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Lactobacillus

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[[File:Omega-lacto-microscope.jpg|thumb|Omega Yeast Labs OYL-605 Lactobacillus Blend; photo by [https://www.facebook.com/groups/MilkTheFunk/permalink/1096077917087088/ Stephen Little].]]
<div style="background-color: #fff0f0; border: 1px solid black; padding: 1ex; margin: 1ex; margin-right: 24em; min-width: 20em;">The genus of ''Lactobacillus'' has recently been broken up into 25 different genera. Portions of this wiki may still refer to the old nomenclature until we can make all the updates. For the purposes of this wiki, all new genera that were once considered to be ''Lactobacillus'' will remain on this wiki page for the foreseeable future. Abbreviations will remain the same; for example ''Lactiplantibacillus plantarum'', previously ''Lactobacillus plantarum'', is still abbreviated as ''L. plantarum''. Also note that yeast labs and probiotics manufacturers may not update their product brands to reflect the new scientific nomenclature. See [[Lactobacillus#Recent_Taxonomy_Changes|''Lactobacillus'' Recent Taxonomy Changes]] for more information. </div> '''''Lactobacillus''''' (often referred to by brewers as "Lacto") is a genus of Gram-positive, rod-shaped lactic acid bacteria (LAB) which produces acidity and sour flavors in the form of lactic acid and [[Lactobacillus#Sugar_Utilization_and_Secondary_Metabolites|secondary metabolites]] found in lambics, Berliner Weiss, sour brown ales, and gueuze. All ''Lactobacillus'' species are facultative anaerobes, which means they grow anaerobically but can also grow in the presence of oxygen and use oxygen to some degree <ref name="todar_lactics4"></ref>. They [https://www.researchgate.net/post/How_to_prepare_spore_forming_media_for_lactobacillus do not form spores]. There are more than 100 species, many of which are found in the human gastrointestinal track <ref name="todar_lactics4">[http://textbookofbacteriology.net/lactics_4.html ''Lactic Acid Bacteria''. Todar's Online Texbook of Bacteriology. Kenneth Todar, PhD. Pg. 4. Retrieved 07/28/2015.]</ref><ref name="Todar_nutgro4">[http://textbookofbacteriology.net/nutgro_4.html ''Nutrition and Growth of Bacteria''. Todar's Online Texbook of Bacteriology. Kenneth Todar, PhD. Retrieved 07/28/2015.]</ref>. In addition to beer, some species of ''Lactobacillus'' are also used to ferment yogurt, cheese, sauerkraut, pickles, wine, cider, kimchi, cocoa, and kefir <ref>[https://en.wikipedia.org/wiki/Lactobacillus ''Lactobacillus''. Wikipedia. Retrieved 07/28/2015.]</ref>. It might be possible for ''[[Lactobacillus]]'' can to form a [[Pellicle|pellicle]] (need according to Dr. Matt Humbard; see referenceand [https://www.facebook.com/groups/MilkTheFunk/posts/8967638479930953/?comment_id=8967994039895397 this opinion piece by Dr. Bryan Heit on MTF on why it is difficult to find any scientific sources for pellicles]); however, this has not been scientifically proven as far as we know <ref name="matt">[http://phdinbeer.com/2015/01/30/beer-microbiology-what-is-a-pellicle/ Beer Microbiology – What is a pellicle? A PhD in Beer blog. Dr. Matt Humbard. 01/30/2015. Retrieved 04/26/2015.]</ref>. See ''[[Pediococcus]]'', ''[[Brettanomyces]]'', ''[[Saccharomyces]]'', [[Mixed Cultures]], [[Kveik#Commercial_Availability|Kveik]], and [[Nonconventional Yeasts and Bacteria]] charts for other commercially available cultures. See the [[Wort Souring]] and [[Mixed Fermentation]] pages for brewing techniques with ''Lactobacillus''. See the [[Alternative Bacteria Sources]] section for culturing ''Lactobacillus'' from grains, yogurt, probiotics, and other sources.
