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Brettanomyces

151 bytes added, 18:39, 31 July 2017
updating Tyrawa poster
Currently, research into how well ''Brettanomyces'' strains ferment the trisaccharide maltotriose has not been explored much by science, however, one study found that ''B. custersianus'' can ferment maltotriose. Another study found that all 7 strains of ''B. bruxellensis'' tested could ferment maltotriose, but not the trisaccharide raffinose. More investigation into this possibility is needed <ref>[http://www.asbcnet.org/events/archives/2015Meeting/proceedings/Pages/54.aspx Determination of sugar metabolism profiles of non-traditional yeasts in the Saccharomyces and Brettanomyces families. J. D. Cook, W. A. DEUTSCHMAN. ASBC Proceeding. 2015.]</ref><ref name="Crauwels1"></ref>.
Just like in other yeast species, the temperature has a direct effect on the rate of fermentation for ''Brettanomyces''. The optimal fermentation rate temperature range for ''Brettanomyces'' is between 2522-32°C (77-90°F), however one study by Tyrawa et al. found that several strains of ''B. bruxellensis'' fermented at 30°C "smelled terrible" <ref name="Tyrawa_2017" />. Fermentation rate is about half as slow at 20°C (68°F). ''Brettanomyces'' will still grow at temperatures as low as (and maybe lower than) 15°C (59°F) and will be much slower, however one study showed a slightly higher viability during the full-time period of fermentation at 15°C as opposed to the optimal growth and fermentation temperature range of 20-32°C. The growth rate at 15°C, while still slowly active, varies from strain to strain with some strains growing very poorly <ref name="Tyrawa_2017" />. At a temperature of 35°C (95°F), fermentation is greatly inhibited due to cell death. The primary byproducts of ''Brettanomyces'' fermentation, which are ethanol, acetic acid, and CO2, are produced both during growth but also during fermentation after growth has stopped. At the more optimal fermentation temperatures of 25-32°C, ethanol and acetic acid are produced faster from fermentation, but the amounts of ethanol and acetic acid produced from fermentation are not affected by temperature (i.e. higher temperatures do not produce more ethanol and acetic acid from the same amount of sugar, they are just produced faster at warmer temperatures because fermentation is faster) <ref name="Brandam_2008" />. The warmer temperature ranges that are ideal for ''Brettanomyces'' fermentation rates and growth rates may still produce unfavorable flavors such as higher alcohols, however, this has not been analyzed as far as we know <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1555689637792578/ MTF conversation with Richard Preiss of Escarpment Labs. 01/20/2017.]</ref>.
The below table is an example of the variety of sugar types that different strains/species of ''Brettanomyces'' banked at the [https://catalogue.ncyc.co.uk National Collection of Yeast Cultures] can ferment under semi-aerobic fermentation and aerobic growth (the '''semi-aerobic''' fermentation value is probably more useful for brewers since oxygen availability is limited during fermentation in normal brewing practices):

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