Kombucha Tea

The Recorded History of Kombucha began in Ukraine and Russia during the late 19th century. In Russian, the kombucha culture is called chayniy grib чайный гриб (lit. "tea mushroom"), and the drink itself is called grib гриб ("mushroom"), "tea kvass" квас, or simply kvass, which differs from regular kvass traditionally made from water and stale rye bread. In Chinese, kombucha is called hongchajun (lit. "black tea fungus/mushroom"), hongchagu ("black tea mushroom"), or chameijun ("tea mold"). In Japanese, the kombucha drink is known as "kōcha kinoko" (lit. "black tea mushroom"). Both the Chinese and Japanese names use hongcha or kōcha "black tea" rather than cha tea or lü cha "green tea". Japanese kombu "a Laminaria kelp; sea tangle" is dried and powdered to produce a beverage called kombucha (lit. "kelp tea"). The English kombucha fermented tea name is pronounced like, and confused with, the Japanese kombucha seaweed tea name.
Some kombucha sources propagate that the history of this tea-based beverage originated in ancient China or Japan, but in both cases centuries prior to knowledge of tea (see history of tea in China and history of tea in Japan). One author claims kombucha, famously known as the "Godly Tsche [i.e., tea]" during the Chinese Qin Dynasty (221-206 BCE), was "a beverage with magical powers enabling people to live forever". There are no recorded references to either tea or "godly tea" during the Qin dynasty.
Another author claims an etymology from "a Korean doctor named Kombu treated the Japanese Emperor Ingyō in 415 A.D." The early Japanese history Kojiki does mention an envoy from the ancient Korean state Silla who was "deeply versed in the medical art" and cured the Emperor's sickness – but his name was, which is pronounced Korean Kim/Gim Mu or Japanese Kin/Kon Mu. Analysis of Kombucha Ferments by Michael Roussin. discovered that the active component in kombucha is most likely glucaric acid. This compound, also known as D - glucaro -1,4 lactone, helps in the elimination of glucuronic acid conjugates that are produced by the liver. When glucuronic acid conjugates are disposed in the bowel during the elimination process, normal gut bacteria can break up these conjugates using an enzyme called beta-glucuronidase. Glucaric acid is an inhibitor of this bacterial enzyme, so the end result is that the glucuronic acid + waste is properly eliminated the first time, rather than being reabsorbed and detoxified over and over. Thus, glucaric acid probably makes the liver more efficient. Interestingly, glucaric acid is commonly found in fruits and vegetables, and is being explored independently as a cancer preventive agent. It has also been discovered that the bacterial beta-glucuronidase enzyme can interfere with proper disposal of a chemotherapeutic agent, and that antibiotics against the gut microbiota can prevent toxicity of some chemotherapy drugs.
Safety & Contamination: As with all foods, care must be taken during preparation and storage to prevent contamination. Keeping the kombucha brew safe and contamination-free is a concern to many home brewers. Key components of food safety when brewing kombucha include a clean environment, proper temperature, and low pH. In every step of the preparation process, it is important that hands and utensils (anything that is going to come into contact with the culture) be dish soap clean so as not to contaminate the kombucha. Kombucha becomes very acidic (in the neighborhood of pH 3.0 when finished) and so can leach unwanted and potentially toxic material from the container in which it is fermenting. Food-grade glass is very safe. Gunther Frank says on his website that besides glass, acceptable containers include china, glazed (without lead) earthenware, stainless steel and food-grade high density polyethylene (HDPE) and polypropylene (PP). Keeping cultures covered and in a clean environment also reduces the risk of introducing contaminants and insects. Maintaining a correct pH is an important factor in a home-brew. Acidic conditions are favorable for the growth of the kombucha culture, and inhibit the growth of molds and bacteria. The pH of the kombucha batch should be between 2.5 and 4.6. A pH of less than 2.5 makes the drink too acidic for normal human consumption, while a pH greater than 4.6 increases the risk of contamination. Use of fresh "starter tea" and/or distilled vinegar can be used to control pH. Some brewers test the pH at the beginning and the end of the brewing cycle to ensure that the correct pH is achieved and that the brewing cycle is complete.