==Introduction of Characteristics and Taxonomy==
The genus ''Lactobacillus'' contains a large number of relatively diverse species, and is the largest genus of the lactic acid bacteria group with over 50 species <ref>[https://web.archive.org/web/20070202132806/http://www.bacterio.cict.fr/l/lactobacillus.html List of Prokaryotic Names with Standing in Nomenclature - Genus Lactobacillus. J.P. Euzéby. Archive.org Wayback Machine; Feb 02, 2007.]</ref>, many of which have been identified as playing an important role in food fermentation or as probiotic species found in the human gut. The species ''Lactobacillus delbruekii'' consists of three subspecies: subsp. ''delbrueckii'', subsp. ''lactis'' and subsp. ''bulgaricus'', and have been used in yogurt fermentation. ''L. plantarum'' has one of the largest genomes among LAB. ''L. sanfranciscensis'' is the predominant LAB in sourdough cultures. ''Lactobacillus paracasei'' subsp. ''paracasei'', ''L. plantarum'', ''L. curvatus'', ''L. rahmosus'', and ''L. casei'' are often found in cheese maturation. ''L. johnsonii'' and ''L. reuteri'' strains have mostly been found in human and animal feces, suggesting that they are natural intestinal flora and are probiotic. Other species that have been used as probiotics include ''L. fermentum'', ''L. plantarum'', ''L acidophilis'' (the latter is also used in yogurt fermentation). ''Lactobacillus sakei'' subsp. ''sakei'' is used in the fermentation of sake <ref name="Bintsis_2018" />. Many of the previously mentioned species are purchased from yeast labs and used intentionally by brewers making sour beer (see [[Lactobacillus#Culture_Charts|Culture Charts]] below). ''L. acetotolerans'' has recently been claimed to also be found in many mixed fermentation sour beers, specifically in spontaneously fermented sour beers <ref>[https://www.sciencedirect.com/science/article/pii/S0740002020302471? Alexander Tyakht, Anna Kopeliovich, Natalia Klimenko, Daria Efimova, Nikita Dovidchenko, Vera Odintsova, Mikhail Kleimenov, Stepan Toshchakov, Alexandra Popova, Maria Khomyakova, Alexander Merkel. Characteristics of bacterial and yeast microbiomes in spontaneous and mixed-fermentation beer and cider, Food Microbiology. Volume 94, 2021, 103658.ISSN 0740-0020. https://doi.org/10.1016/j.fm.2020.103658.]</ref><ref>[https://www.biorxiv.org/content/10.1101/2021.07.21.453094v1 Mixed culture metagenomics of the microbes making sour beer. Renan Eugênio Araujo Piraine, Fábio Pereira Leivas Leite, Matthew L. Bochman. bioRxiv 2021.07.21.453094; doi: https://doi.org/10.1101/2021.07.21.453094.]</ref> (see also [https://www.facebook.com/groups/592560317438853/search/?q=acetotolerans MTF threads]).
===Recent Taxonomy Changes===Recently, whole genome sequencing led to the genetically driven proposal to divide the genus of ''Lactobacillus'' into either 2 subdivisions, or more radically into 10-14 subdivisions by one study <ref>[https://aem.asm.org/content/84/17/e00993-18 Comparative Genomics of the Genus Lactobacillus Reveals Robust Phylogroups That Provide the Basis for Reclassification. Elisa Salvetti, Hugh M. B. Harris, Giovanna E. Felis, Paul W. O'Toole. 2018. DOI: 10.1128/AEM.00993-18.]</ref><ref>[https://aem.asm.org/content/85/3/e02155-18 Towards a Genome-Based Reclassification of the Genus Lactobacillus. Stijn Wittouck, Sander Wuyts, Sarah Lebeer. 2019. DOI: 10.1128/AEM.02155-18.]</ref> and 23 divisions by another study accepted for publication by the International Journal of Systematic and Evolutionary Microbiology which tends to carry more authority in microbiological circles <refname="Zheng_2020">[https://www.microbiologyresearch.org/content/journal/ijsem/10.1099/ijsem.0.004107 A taxonomic note on the genus Lactobacillus: Description of 23 novel genera, emended description of the genus Lactobacillus Beijerinck 1901, and union of Lactobacillaceae and Leuconostocaceae. Jinshui Zheng et al. 2020. DOI: https://doi.org/10.1099/ijsem.0.004107.]