, 2024, 45(9): 296?308. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060008.
Citation: MENG Di, JIAO He, ZHAO Anqi, et al. Effect of Vacuum Pre-cooling on the Circulation and Shelf Quality of Postharvest Baby Cabbage[J]. Science and Technology of Food Industry, 2024, 45(9): 296?308. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023060008.

真空預冷對采后娃娃菜流通及貨架品質的影響

Effect of Vacuum Pre-cooling on the Circulation and Shelf Quality of Postharvest Baby Cabbage

  • 摘要: 為優選娃娃菜真空預冷的處理條件,維持采后娃娃菜的新鮮品質,在分析不同真空預冷終溫(0、2和4 ℃)和不同真空預冷終壓(400、600、800和1000 Pa)對采后娃娃菜預冷效果的基礎上,進行了二因素三水平的中心復合響應面試驗。結果顯示,與不經預冷處理的對照和終溫0 ℃的預冷組相比,在終壓600 Pa條件下,2~4 ℃的預冷終溫處理可更好地維持采后娃娃菜的外觀品質,抑制其呼吸速率和丙二醛(MDA)含量的升高。在終溫2 ℃條件下,與不經預冷處理的對照和終壓1000 Pa的預冷組相比,400~800 Pa的預冷終壓處理可更好地維持采后娃娃菜的外觀品質,抑制其呼吸速率及MDA含量的升高。進一步的中心復合響應面試驗結果顯示,采后娃娃菜的真空預冷最優條件為終溫4.0 ℃、終壓600 Pa,該真空預冷條件不僅可維持采后娃娃菜的較好品質,而且可使活性物質可溶性蛋白、總酚和抗壞血酸的含量分別提高18.78%、18.47%和33.23%。因此,適宜的真空預冷處理是一種極具潛力的商品化處理技術,能有效維持采后娃娃菜在流通及貨架期間的良好品質。

     

    Abstract: To optimize the treatment conditions for vacuum pre-cooling of baby cabbage and maintain the fresh quality of postharvest baby cabbage, a central composite response surface experiment with two factors and three levels was conducted on the basis of analyzing the effects of different vacuum pre-cooling final temperature (0, 2 and 4 ℃) and different vacuum pre-cooling final pressure (400, 600, 800 and 1000 Pa) on the pre-cooling of postharvest baby cabbage. The results showed that compared with the control without pre-cooling and the pre-cooling group with final temperature of 0 ℃, the pre-cooling with final temperature of 2~4 ℃ at the final pressure of 600 Pa could better maintain the appearance quality of postharvest baby cabbage, inhibit the increase of respiratory rate and malondialdehyde (MDA) content. Under the condition of final temperature of 2 ℃, compared with the control without pre-cooling and the pre-cooling group with a final pressure of 1000 Pa, pre-cooling with final pressures of 400~800 Pa could also better maintain the appearance quality of postharvest baby cabbage, inhibit the increase of respiratory rate and MDA content. Further central composite response surface experiments showed that the optimal conditions for vacuum pre-cooling of postharvest baby vegetables were final temperature of 4.0 ℃ and final pressure of 600 Pa. The vacuum pre-cooling condition not only maintained good quality of postharvest baby vegetable, but also increased the content of soluble protein, total phenols, and ascorbic acid by 18.78%, 18.47% and 33.23%, respectively. Therefore, appropriate vacuum pre-cooling treatment is a highly potential commercialization technology that could effectively maintain the good quality of postharvest baby vegetable during circulation and shelf life.

     

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