食品科学

• 基础研究 • 上一篇    下一篇

臭氧去除蔬菜表面残留农药及对蔬菜品质的影响

吴双桃,吴云影,山内四郎   

  1. 1.韩山师范学院化学系,广东 潮州 521041;2.日本三菱多田电机株式会社,日本岡山県 瀬戸内市 〒701-4247
  • 出版日期:2014-11-15 发布日期:2014-11-06

Removal of Residual Pesticides on Vegetable Surface Using Ozone and Its Effect on Vegetable Quality

WU Shuang-tao, WU Yun-ying, YAMAKUCHI Silang   

  1. 1. Department of Chemistry, Hanshan Normal University, Chaozhou 521041, China;
    2. Tada Electric Co. Ltd., Okayama 〒701-4247, Japan
  • Online:2014-11-15 Published:2014-11-06

摘要:

采用持续通臭氧浸泡处理,研究臭氧对蔬菜残留农药的去除效果以及对蔬菜品质的影响,并探讨减少VC流失的有效措施。结果表明,臭氧处理对残留农药的去除效果与处理时间、残留物种类有关。水中持续通臭氧加快去除油菜表面的残留农药,去除率为氯氰菊酯>三氟氯氰菊酯>对硫磷。臭氧处理可破坏蔬菜的表面形态及导致营养成分还原型VC的流失,叶菜类VC损失量和流失率较瓜果类蔬菜大,表现为:芥兰>油菜>青椒>黄瓜。缩短臭氧处理时间、加入少量食用醋、以及降低反应系统中水的温度可有效减少蔬菜中VC的流失。

关键词: 臭氧, 残留, 蔬菜, VC, 去除率

Abstract:

The efficacy of ozone to remove residual pesticides on the surface of vegetables by immersing them in water
while continuously introducing ozone was investigated as well as its effect on vegetable quality. Several effective approaches
were proposed to reduce vitamin C (VC) loss. The results showed that the removal efficiency of pesticide residues by ozone
was dependent on ozone treatment time and the type of pesticides. The removal process of pesticides could be accelerated by
continuously introducing ozone. Cypermethrin, cyhalothrin and parathion were removed in decreasing order of efficiency.
The surface of vegetables could be destroyed and the content of VC was reduced by ozone treatment. Under the same
conditions, the absolute amount and percentage of VC loss in leaf vegetables were higher than in fruit vegetables, and
the decreasing order was Brassica alboglabra L. H. Bailey, Brassica rapa L.Chinensis Group, Capsicum annuum L. and
Cucumis sativus L. The VC loss could be reduced by shortening the treatment time, adding a small amount of vinegar or
lowering the water temperature.

Key words: ozone, residue, vegetable, vitamin C, removal rate

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