The Contribution of Autochthonous Microflora on Free Fatty Acids Release and Flavor Development in Low-salt Fermented Fish

Overview

Journal Food Chem

Specialties Chemistry
Nutritional Sciences

Date 2018 Apr 3

PMID 29606447

Citations 20

Authors

Yanshun Xu

Lin Li

Joe Mac Regenstein

Pei Gao

Jinhong Zang

Wenshui Xia

Qixing Jiang

Affiliations

Soon will be listed here.

Abstract

To investigate the contribution of autochthonous microflora on free fatty acids (FFA) release and flavor development in low-salt fermented fish, three groups of processed fish, including bacteriostatic-acidification group (BAG), bacteriostatic group (BG), and spontaneous fermented fish (CG) were established. Results showed that addition of NaN reduced microbial load in BAG and BG below 3.5 log CFU/g after 3 weeks of incubation. Activities of lipases and lipoxygenase declined markedly with increasing time, where BG had the highest activities, followed by CG and BAG. There is a 36.3% higher in the total FFA content in CG than that in BAG, indicating both microbial and endogenous lipases contributed to the FFA liberation in fermented fish while endogenous lipases play a major role. However, compared to BAG and BG, largely higher levels of volatile compounds were observed in CG, suggesting that autochthonous microflora dominated the generation of volatile flavor compounds in fermented fish.

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