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===Environment and Survival===
''Brettanomyces'' has been occasionally identified on the skins of fruit (on the skins of cider apples and wine grapes for example) <ref name="smith_divol_2016"></ref><ref name="Schifferdecker"></ref>, and is thought to disperse via insects such as bees and fruit-flies (called "vectors" in the scientific literature) <ref name="Steensels">[http://www.sciencedirect.com/science/article/pii/S0168160515001865 Brettanomyces yeasts — From spoilage organisms to valuable contributors to industrial fermentations. Jan Steensels, Luk Daenen, Philippe Malcorps, Guy Derdelinckx, Hubert Verachtert, Kevin J. Verstrepen. International Journal of Food Microbiology Volume 206, 3 August 2015, Pages 24–38.]</ref><ref>[https://www.ncbi.nlm.nih.gov/pubmed/18077036 Survival patterns of Dekkera bruxellensis in wines and inhibitory effect of sulphur dioxide. Barata A, Caldeira J, Botelheiro R, Pagliara D, Malfeito-Ferreira M, Loureiro V. 2008.]</ref><ref>[https://www.ncbi.nlm.nih.gov/pubmed/12892920 Spoilage yeasts in the wine industry. Loureiro V, Malfeito-Ferreira M. 2003.]</ref>. However, the occurrence of ''Brettanomyces'' has more commonly been identified in industrial food processing areas (wine, beer, kombucha, soft drinks, dairy products, tea, sourdough, etc.) <ref name="Crauwels_2016">[https://academic.oup.com/femsyr/article-abstract/17/1/fow105/2670560/Fermentation-assays-reveal-differences-in-sugar?redirectedFrom=fulltext Fermentation assays reveal differences in sugar and (off-) flavor metabolism across different Brettanomyces bruxellensis strains. Fermentation assays reveal differences in sugar and (off-) flavor metabolism across different Brettanomyces bruxellensis strains. Sam Crauwels, Filip Van Opstaele, Barbara Jaskula-Goiris, Jan Steensels, Christel Verreth, Lien Bosmans, Caroline Paulussen, Beatriz Herrera-Malaver, Ronnie de Jonge, Jessika De Clippeleer, Kathleen Marchal, Gorik De Samblanx, Kris A. Willems, Kevin J. Verstrepen, Guido Aerts, and Bart Lievens. 2016]</ref>. ''Brettanomyces'' is not considered to be airborne, however studies have found a very small amount of cells in the air at wineries where wine with ''Brettanomyces'' in it was being handled (most of the yeasts found in the air were ''Aureobasidium'' and ''Cryptococcus'', which aren't considered spoilage organisms in beer and wine). These set of studies also determined that very specific methodology was needed in order capture ''Brettanomyces'' from the air, and indicated that the yeast was "stressed". While it is possible for ''Brettanomyces'' to be briefly carried by gusts of air, it only happens in the vicinity where the ''Brettanomyces'' beer or wine is being bottled (more so) or is actively fermenting (less so) <ref>[http://www.sciencedirect.com/science/article/pii/S0956713513002284 Screening of yeast mycoflora in winery air samples and their risk of wine contamination. E. Ocón, P. Garijo, S. Sanz, C. Olarte, R. López, P. Santamaría, A.R. Gutiérrez. Food Control Volume 34, Issue 2, December 2013, Pages 261–267.]</ref>. While it is possible for ''Brettanomyces'' to be briefly carried by gusts of air, it only happens in the vicinity where the ''Brettanomyces'' beer or wine is being bottled (more so) or is actively fermenting (less so). Good cleaning and sanitation and cold temperatures should be employed to keep ''Brettanomyces'' from contaminating other equipment, however flying insects are also a likely potential cause for contamination of ''Brettanomyces''.
