Starter culture growth dynamics and sensory properties of fermented oat drink
Mary-Liis Kütt,
Kaisa Orgusaar,
Irina Stulova,
Reimo Priidik,
Dmitri Pismennõi,
Helen Vaikma,
Aili Kallastu,
Aleksandra Zhogoleva,
Indrek Morell,
Tiina Kriščiunaite
Affiliations
Mary-Liis Kütt
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Kaisa Orgusaar
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Irina Stulova
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Reimo Priidik
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Dmitri Pismennõi
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia; Institute of Chemistry and Biotechnology, Tallinn University of Technology, Akadeemia tee 15, 12618 Tallinn, Estonia
Helen Vaikma
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia; Department of Business Administration, School of Business and Governance, Tallinn University of Technology, Ehitajate tee 5, 12616 Tallinn, Estonia
Aili Kallastu
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Aleksandra Zhogoleva
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Indrek Morell
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia
Tiina Kriščiunaite
Center of Food and Fermentation Technologies, Mäealuse 2/4, Tallinn, 12618, Estonia; Corresponding author.
In the present study, an oat drink, a plant-based alternative to dairy products, was developed by fermenting the oat base with different vegan starter cultures. The desired pH below 4.2 was achieved in 12 h, regardless of starter culture used. Metagenomic sequencing revealed that S. thermophilus was the dominating species, ranging from 38% to 99% of the total microbial consortia. At lower pH values, population of L. acidophilus, L. plantarum and L. paracasei continued to increase in fermented oat drinks. Lactic acid was produced between 1.6 and 2.8 g/L. The sensory panel showed that all fermented oat drinks had a sour odor and taste. The volatile compounds identified belonged to the ketone, alcohol, aldehyde, acids, and furan classes. The concentration of the most preferred volatile components, such as diacetyl and acetoin, increased during fermentation. However, sensory evaluation showed that all samples were associated with cereals and not dairy in terms of taste and odor. Rheological analysis showed the formation of weak gel-like structures in fermented oat drinks. Overall, fermentation improved flavor and texture of the product. This study provides a broad overview of the oat drink fermentation process from the perspectives of starter culture growth, microbial consortium dynamics, lactic acid bacteria metabolism, and sensory profile formation.
