Laura Lavefve scite author profile

Consumption of fermented food has long been associated with health benefits, but there is still limited knowledge on the bacterial dynamics in plant‐based food fermentation outside of culture‐based studies. Different fermented plant‐based products were assessed for the presence of Archaea and their microbiota bacterial dynamics during the fermentation. Archaea were consistently detected in the brine of the vegetables, and constant increase in gene copy number throughout the fermentation of kraut indicated that Archaea were not only viable but actively growing. The plant‐associated bacterial microbiota of cabbage and jalapeno were dominated by Proteobacteria, specifically Pseudomonas (51% and 39% respectively), while the okra harbored roughly equal numbers of firmicutes and proteobacteria. In cabbage and jalapeno fermentations, lactic acid bacteria (LAB), which were detected in extremely low levels in raw products, became dominant with expected succession of heterofermentative and homofermentative species. These two stages were not detected in the fermentation of okra, and Lactobacillus remained the most abundant genera. The kombucha fermentation was dominated by Gluconacetobacter as reported previously, but also characterized by high abundance of Bacteroides. Intriguingly, the microbiota composition and dynamics were very different between the two kombucha batches tested, suggesting redundancy in microorganisms’ fermentative roles. Finally, a preliminary in vitro fermentation study was indicative of a potential bifidogenic effect of microbial metabolites from kombucha. Collectively, these data indicate that fermented plant products harbor a highly diverse microbiota, bacteria, and archaea, even after the end of the fermentation.

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Year, Location, and Variety Impact on Grape-, Soil-, and Leaf-Associated Fungal Microbiota of Arkansas-Grown Table Grapes

Cureau

Threlfall

Savin

et al. 2021

Microb Ecol

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Fungal Diversity and Dynamics during Grape Wine Fermentations with Different Sulfite Levels and Yeast Inoculations

et al. 2021

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Microbial communities during grape wine fermentations are diverse and dynamic.High-throughput sequencing (molecular methods enabling precise identification of microbial communities), was used to identify fungal diversity during fermentation of grape juice with different sulfite levels and yeast inoculations. Fermentation (0, 14, and 21 days) was evaluated on two grape varieties, Noble (Vitis rotundifolia) and Vignoles (Vitis hybrid) fermented at three sulfite levels (0, 10, and 20 mg/L) and three yeast inoculations (Uninoculated, Saccharomyces cerevisiae, and Torulaspora delbrueckii). Fungal taxonomy of both varieties included 6-7 phyla and 115-129 genera. Indigenous microbiota was impacted by sulfite levels and yeast inoculations but varied by grape variety. Sulfite levels had minimal impact on fungal communities but affected fermentation

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Laura Lavefve

Berry polyphenols metabolism and impact on human gut microbiota and health

Microbial Ecology of Fermented Vegetables and Non-Alcoholic Drinks and Current Knowledge on Their Impact on Human Health

Microbiota profiles and dynamics in fermented plant‐based products and preliminary assessment of their in vitro gut microbiota modulation

Year, Location, and Variety Impact on Grape-, Soil-, and Leaf-Associated Fungal Microbiota of Arkansas-Grown Table Grapes

Fungal Diversity and Dynamics during Grape Wine Fermentations with Different Sulfite Levels and Yeast Inoculations

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