Deterioration of plant volatile organic compounds in food: Consequence, mechanism, detection, and control

Nowadays, consumers increasingly prefer food with original, natural, and delicious flavors, which is closely linked to the content of volatile organic compounds (VOCs) in food. In recent years, the function of plant VOCs as natural food additives (flavoring and aromatizing agents, antibacterial agen...

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Bibliographic Details
Published in:Trends in food science & technology 2023-01, Vol.131, p.61-76
Main Authors: Gong, Xiaohui, Huang, Jing, Xu, Yongquan, Li, Zhenbiao, Li, Li, Li, Dong, Belwal, Tarun, Jeandet, Philippe, Luo, Zisheng, Xu, Yanqun
Format: Article
Language:English
Subjects:
biosensors
Control technology
Deterioration
DNA
food industry
food science
lipid peroxidation
Maillard reaction
Mechanism
metabolism
odors
peptides
processed foods
Sensor detection
technology
Volatile organic compounds
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Summary:Nowadays, consumers increasingly prefer food with original, natural, and delicious flavors, which is closely linked to the content of volatile organic compounds (VOCs) in food. In recent years, the function of plant VOCs as natural food additives (flavoring and aromatizing agents, antibacterial agents) and their health benefits have attracted increased attention from the food industry. However, plant VOCs are quickly deteriorated because of their reactive molecular characteristics, which is the most critical bottleneck in their functions. Exploring the consequence, mechanism, sensor detection, and control technology of VOC deterioration can help to promote further advances in the protection of the food aroma and the application of plant VOCs in the food industry. Focusing on the highlighted roles of VOCs in the food industry and deterioration-prone characteristics, concluding the consequence, mechanism, sensor detection, and control technology of VOC deterioration. The VOC deterioration in fresh food mainly results from composition variation induced by intracellular metabolism during storage, and metabolic loss induced by environmental factors. The leading causes inducing the VOC deterioration in processed food include physical loss by heating and chemical variations arising from the Maillard reaction, lipid oxidation, and other reactions. The biosensors assembled by proteins, peptides, or DNA showed excellent VOC sensitivity and selectivity performance. One technology cannot ideally protect every volatile component. Establishing the loss model and law of characteristic aroma components in specific technical treatment helps the component preservation of VOCs. •Plant-based VOCs play essential roles in the food industry with increasing popularity among customers, like being used as natural, important determinants of food aroma, antibacterial preservatives in processed food, and providing novel health benefits to humans.•Due to high volatility and chemical reactivity, the widespread deterioration of plant VOCs in fresh food mainly resulted from metabolic composition variation and metabolic loss, while that in processed food was evoked by chemical variation and physical loss.•Developing novel biosensors to accurately detect VOC deterioration in complicated food matrices is a significant future trend.•The control of VOC deterioration in fresh fruit was intertwined with the preservation technologies, while that in processed plant food was based on the circumvent
ISSN:0924-2244
1879-3053
DOI:10.1016/j.tifs.2022.11.022