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NEW ORLEANS, March 17, 2024 鈥� Kombucha is a fermented tea known for its health benefits and tangy kick. But brewers can find it challenging to keep kombucha鈥檚 alcohol levels low because the bacteria and yeast used in the fermentation process vary from batch to batch. Now, chemists from Shippensburg University are investigating ways to reliably minimize alcohol, tailor taste profiles and speed up the kombucha fermentation process to help home and commercial producers optimize their funky brews.
The researchers will present their results today at the spring meeting of the American Chemical 中国365bet中文官网 (ACS). ACS Spring 2024 is a hybrid meeting being held virtually and in person March 17-21; it features nearly 12,000 presentations on a range of science topics.
Watch a聽Headline Science聽YouTube Short聽about this research.
Kombucha brewing typically begins with a glass jar filled with tea, water, sucrose and a fermentation starter called a SCOBY 鈥� short for a聽s测尘产颈辞迟颈肠听c耻濒迟耻谤别听o蹿听bacteria and聽yeast. The yeast breaks down the sucrose, producing ethanol; simple sugars, glucose and fructose; and carbon dioxide. The bacteria then convert most of the ethanol and the remaining simple sugars into acetic, gluconic and lactic acids, which contribute to the flavor profile of the brew. But SCOBYs are alive and can be unpredictable. So, when the bacteria aren鈥檛 getting rid of the ethanol or developing the right acids for the flavor profile, the kombucha brewer may need a chemist to help them save future batches from the same fate.聽聽
鈥淏rewers typically see making kombucha as an art more than a science,鈥� says Jeb Kegerreis, a physical chemist and one of the team鈥檚 principal investigators. 鈥淪o, when we are doing a consultation, we also walk the brewer through the biochemistry of what鈥檚 happening during fermentation.鈥�
Kegerreis works with fellow analytical chemist and principal investigator John Richardson, who formed a consulting company within the university called Cultured Analysis to help kombucha producers and to discover new ways to optimize the brewing process. Together with undergraduate chemistry students, they鈥檝e gained interesting insights into using alternative containers and SCOBY food sources for reliably brewing non-alcoholic and better-tasting kombucha.
Investigating the use of silicone bags as an alternative to glass jars for brewing kombucha came about when a fellow brewer shared with Richardson that the silicone sous vide bags they were using fermented the tea faster and created more acid compared to glass jars. The brewer understood the quick production of acids likely meant the bacteria were getting rid of ethanol faster, but they wanted the scientists鈥� help to figure out why.
The team found that a silicone bag鈥檚 porosity, compared to a nonporous jar, exposes the SCOBY to more oxygen, which speeds up the brewing process 鈥� including ethanol breakdown and acid production 鈥� and cuts production time from about two weeks to one week. But they were surprised to see inconsistent levels of dissolved oxygen in the silicone bags compared to the glass jars. 鈥淣ext semester, we will investigate what else contributes to the silicone bag being a better brewing vessel,鈥� says Emily Swartz, one of the team鈥檚 chemistry students.
According to Richardson's kombucha-tasting expertise, tea brewed in a silicone bag is just as delicious as tea brewed in a glass jar.聽聽
Speaking of taste, the researchers noticed that they were getting more gluconic acid with silicone bag brewing compared to jars. 鈥淲e think this acid will become more popular with brewers,鈥� says Kegerreis. 鈥淕luconic acid provides acidity without the sour vinegar taste you get from acetic acid, and that may appeal to more tastebuds.鈥�
Because gluconic acid is a product of bacteria fermenting glucose, the researchers investigated how starting with glucose or fructose instead of sucrose changes the kombucha fermentation process and taste. 鈥淒uring the fermentation process, yeast in the SCOBY breaks sucrose into glucose and fructose,鈥� says chemistry undergraduate student Abbi Czarnecki. 鈥淏y using just glucose or just fructose, we looked at how removing that first step affects the whole brewing process.鈥澛�
The team found that using glucose as the SCOBY food source created a kombucha with more gluconic acid and minimal ethanol. With fructose, the researchers measured more acetic acid and more ethanol. 鈥淚f minimizing ethanol production is the measure of our success,鈥� says Ian Loscher, a chemistry undergraduate and one of the team鈥檚 poster presenters, 鈥渇ructose failed in that department. Out of all three sugars, it produced the most ethanol.鈥�
Richardson says the fructose brews tasted sweeter. 鈥淚 prefer a less sweet kombucha, but it鈥檚 not necessarily bad,鈥� he admits. What鈥檚 important to the team is sharing what they have discovered about different sugars and fermentation vessels because that information can help brewers create a kombucha that hits all the flavor notes and characteristics they want to aim for.
鈥淏rewing kombucha can still be a very creative process,鈥� says Richardson. 鈥淏ut when something goes wrong during fermentation, science can help make it right.鈥澛犅�
Watch a short Q&A video聽about this research.
The research was funded by Shippensburg University鈥檚 David A. and Anne B. Atkinson Undergraduate Research Endowment for the College of Arts and Sciences and by Shippensburg University Student Research 鈥� Undergraduate Research Grant Program.
Visit the to learn more about these presentations, 鈥淐omprehensive comparison of the dynamics of kombucha fermentation in a silicone bag and a glass jar鈥� and 鈥淚nvestigating the impact of sugar source variation on kombucha fermentation,鈥� and other scientific presentations.
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