Difference between revisions of "Brettanomyces and Saccharomyces Co-fermentation"

From Milk The Funk Wiki
Jump to: navigation, search
Line 10: Line 10:
 
| Inoculation timing || After Saccharomyces has finished fermentation  || At the start of Fermentation || See figure 1
 
| Inoculation timing || After Saccharomyces has finished fermentation  || At the start of Fermentation || See figure 1
 
|-
 
|-
| Brettanomyces Inoculation cell count  || Lower cell count  || Higher cell count|| Significantly interacts with the timing of inoculation
+
| Brettanomyces Inoculation cell count  || Lower cell count or higher cell count  || Higher cell count or lower cell count|| Pitching rate of ''Brettanomyces'' in secondary appears to have no measured impact on beer flavor.  See [[Brettanomyces secondary fermentation experiment]].
 
|-
 
|-
 
| Strain of Saccharomyces  || Phenol positive strain || Phenol negative strain || Pof+ strains of S. cerevisiae form 4-vinylguaiacol by enzymatic decarboxylation of ferulic acid <ref> Coghe, S., Benoot, K., Delvaux, F., Vanderhaegen, B., & Delvaux, F. R. (2004). Ferulic acid release and 4-vinylguaiacol formation during brewing and fermentation: indications for feruloyl esterase activity in Saccharomyces cerevisiae. Journal of Agricultural and Food Chemistry, 52(3), 602-608.</ref>  
 
| Strain of Saccharomyces  || Phenol positive strain || Phenol negative strain || Pof+ strains of S. cerevisiae form 4-vinylguaiacol by enzymatic decarboxylation of ferulic acid <ref> Coghe, S., Benoot, K., Delvaux, F., Vanderhaegen, B., & Delvaux, F. R. (2004). Ferulic acid release and 4-vinylguaiacol formation during brewing and fermentation: indications for feruloyl esterase activity in Saccharomyces cerevisiae. Journal of Agricultural and Food Chemistry, 52(3), 602-608.</ref>  

Revision as of 23:53, 20 October 2016

Funky mixed fermentations, for the purposes of this article, refer to fermentations that contain Saccharomyces and Brettanomyces. They do not contain lactic acid bacteria such as Lactobacillus and Pediococcus. As such, these beers may have a lightly tart flavor, but are not described as being sour (see the Mixed Fermentation page). The flavor of funky beers is often dominated by the array of flavor compounds produced by Brettanomyces (see Brettanomyces metabolism). Generically speaking, these flavors range from tropical fruits, stone fruits, smoke, barnyard animal funk, bitterness that lingers on the palate longer than hop bitterness and is accompanied by undertones of fruit, horse blanket, sweat, body odor, etc.

Brewing Methods

Conceptual graph of dynamics of funk expression and inoculation timing of Brettanomyces. Y-axis for each microbe group depicts relative activity which combines in a conceptual sense: growth, attenuation and production of flavor compounds. Plot drawn by Drew Wham based on concepts discussed in American Sour Beer [1]
Technique More Funk Less Funk Note
Inoculation timing After Saccharomyces has finished fermentation At the start of Fermentation See figure 1
Brettanomyces Inoculation cell count Lower cell count or higher cell count Higher cell count or lower cell count Pitching rate of Brettanomyces in secondary appears to have no measured impact on beer flavor. See Brettanomyces secondary fermentation experiment.
Strain of Saccharomyces Phenol positive strain Phenol negative strain Pof+ strains of S. cerevisiae form 4-vinylguaiacol by enzymatic decarboxylation of ferulic acid [2]
Ferulic Acid More Ferulic Acid Less Ferulic Acid A precursor of 4-vinylguaiacol
Time since Inoculation Aged Beer Young Beer

Finishing Funky Mixed Fermentations

Bottling and Kegging

See the Packaging page.

Dosing Clean Beer with Brettanomyces At Bottling

One method that some brewers attempt is adding a small pitch of Brettanomyces to a clean beer at bottling time. This can be done either in the bottling bucket/tank, or added to each bottle individually. If adding Brettanomyces to each bottle individually, a 1 mL dosage of Brettanomyces from a starter should be enough since pitching rate seems to have little impact on the beer [3]. Some brewers believe that adding the Brettanomyces at bottling time results in a more complex beer. It is speculated that the extra stress of adding Brettanomyces to bottles helps to create this complexity.

One challenge with this approach is that it is difficult to predict how much Brettanomyces will further attenuate the beer once in the bottle. Over-carbonation and bottle bombs can easily be an issue with this method if the brewer is not careful. Each degree Plato adds ~2 volumes of CO2 [4]. Daniel Addey-Jibb, co-owner and brewer at Le Castor near Montreal, Quebec advises that the approach that his brewery takes is to ferment their saison wort down to 1°P. Once at 1°P , the beer is cold crashed, fined, and then bottled with Brettanomyces. The beer is then stored at room temperature for three months to condition naturally in the bottle. During bottling conditioning, their Brettanomyces culture takes the beer down below 0°P, and their desired level of carbonation is reached. This process took Addey-Jibb's team dozens of trials to perfect using their specific wort recipe, saison yeast, and Brettanomyces strain. Different species or strains of Brettanomyces might ferment differently, and different wort compositions might also ferment differently. For example, Addey-Jibb's saison is mashed with malted barley, wheat, and rye at a low temperature so there are not many higher chain sugars, allowing the beer to dry out quickly [5]. Other wort compositions that include higher chain sugars from specialty malts and/or higher mashing temperatures might ferment much slower, and thus knowing what the final gravity will be once Brettanomyces is added is difficult to know without running trials on that specific fermentation profile.

See Also

Additional Articles on MTF Wiki

External Resources

References

  1. Tonsmeire, M. (2014). American Sour Beers. Brewers Publications
  2. Coghe, S., Benoot, K., Delvaux, F., Vanderhaegen, B., & Delvaux, F. R. (2004). Ferulic acid release and 4-vinylguaiacol formation during brewing and fermentation: indications for feruloyl esterase activity in Saccharomyces cerevisiae. Journal of Agricultural and Food Chemistry, 52(3), 602-608.
  3. Brettanomyces_secondary_fermentation_experiment
  4. "Accurately Calculating Sugar Additions for Carbonation." Kai Troester. Braukaiser.com. Retrieved 08/07/2016.
  5. Addey-Jibb, Daniel. Interview on the Brewing Network's Session podcast. 10/04/2016.