Naturally Fermented Milk From Northern Senegal: Bacterial Community Composition and Probiotic Enrichment With Lactobacillus rhamnosus

A variety of foods fermented with lactic acid bacteria serve as dietary staples in many African communities; yet, their bacterial profiles are poorly characterized. The integration of health-promoting probiotics into naturally fermented milk products could make a profound impact on human health. Here, we characterize the bacterial community composition of a naturally fermented milk product ( ) from northern Senegal, prepared in wooden bowls (lahals) with a bacterial biofilm to steer the fermentation process. We incorporated a probiotic starter culture containing the most documented probiotic strain GG (generic strain name yoba 2012) into the local fermentation process. Bar-coded 16S rRNA amplicon sequencing of samples indicated that the bacterial community of has high species richness with over 100 bacterial genera; however, few have high abundance. In contrast to the diverse bacterial compositions of other characterized naturally fermented milk products, the composition of predominantly consists of the lactic acid bacteria and , resembling the bacterial composition in regular yogurt. The bacterial community composition of varies geographically based on the presence of some genera, including , and , but this trend is not consistent within production communities. The diversity of bacterial communities is much higher in the biofilm than in the naturally fermented milk products, which is in turn greater than in commercial yogurts. Addition of a starter culture with yoba 2012 to milk in led to substantial growth of this probiotic bacterium during the fermentation process. Two independent quantitative PCR-analyses specific for yoba 2012 indicated a 20- to 60-fold increase in the total number of probiotic bacteria in the first batch after inoculation. A similar increase of the probiotic was observed in a variation of prepared with carbohydrate-rich millet granules ( ) added prior to fermentation. This study shows the feasibility of integrating health-promoting probiotic strains into naturally fermented foods produced in regions with a high prevalence of malnutrition.