''Brettanomyces'' is commonly isolated from the surface of wood structures within breweries, wineries, and sometimes cideries. These include structures such as wooden fermentation vessels, walls of the building, as well as the inside surface of wood barrels and actually buried within the wood of barrels. ''Brettanomyces'' has been easily cultured from within the wood of oak barrels up to 4 mm into the wood, and occasionally as deep as 5 to 8 mm, depending on the age and variety (slightly higher populations tend to survive in French oak over American oak, and one study found that the ''Brettanomyces'' was able to penetrate the French oak barrels up to 8 mm, while only penetrate American oak barrels up to 4 mm) of the barrel <ref name="Agnolucci_2017" /><ref name="Cartwright_2018">[http://www.ajevonline.org/content/early/2018/05/23/ajev.2018.18024 Reduction of Brettanomyces bruxellensis Populations from Oak Barrel Staves Using Steam. Zachary M. Cartwright, Dean A. Glawe, Charles G. Edwards. 2018. DOI: 10.5344/ajev.2018.18024.]</ref>, with the highest concentration of surviving cells being at the top staves where oxygen is more accessible (although Cartwright et al. found the opposite was true, perhaps due to methodology of sampling or a difference in SO<sub>2</sub> concentrations). Some strains are able to utilize the cellulose of the wood as a carbon source, and occasionally form pseudohyphae within the wood which expands the surface area of the cells allowing them more access to nutrients and allowing them to survive in nutrient deficient environments <ref name="Cartwright_2018" />. Ozone gas has been shown to be an effective way to kill ''Brettanomyces'' that is buried in the wood of oak barrels, but the ozone must be applied for an adequate time to allow for the ozone to diffuse into the oak. Ozone has also been shown to be an effective way of greatly reducing but not completely eliminating the number of ''Brettanomyces'' on wine grapes. Liquid ozone has been shown to be less effective at eliminating ''Brettanomyces''. Heating the inside of the oak barrels to 60°C for 20 minutes with hot water or steam has also been found to be an effective way of killing ''Brettanomyces'' within the wood of barrels (see [[Barrel#Sanitizing|Barrel Sanitation]] for information on pasteurizing barrels) <ref>[https://www.ncbi.nlm.nih.gov/pubmed/25989358 Heat inactivation of wine spoilage yeast Dekkera bruxellensis by hot water treatment. Fabrizio, Vigentini, Parisi,Picozzi, Compagno, Foschino. 2015.]</ref><ref>[https://www.sciencedirect.com/science/article/pii/S1466856417310068 Control of Brettanomyces bruxellensis on wine grapes by post-harvest treatments with electrolyzed water, ozonated water and gaseous ozone. Francesco Craveroa, Vasileios Englezos, Kalliopi Rantsiou, Fabrizio Torchio, Simone Giacosa, Susana Río Segade, Vincenzo Gerbi, Luca Rolle, Luca Cocolin. 2018. DOI: https://doi.org/10.1016/j.ifset.2018.03.017.]</ref>. Although the role of ''Brettanomyces'' appears to be limited in distillation, it has been isolated during the fermentation process of tequila making. It has also been isolated from drains, pumps, transfer hoses, and other equipment that is difficult to sanitize. The survivability of ''Brettanomyces'' has also partly been attributed to its ability to form a [[Quality_Assurance#Biofilms|biofilm]] (in particular ''B. bruxellensis''). Microorganisms that can form a biofilm are more resistant to chemical cleaning agents and sanitizers than those that don't. ''Brettanomyces'' has therefore been identified as a significant contaminate for breweries and wineries. Oak barrels from wineries with unsanitary practices, in particular, have been identified as common contamination sites for ''B. bruxellensis''. ''Brettanomyces'' is also commonly found in sherry, and is found (although only rarely) in olive production, lemonade, kombucha, yogurt, pickles, and soft drinks. ''B. anomalus'' and ''B. bruxellensis'' are generally found much more commonly than the other three species of ''Brettanomyces'' <ref name="smith_divol_2016">[http://www.sciencedirect.com/science/article/pii/S0740002016302659 Brettanomyces bruxellensis, a survivalist prepared for the wine apocalypse and other beverages. Brendan D. Smith, Benoit Divol. June 2016.]</ref>.