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Fungal Interactions Strengthen the Diversity-Functioning Relationship of Solid-State Fermentation Systems

Hongxia Zhang, Yuwei Tan, Junlin Wei, Hai Du, Yan Xu

2022mSystems48 citationsDOIOpen Access PDF

Abstract

fermentation process, thereby rendering the microbiome dynamics challenging to manage and predict. Understanding the complex fermentation community and its relationship to community functions is therefore important in the context of developing improved fermentation biotechnology systems. Our work demonstrates that multiple-batch fermentation steps increase microbial diversity and promote community stability. Crucially, the enhanced modularity in the microbial network increases the metabolism of flavor compounds and ethanol. This study highlights the power of biodiversity and network interactions in regulating the function of the microbiome in food fermentation ecosystems.

Topics & Concepts

Diversity (politics)Fungal DiversitySolid-state fermentationFermentationBiologyEcologyFood scienceSociologyAnthropologyFermentation and Sensory AnalysisFungal Biology and ApplicationsMicrobial Metabolic Engineering and Bioproduction
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