Dynamic changes in the gel properties, microbial community, and volatile flavor profile of Spanish mackerel (Scomberomorus niphonius) sausages inoculated with Lactiplantibacillus plantarum CY1-2.

Abstract

Spanish mackerel is an important economic fish species in China, but corruption undermines its overall economic value. Fermentation serves as a crucial technique for preserving perishable fish in developing countries. This study aimed to examine the dynamic changes in the gel properties, physicochemical properties, microbial diversity, and volatile flavor compounds (VFCs) of Spanish mackerel sausages inoculated with Lactiplantibacillus plantarum CY1-2 during fermentation. The correlation between key microorganisms and VFCs was explored using a two-way orthogonal partial least squares analysis. The results showed that the group inoculated with strain CY1-2 exhibited significant improvements compared with the control group after 40 h of fermentation. Specifically, gel strength increased by 207.7%, total free amino acids increased by 37.49%, DPPH and ABTS radical scavenging rates increased by 34.12% and 58.73%, and TVB-N levels decreased by 54.2%, respectively. In addition, using gas chromatography-mass spectrometry, 36 VFCs were detected in fermented sausages, including 9 aldehydes, 9 hydrocarbons, 7 alcohols, 4 acids, 2 ketones, and 5 esters. High-throughput sequencing demonstrated that the bacterial profiles were altered in sausages inoculated with strain CY1-2 during fermentation. Enhydrobacter dominated initially but was quickly replaced by Macrococcus after 8 h of fermentation, while Lactobacillus became the dominant genus after 40 h. Correlation analysis revealed that Lactobacillus and Staphylococcus played important roles in the production of VFCs in the fermented sausages. Notably, Lactobacillus was positively associated with 2-undecanone, pentadecane, and hexanal. This study confirmed that strain CY1-2 inoculation could enable the production of high-quality fermented fish sausages.