User:AMMOORE2000/sandbox

Chemical composition[edit][edit]
Kombucha is made by adding the kombucha culture into a broth of sugared tea. The sugar serves as a nutrient for the SCOBY that allows for bacterial growth in the tea. Sucrose is converted, biochemically, into fructose and glucose, and these into gluconic acid and acetic acid. In addition, kombucha contains enzymes and amino acids, polyphenols, and various other organic acids which vary between preparations. Other specific components include ethanol (see below), glucuronic acid, glycerol, lactic acid, usnic acid (a hepatotoxin, see above), and B-vitamins. Kombucha has also been found to contain vitamin C.

The alcohol content of kombucha is usually less than 0.5%, but increases with extended fermentation times. The concentration of alcohol specifically ethanol increases initially but then begins to decrease when acetic acid bacteria utilize it to produce acetic acid. Over-fermentation generates high amounts of acids similar to vinegar. The pH of the drink is typically about 3.5.

Biological[edit][edit]
A kombucha culture is a symbiotic culture of bacteria and yeast (SCOBY), similar to mother of vinegar, containing one or more species each of bacteria and yeasts, which form a zoogleal mat known as a "mother". There is a broad spectrum of yeast species spanning several genera reported to be present in kombucha culture including species of Zygosaccharomyces, Candida, Kloeckera/Hanseniaspora, Torulaspora, Pichia, Brettanomyces/Dekkera, Saccharomyces, Lachancea, Saccharomycoides, Schizosaccharomyces, and Kluyveromyces, Starmera, Eremothecium, Merimbla, Sugiyamaella.

The bacterial component of kombucha comprises several species, almost always including the acetic acid bacteria Komagataeibacter xylinus (formerly Gluconacetobacter xylinus), which ferments alcohols produced by the yeasts into acetic and other acids, increasing the acidity and limiting ethanol content.[citation needed] The population of bacteria and yeasts found to produce acetic acid has been reported to increase for the first 4 days of fermentation, decreasing thereafter. K. xylinus produces bacterial cellulose, and is reportedly responsible for most or all of the physical structure of the "mother", which may have been selectively encouraged over time for firmer (denser) and more robust cultures by brewers.[non-primary source needed] The highest diversity of Kombucha bacteria was found to be on the 7th day of fermentation with the diversity being less in the SCOBY. Acetobacteraceae dominate 88 percent of the bacterial community of the SCOBY. The acetic acid bacteria in kombucha are aerobic, meaning that they require oxygen for their growth and activity. Hence, the bacteria initially migrate and assemble at the air interface, followed by excretion of bacterial cellulose after about 2 days.

The mixed, presumably symbiotic culture has been further described as being lichenous, in accord with the reported presence of the known lichenous natural product usnic acid, though as of 2015, no report appears indicating the standard cyanobacterial species of lichens in association with kombucha fungal components.This article starts off strongly and draws you into the topic of kombucha by providing a general overview. It provides a concise introduction section on the sections further focused on, however, it may possibly dive too deep into SCOBY Bacteria. All content in this article is relevant to the articles topic, However the section focusing on the biology of Kombucha could have used a little more information, however it provides a solid foundation. The creators of this article used a very neutral tone and did well keeping any bias about kombucha out of the article by showing benefits and downsides of drinking it. The sources that were used are relevant to the article and varied on topic. However, some updated sources should be added to help support newer findings on this subject, and one section appeared to be missing a citation. Overall the flow of this article was good and clearly broken into separate topics making it easier to read. The sections that could use more updated information are the section on Biology, Chemistry, and Health Benefits of Kombucha.