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中国精品科技期刊2020
赵越,周魏,朱少华,等. 梨生物活性成分及其提取方法研究进展J. 食品工业科技,2026,47(17):1−15. doi: 10.13386/j.issn1002-0306.2025100276.
引用本文: 赵越,周魏,朱少华,等. 梨生物活性成分及其提取方法研究进展J. 食品工业科技,2026,47(17):1−15. doi: 10.13386/j.issn1002-0306.2025100276.
ZHAO Yue, ZHOU Wei, ZHU Shaohua, et al. Research Progress on Bioactive Components and Extraction Methods of Pear (Pyrus spp.)J. Science and Technology of Food Industry, 2026, 47(17): 1−15. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025100276.
Citation: ZHAO Yue, ZHOU Wei, ZHU Shaohua, et al. Research Progress on Bioactive Components and Extraction Methods of Pear (Pyrus spp.)J. Science and Technology of Food Industry, 2026, 47(17): 1−15. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025100276.

梨生物活性成分及其提取方法研究进展

Research Progress on Bioactive Components and Extraction Methods of Pear (Pyrus spp.)

  • 摘要: 梨(Pyrus spp.)全产业链中产生的大量果皮、枝叶及未成熟落果等副产物富含高价值生物活性成分。现有研究表明,梨中的酚类、三萜类及熊果苷等活性物质呈现显著的“时空异质性”,即在果皮、枝叶及未成熟果实中的富集度远高于成熟果肉,这明确了副产物作为提取原料的优势地位。在提取技术方面,虽然传统有机溶剂提取法技术成熟,但受限于溶剂残留与环境毒性。通过对溶剂法与新型辅助提取技术的对比发现,绿色高效提取技术有望突破传统溶剂法在传质效率与溶剂残留上的局限,是实现梨加工副产物高值化利用的关键途径,应根据原料物理特性和目标成分稳定性灵活选择提取策略。梨活性成分在美白化妆品及肠道健康食品领域极具开发潜力,但未来研究需重点突破多尺度工业化验证、基于人工智能的工艺多目标优化以及成分间协同效应的深入解析,以推动梨资源的高值化综合利用。

     

    Abstract: By-products generated throughout the entire pear (Pyrus spp.) industrial chain, including peels, branches, leaves, and unripe fruits, are abundant sources of high-value bioactive components. Current research indicates that bioactive compounds such as phenolics, triterpenoids, and arbutin exhibit significant "spatiotemporal heterogeneity," characterized by considerably higher concentrations in peels, branches, leaves, and unripe fruits compared to mature pulp. This distribution pattern underscores the superiority of these by-products as raw materials for extraction. Regarding extraction techniques, while traditional organic solvent extraction is well-established, its application is constrained by issues of solvent residues and environmental toxicity. A comparative analysis reveals that green, efficient extraction technologies offer a promising solution to overcome the limitations of traditional methods regarding mass transfer efficiency and solvent residues. These technologies represent a critical pathway for the valorization of pear processing by-products, provided that extraction strategies are flexibly selected based on the physical characteristics of the raw materials and the stability of the target components. Bioactive components from pears possess immense development potential in the fields of skin-whitening cosmetics and gut health-promoting foods. However, future research should prioritize multi-scale industrial validation, artificial intelligence-driven multi-objective process optimization, and the in-depth elucidation of synergistic interactions among components, aiming to advance the comprehensive, high-value utilization of pear resources.

     

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