关键词: 黄鳝；预制调理食品；解冻；复热；电子鼻；电子舌；气相色谱-离子迁移谱

Abstract: Our aim was to select the most suitable thawing and reheating methods for frozen prepared Monopterus albus. Four thawing methods (refrigerated, running water, microwave, and ultrasonic static water) were used to thaw frozen samples. Thawing time, moisture content, thawing loss, thiobarbituric acid reactive substances (TBARS) value, peroxide value, acid value (AV), total volatile basic nitrogen (TVB-N) content, and total bacterial count were measured. After thawing by the most suitable thawing method (ultrasonic static water), three methods (steam, microwave, and water bath heating) were used to reheat prepared Monopterus albus, which was then evaluated for textural properties and sensory quality. Furthermore, the flavor quality was analyzed using an electronic nose (E-nose), an electronic tongue (E-tongue), and gas chromatography-ion mobility spectrometry (GC-IMS). The results showed that ultrasonic static water thawing resulted in the lowest thawing loss (3.60%), TBARS value (0.32 mg/kg), AV (0.47 mg/g), and TVB-N content (1.99 mg/100 g). Furthermore, steam reheating resulted in the lowest hardness (1 099 N), chewiness (627 N), and shear force (7.9 N) indicating excellent textural properties, as well as the highest organoleptic score. Linear discriminant analysis (LDA) of the E-nose sensor response showed a clear discrimination between the different reheated samples (LD1 and LD2 explained 94.3% of the total variance). E-tongue analysis showed that steam and water bath reheating significantly reduced the bitter taste and bitter aftertaste of the product while enhancing the salty taste. GC-IMS analysis revealed that steam reheating led to higher concentrations of hexanal and (E,E)-2,4-nonadienal and consequently enhanced fatty and pine-like aromas, and effectively reduced the concentrations of compounds with an irritating odor such as 2-hexanone and dimethylamine. In conclusion, the combination of ultrasonic static water thawing and steam reheating could effectively improve the eating quality of frozen prepared Monopterus albus, providing scientific guidance for the high-quality thawing and reheating of frozen prepared freshwater fish products.

Key words: Monopterus albus; prepared foods; thawing; reheating; electronic nose; electronic?tongue; gas chromatography-ion mobility spectrometry