13,703
edits
Changes
no edit summary
Landschoot et al. (2015) attempted to recover yeasts and bacteria sampled from the brewery walls, ceilings, and coolship in an industrial brewery in West-Flanders that also produces lambic. They were unable to recover any yeasts or bacteria from these surfaces. The team did recover several species of microbes from the air of the coolship room such as ''Klebsiella oxytoca'', ''Bacillus'', and ''Staphylococcus'', but these microbes were not found in the wort after cooling in the coolship nor in the foeders during the sample times of 1, 2 and 3 weeks. ''S. cerevisiae'', ''S. pastorianus'', ''D. bruxellensis'', ''P. damnosus'', and a diverse range of acetic acid bacteria were the dominate species of microbes found during the fermentation of lambic in this brewery. After boiling, the brewery cooled its wort to 40°C using an industrial heat exchanger before pumping it into the coolship to reside overnight for 24 hours. The foeders in this brewery are cleaned with a pressure washer and are no attempt was made to pasteurize or sanitize the foeders with heat or chemicals. The inside surfaces of the foeders were sampled and these samples were the only samples that contained microbe species that were found during the fermentation of the lambic. The authors concluded that the microbes fermenting lambic at this brewery are introduced into the wort via the wooden inner surfaces of the foeders <ref name="Landschoot_2015"/>.
De Roosa et al. (2024) reported finding a very diverse set of species in wort sampled from coolships after cooling (100-200 mL samples). Using DNA sequencing techniques and in order of abundance, they found ''H. uvarum'', ''S. cerevisiae'', ''Penicillium roqueforti'', ''Acinetobacter guillouiae'', ''Lactococcus raffinolactis'', ''Geotrichum candidum'', ''Chryseobacterium bovis'', ''Flavobacterium hibernum'', ''Yarrowia lipolytica'', and ''Trichococcus flocculiformis''. However, the only species from the coolship samples that were found during fermentation in two wooden casks were ''H. uvarum'' and ''S. cerevisiae''. The authors concluded that the wooden casks themselves, despite heavy cleaning methods, contributed the majority of impactful microbe species during fermentation and aging, including ''BrettanmoycesBrettanomyces'' <ref name="Roosa_2024"/>.The authors of the study write: <blockquote>''The present study further contributed to the role of wooden barrels in the spontaneous inoculation of the fermenting wort and maturing beer during lambic beer production. Although shotgun metagenomics revealed that the cooled wort had the highest diversity and evenness, its harboring species did not contribute to the wort fermentation and beer maturation in the casks.'' <ref name="Roosa_2024"/></blockquote>
Various brewer anecdotes from experiments appear to contradict the published scientific literature. James Howat of Black Project Spontaneous Ales reported conducting an experiment that showed a similar fermentation profile between a barrel fermented spontaneous beer and samples taken from the coolship and aged in glass flasks <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1977772602250944/?comment_id=1977929225568615&reply_comment_id=1978520655509472&comment_tracking=%7B%22tn%22%3A%22R%22%7D James Howat. Milk The Funk thread on the source of ''Brettanomyces'' in lambic. 02/05/2018.]</ref>. The spontaneous beers at Black Project were produced for a few years by placing a kettle on the roof outside of the brewery to collect microbes from the air and then racked directly to barrels, so there was no influence of microbes living within the brewery (Black Project now uses a coolship inside the brewery). This led James to conduct this experiment to see how much the barrels were influencing the microbiome of the beers even after they were steamed to the [[Barrel#Sanitizing|point of possible pasteurization]]. James reported that the sensory characteristics between the barrel aged beers and the flask-aged beers were very similar, other than the obvious differences that the oak would have provided, which led him to believe that air inoculation provides a significant contribution to the microbial load of spontaneously fermented beers. Additionally, Brasserie-Brouwerij Cantillon (ref needed) and Oud Beersel <ref>[https://soundcloud.com/craftbeerbrew/podcast-episode-21-new-belgiums-wood-cellar-director-blender-lauren-limbach Lauren Limbach. Craft Beer and Brewing Magazine Podcast. Episode 21. 02/16/2018.]</ref> (~42 minutes in) are known to steam clean their barrels which might be enough to [[Barrel#Sanitizing|sanitize them]], although former Cantillon brewer and saison expert Yvan De Beats maintains that Cantillon barrels are not heated enough to be pasteurized <ref>[https://www.crowdcast.io/e/saison-ale-myths-yvan-baets/1 De Beats, Ybsn. Doug pipers Crowdcast. 08/26/2021.]</ref>. Pierre Tilquin reported that different worts brewed and cooled by different lambic brewers present different fermentation and flavor profiles when barrel fermented in his blendery, particularly when he began steam cleaning emptied barrels <ref>[https://beerandbrewing.com/podcast-episode-234-pierre-tilquin-of-gueuzerie-tilquin-makes-lambic-and/ Pierre Tilquin. Interview on Craft Beer & Brewing Podcast. Episode 234. 04/15/2022.]</ref>(~15 and ~27 mins in). Mitch Ermatinger of Speciation Artisan Ales reported moving wort cooled overnight in a coolship to a stainless fermenter, and the wort began showing signs of visual fermentation four days later <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/3012223975472463/?comment_id=3012239425470918&reply_comment_id=3012428892118638 Mitch Ermatinger. Milk The Funk Facebook thread on sources for microbes in spontaneous fermentation. 10/28/2019.]</ref>. Such anecdotes deserve further investigation using the full scientific process.