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Effect of ultrasonic pretreatment with synergistic microbial fermentation on tenderness and flavor of air-dried duck under low nitrite process

Weitao Zhao, Xiankang Fan, Zihang Shi, Yangying Sun, Zhen Wu, Mingzhi Huang, Daodong Pan

2024Food Chemistry X15 citationsDOIOpen Access PDF

Abstract

The tenderness and flavor of meat products are critical factors influencing consumers' purchasing decisions. This study investigated the effects of ultrasonic pretreatment with synergistic microbial strain fermentation on tenderness and flavor of air-dried duck under low nitrite process. The results demonstrated that ultrasonic pretreatment combined with microbial strain fermentation improved water retention and tenderness of duck meat by disrupting the muscle microstructure, increasing muscle fiber spacing, and facilitating water migration and distribution. This primarily concerns the cavitation and mechanical effects of ultrasound and the role of lactic acid bacteria and yeasts in muscle protein hydrolysis. A total of 34 and 55 volatile flavor compounds were detected by HS-SPME-GC–MS and GC-IMS, respectively. The results indicated that acetaldehyde (stimulating, fruity, green apple), ethyl acetate (sweet, fruity, pineapple), and 3-hydroxy-2-butanone (sweet, creamy) were responsible for the improved flavor during this process, which was primarily related to the increased activity of neutral lipase (0.38 U/g protein), acidic lipase (0.48 U/g protein), and phospholipase (0.09 U/g protein). This study provides valuable insights into the synergistic effects of ultrasonic pretreatment and microbial co-fermentation, offering a theoretical basis for optimizing air-dried duck production and enhancing flavor quality. Effect of ultrasonic pretreatment with synergistic bacterial fermentation on tenderness and flavor of air-dried duck under low nitrite process. • Ultrasound disrupts muscle microstructure and promotes water migration. • Cavitation and mechanical effects of ultrasound are the main cause of disruption to the structure of myofibrillar fibrillar proteins. • Acetaldehyde, ethyl acetate, and pentan-2-ol the cause of the flavor improvement.

Topics & Concepts

FlavorTendernessFood scienceChemistryFermentationNitriteAcetaldehydeBiochemistryOrganic chemistryNitrateEthanolMeat and Animal Product QualityAdvanced Chemical Sensor TechnologiesBiochemical Analysis and Sensing Techniques
Effect of ultrasonic pretreatment with synergistic microbial fermentation on tenderness and flavor of air-dried duck under low nitrite process | Litcius