Litcius/Paper detail

Primary and Secondary Succession Mediate the Accumulation of Biogenic Amines during Industrial Semidry Chinese Rice Wine Fermentation

Yi Luo, Yang Huang, Rui-xian Xu, Bin Qian, Jingwen Zhou, Xiaole Xia

2020Applied and Environmental Microbiology28 citationsDOIOpen Access PDF

Abstract

Understanding the shifting patterns of substance usage and microbial interactions is a fundamental objective within microbiology and ecology. Analyses of primary and secondary microbial succession allow for determinations of taxonomic diversity, community traits, and functional transformations over time or after a disturbance. The kinetics of BA generation and the patterns of resource consumption, functional metagenome prediction, and microbial interactions were profiled to elucidate the equilibrium mechanism of microbial systems. Secondary succession after a disturbance triggers a change in resource usage, which in turn affects primary succession and metabolism. In this study, the functional potential of exogenous microorganisms under disturbance synergized with secondary succession strategies, including rebalancing and dormancy, which ultimately reduced BA accumulation. Thus, this succession system could facilitate the settling of essential issues with respect to microbial traits that rely on resource usage and microbial interactions that occur in natural ecosystems.

Topics & Concepts

WineEcological successionFermentationYeast in winemakingBiologyBiotechnologyPrimary (astronomy)ChemistryFood scienceBotanyBiochemistryYeastSaccharomyces cerevisiaePhysicsAstronomyPolyamine Metabolism and ApplicationsAmino Acid Enzymes and Metabolism