Acid tolerance starter: Difference between revisions

Revision as of 17:19, 6 May 2020

(In progress)

An acid tolerance starter (also known as an "acid shock starter") is a special kind of starter that allows yeast to acclimate to an acidic medium. Acid-tolerant yeast is added at bottling to increase the speed and consistency of carbonation in bottle-conditioned aged sour beers. This is also as regarded as the most effective technique to reduce or eliminate the formation of the THP off flavor. If yeast added at bottling has NOT developed acid tolerance, it suffers from "acid shock", which results in poor performance.^[1]^[2]^[3]

Original methods for creating acid-tolerant yeast have involved using sour beer in a yeast starter, which has some notable disadvantages such as introducing oxygen to the beer that will be bottled. We are developing a modern method of acclimating the yeast to acid, one which does not require the use of sour beer.

Modern protocol

These instructions are for a 5 gallon (20L) batch, with a target pitch rate of approximately 2 million cells per mL (assuming 20B cells/g).

Rehydration medium materials:

500-1000mL beaker or flask
2g EC-1118 yeast
2.5g Go-Ferm (yields 334ppm YAN in 250mL)^[4]
50mL filtered water

Acidic medium materials:

200mL or larger beaker
20g dextrose or sucrose
3mL 88% lactic acid (yields 1.06% lactic acid in 250mL)
3mL 5% acetic acid (yields 0.06% acetic acid in 250mL)
Top up to 200mL with filtered water (about 181mL is needed)

Recommended equipment: Stir plate with stir bar, thermometer, digital scale, scoopulas^®, stir rods, watch glass, and syringes or pipettes.

Water bath:

A container to hold warm water and the rehydration beaker/flask.

Instructions:^[5]

Create the rehydration medium:
- Heat 50mL water in a beaker.
- Dissolve the Go-Ferm by stirring.
- Allow it to cool to 104°F (40°C).
As that is cooling, heat a larger container of water to 104°F (40°C) to act as a water bath to help hold temperature.
Sprinkle in the yeast and put the beaker in the bowl (water bath) to help maintain temperature. Do not stir.
Wait 20 minutes. During this time, create the acidic medium.
Remove the yeast from the water bath and begin atemperation with the acidic medium:
- Slowly over the course of 5 minutes add 50mL of the growth medium. Stir gently.
- Wait 10 minutes.
- Slowly add the remaining 50mL.
Cover and place on a stir plate on low speed somewhere warm for at least 12 hours. Use within 48 hours. Do not refrigerate before use.
Add the yeast to the beer halfway through racking (do not add it directly to priming sugar solution).

Rationale

One of the major hurdles to proper yeast rehydration faced by home brewers is maintaining the proper temperature on such a small scale. A water bath is an easy solution to combat excessive heat loss during the rehydration period.

The media tested by Rogers et al. (2016) did not contain acetic acid, and the concentration of lactic acid in their growth media was unknown.^[2] Our protocol corrects both of those potential flaws by using both lactic acid and acetic acid at levels above what are generally considered to be inhibitory. The inhibitory effect of these acids depends on their concentration, not solely on the pH.^[6]

Potential sources

References

↑ Blair, J. "Terminal Acidic Shock and Sour Ale Bottle Conditioning." The Rare Barrel. December 2017.
↑ ^a ^b Rogers, CM., et al. "Terminal acidic shock inhibits sour beer bottle conditioning by Saccharomyces cerevisiae." Food Microbiology, vol. 57, 2016, pp. 151-158.
↑ "Packaging - Acid Shock Starter." Milk the Funk wiki. Accessed May 2020.
↑ "Approximate YAN Contribution for the Important Yeast Nutrients." Vancouver Amateur Winemakers Association. Accessed May 2020.
↑ "Easy Steps for Optimal Yeast Rehydration." Scott Labs. Accessed May 2020.
↑ Narendranath, N., et al. "Effects of acetic acid and lactic acid on the growth of Saccharomyces cerevisiae in a minimal medium." J Ind Microbiol Biotech, vol. 26, 2001, pp. 171–177.

[1] Blair, J. "Terminal Acidic Shock and Sour Ale Bottle Conditioning." The Rare Barrel. December 2017.

[Rogers-2] Rogers, CM., et al. "Terminal acidic shock inhibits sour beer bottle conditioning by Saccharomyces cerevisiae." Food Microbiology, vol. 57, 2016, pp. 151-158.

[3] "Packaging - Acid Shock Starter." Milk the Funk wiki. Accessed May 2020.

[4] "Approximate YAN Contribution for the Important Yeast Nutrients." Vancouver Amateur Winemakers Association. Accessed May 2020.

[5] "Easy Steps for Optimal Yeast Rehydration." Scott Labs. Accessed May 2020.

[6] Narendranath, N., et al. "Effects of acetic acid and lactic acid on the growth of Saccharomyces cerevisiae in a minimal medium." J Ind Microbiol Biotech, vol. 26, 2001, pp. 171–177.

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@@ Line 43: / Line 43: @@
 One of the major hurdles to proper yeast rehydration faced by home brewers is maintaining the proper temperature on such a small scale. A water bath is an easy solution to combat excessive heat loss during the rehydration period.
-The media tested by Rogers ''et al.'' (2016) did not contain acetic acid, and the concentration of lactic acid in their growth media was unknown.<ref name="Rogers"/> Our protocol corrects both of those potential flaws by using both lactic acid and acetic acid at levels above what are generally considered to be inhibitory.
+The media tested by Rogers ''et al.'' (2016) did not contain acetic acid, and the concentration of lactic acid in their growth media was unknown.<ref name="Rogers"/> Our protocol corrects both of those potential flaws by using both lactic acid and acetic acid at levels above what are generally considered to be inhibitory. The inhibitory effect of these acids depends on their concentration, not solely on the pH.<ref>Narendranath, N., et al. [https://link.springer.com/article/10.1038/sj.jim.7000090 "Effects of acetic acid and lactic acid on the growth of Saccharomyces cerevisiae in a minimal medium."] ''J Ind Microbiol Biotech'', vol. 26, 2001, pp. 171–177.</ref>
 ==Potential sources==