高压二氧化碳抑制西瓜汁褐变的试验

    Experiment on inhibition of watermelon juice browning by high pressure carbon dioxide

    • 摘要: 为了利用非热技术抑制西瓜汁的褐变,该文采用了高压二氧化碳(HPCD)处理西瓜汁,并研究了处理后西瓜汁中过氧化物酶(POD)活性、颜色、褐变度、番茄红素和总酚质量浓度的变化规律。在50℃下,采用8、15、22和 30 MPa 4个压力下选取2.5、5、10、20、30 min 5个时间梯度对西瓜汁进行处理,同时与50℃热处理结果做比较。结果表明,HPCD处理不仅显著钝化POD活性,而且有效抑制西瓜汁褐变的发生。经HPCD处理后,西瓜汁中的番茄红素含量略有下降(P<0.05),总酚含量保持不变(P>0.05)。数据分析显示西瓜汁的褐变度与POD活性残存率呈正相关,与其亮度值L*呈负相关,并且50℃、30 MPa、30 min的HPCD处理可以较好的满足西瓜汁加工的需要。因此,在西瓜汁加工中,通过HPCD处理可有效钝化果汁中POD活性,并可以达到抑制褐变的目的。

       

      Abstract: In order to study the inactivation of peroxidase (POD) from watermelon juice by non-thermal technology, the effects of high pressure carbon dioxide (HPCD) treatment on POD activity, color, browning degree, lycopene content, and total polyphenol content of watermelon juice were investigated. In this study, HPCD treatment was performed at 50℃ under 8, 15, 22, and 30 MPa, and the treatment time of 2.5, 5, 10, 20, 30 min was applied at each pressure compared to thermal treatment of 50℃. Results showed that HPCD treatment not only inactivated POD activity, but also reduced browning degree of watermelon juice. After HPCD treatment, the content of lycopene reduced slightly (P<0.05), total phenol remained constant (P>0.05). Moreover, the correlation analysis presented that browning degree of watermelon juice showed positive relation with its POD residual rate, and negative relation with its L* value. And HPCD treatment of 50 ℃, 30 MPa, and 30 min was the better production condition of watermelon juice. Hence, HPCD treatment could inhibit browning of watermelon juice by inactivating POD activity in production. .

       

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