猕猴桃采收标准与采后处理研究进展OA
Advances in harvesting standard and postharvest handling of kiwifruit
猕猴桃富含糖、维生素C(Vc)、膳食纤维、多酚类物质等营养和功能成分,具有极高的保健价值,被誉为"水果之王",深受消费者喜爱.然而,我国猕猴桃的商品化率和市场竞争力仍相对较低.研究表明,以可溶性固形物含量(SSC)、果实硬度和干物质含量为核心指标确定采收标准,是保障果实品质的前提;低温贮藏、变温贮藏、气调贮藏及1-甲基环丙烯(1-MCP)处理可有效延缓果实成熟进程,降低呼吸强度与乙烯释放速度,维持果实硬度与营养活性;乙烯催熟与变温催熟技术可实现成熟度与风味的双重调控,提升猕猴桃果实的食用品质与市场竞争力.此外,通过多种品质调控与保鲜技术的综合应用,可进一步延长猕猴桃货架期并提升商品化水平.本文系统综述了猕猴桃采收标准与采后处理的研究进展,提出了采收标准及采后处理一体化的技术框架,并展望了数字化溯源与智能监测的应用方向,为猕猴桃产业的标准化、提质增效及高附加值产品开发提供了可行路径与技术支撑,满足市场对高品质、便捷型水果的需求并推动产业升级.
Kiwifruit(Actinidia Lindl.)acclaimed as the"king of fruits"due to its rich nutritional com-position,is an important horticultural crop with high economical and nutritional value.It is rich in sug-ar,vitamin C,dietary fiber,polyphenols,and various bioactive compounds,which contributes to its strong antioxidant capacity and numerous health benefits.In response to the growing market demand for high-quality,safe,and convenient fruit products,the modernization of kiwifruit harvesting and post-harvest handling has become essential for industrial advancement and sustainable development.This re-view summarizes recent progress in harvest maturity evaluation,storage and preservation techniques,ripening control,and quality regulation of kiwifruit.Studies have indicated that determining harvest ma-turity based on soluble solids content(SSC),fruit firmness,and dry matter content is critical for main-taining postharvest quality and ensuring optimal flavor potential.SSC is closely related to sugar accu-mulation and sweetness,firmness determines texture and damage resistance during transport,and dry matter serves as an effective predictor of flavor development.Scientific evaluation of these parameters provides a foundation for defining the optimal harvest period and achieving a balance between storabili-ty and eating quality.Postharvest handling has attracted considerable research attention in recent years.Low-temperature storage remains the most fundamental and effective method for slowing fruit respira-tion,suppressing ethylene biosynthesis,and extending shelf life.Variable-temperature storage simulates natural temperature fluctuations to reduce chilling injury,maintain cell membrane integrity,and pre-serve flavor compounds.Controlled-atmosphere storage further enhances postharvest stability by adjust-ing gas composition to delay senescence.The application of 1-methylcyclopropene(1-MCP),an ethyl-ene receptor inhibitor,has also been shown to effectively delay softening and maintain firmness,and nu-tritional integrity during long-term storage and transport.Ripening regulation technologies are equally important for achieving the desired eating quality of kiwifruit.Ethylene treatment promotes uniform softening and aroma development,while temperature-controlled ripening enables coordinated regula-tion of ripening and flavor formation.The integration of ethylene management with temperature control allows a more precise and controllable ripening process,thereby improving consumer satisfaction and commercial value.In addition,emerging quality regulation techniques,such as antioxidant application,calcium-based firmness regulation,and natural or edible coating treatments,have shown promising re-sults in delaying senescence and maintaining the visual and textural quality of fruit during storage.The integration of diverse preservation and ripening technologies establishes a comprehensive postharvest handling system that supports large-scale,standardized,and high-value production of kiwifruit.Further-more,the development of digital traceability,intelligent monitoring,and predictive modeling technolo-gies offers new opportunities to improve supply chain transparency and optimize storage and distribu-tion management.By combining traditional postharvest physiology with modern intelligent manage-ment tools,the kiwifruit industry can enhance product quality while promoting sustainability.In summa-ry,this review emphasizes the current progress and future perspectives of kiwifruit harvesting standard and postharvest handling technologies.It emphasizes the importance of integrating scientific harvest standards with advanced storage,preservation,and ripening strategies to maintain fruit quality and eco-nomic value.Continued research on the molecular mechanisms of ripening,digital management sys-tems,and environmentally friendly preservation technologies will further promote the sustainable and high-quality development of the kiwifruit industry.
申思雨;李兰;张研宗;顾红;陈锦永;杨英军
河南科技大学园艺与植物保护学院,河南洛阳 471000||中国农业科学院郑州果树研究所·果蔬园艺作物种质创新与利用全国重点实验室·国家数字种植业(果园)创新分中心,郑州 450009||中原研究中心,河南新乡 453000中国农业科学院郑州果树研究所·果蔬园艺作物种质创新与利用全国重点实验室·国家数字种植业(果园)创新分中心,郑州 450009||中原研究中心,河南新乡 453000中国农业科学院郑州果树研究所·果蔬园艺作物种质创新与利用全国重点实验室·国家数字种植业(果园)创新分中心,郑州 450009||中原研究中心,河南新乡 453000中国农业科学院郑州果树研究所·果蔬园艺作物种质创新与利用全国重点实验室·国家数字种植业(果园)创新分中心,郑州 450009||中原研究中心,河南新乡 453000中国农业科学院郑州果树研究所·果蔬园艺作物种质创新与利用全国重点实验室·国家数字种植业(果园)创新分中心,郑州 450009||中原研究中心,河南新乡 453000河南科技大学园艺与植物保护学院,河南洛阳 471000
农业科技
猕猴桃采收标准采后保鲜催熟技术品质调控
KiwifruitHarvest standardPost-harvest preservationRipening technologyQuality regu-lation
《果树学报》 2026 (3)
661-672,12
国家重点研发计划(2022YFD1600700)河南省现代农业产业技术体系建设专项(HARS-22-09-S)中国农业科学院科技创新工程(CAAS-ASTIP-2023-ZFRI-03)国家现代农业产业技术体系(CARS-26)
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