</ref>. With the emergence of whole genome sequencing, other changes have been proposed, such as merging and splitting species of ''Lactobacillus'' <ref>[https://www.biorxiv.org/content/biorxiv/early/2019/01/31/537084.full.pdf A genome-based species taxonomy of the Lactobacillus Genus Complex. Stijn Wittouck, Sander Wuyts, Conor J Meehan, Vera van Noort, Sarah Lebeer. 2019. DOI: http://dx.doi.org/10.1101/537084.]</ref>. Renaming 200+ lactobacilli into new categories and names could also have a significant impact on the industries that use these microbes. The scale of this change has been discussed and considerations given for such industries, while the new classifications should be robust enough to withstand future scientific discoveries and should be based on genetic patterns <ref>[https://www.sciencedirect.com/science/article/pii/S0924224419303164 The potential impact of the Lactobacillus name change: the results of an expert meeting organised by the Lactic Acid Bacteria Industrial Platform (LABIP). Bruno Pot, Elisa Salvetti, Paola Mattarelli, Giovanna E. Felis. 2019. DOI: https://doi.org/10.1016/j.tifs.2019.07.006.]</ref>. Several species mergers and splits have also been identified <ref>[https://search.proquest.com/docview/2299499440?pq-origsite=gscholar A Genome-Based Species Taxonomy of the Lactobacillus Genus Complex. Wittouck Stijn; Wuyts Sander; Meehan, Conor J; van Noort Vera; Lebeer, Sarah. 2019. DOI:10.1128/mSystems.00264-19.]</ref>.  The outcome of these analyses has been to update the genus of ''Lactobacillus'' into 25 distinct genera, including 23 new genera. They now include: ''Lactobacillus'', ''Paralactobacillus'', ''Acetilactobacillus'', ''Agrilactobacillus'', ''Amylolactobacillus'', ''Apilactobacillus'', ''Bombilactobacillus'', ''Companilactobacillus'', ''Dellaglioa'', ''Fructilactobacillus'', ''Furfurilactobacillus'', ''Holzapfelia'', ''Lacticaseibacillus'', ''Lactiplantibacillus'', ''Lapidilactobacillus'', ''Latilactobacillus'', ''Lentilactobacillus'', ''Levilactobacillus'', ''Ligilactobacillus'', ''Limosilactobacillus'', ''Liquorilactobacillus'', ''Loigolactobacilus'', ''Paucilactobacillus'', ''Schleiferilactobacillus'', and ''Secundilactobacillus''. This [http://lactotax.embl.de/wuyts/lactotax/ Taxonomy Tool] can be used to check which species have changed. it is important to note that species names did not change, only the genus names changed for most species <ref name="Zheng_2020" />. The International Scientific Association for Probiotics and Prebiotics has also [https://isappscience.org/new-names-for-important-probiotic-lactobacillus-species adopted this new nomenclature].  Examples of changes made to typical brewing strains:{| class="wikitable sortable"|-! style=width:30em | Previous Name ! style=width:30em | New Name <ref name="Zheng_2020" />|-| ''Lactobacillus casei'' || ''Lacticaseibacillus casei''|-| ''Lactobacillus paracasei'' || ''Lacticaseibacillus paracasei''|-| ''Lactobacillus rhamnosus'' || ''Lacticaseibacillus rhamnosus''|-| ''Lactobacillus plantarum'' || ''Lactiplantibacillus plantarum''|-| ''Lactobacillus brevis'' || ''Levilactobacillus brevis''|- | ''Lactobacillus fermentum'' || ''Limosilactobacillus fermentum''|-| ''Lactobacillus reuteri'' || ''Limosilactobacillus reuteri''|-| ''Lactobacillus acetotolerans'' || Unchanged|-| ''Lactobacillus acidophilus'' || Unchanged|-| ''Lactobacillus delbrueckii'' || Unchanged|-| ''Lactobacillus helveticus'' || Unchanged|-|}
For more information on the taxonomic changes to the ''Lactobacillus'' genus, see:
* [https://www.facebook.com/groups/MilkTheFunk/permalink/3542631249098397/ Post in MTF about splitting the genus into 23 new groups.]
* [http://lactobacillus.ualberta.ca Proposed name Name changes potentially supported by the International Journal of Systematic and Evolutionary Microbiology] and [https://isappscience.org/new-names-for-important-probiotic-lactobacillus-species/ this science news article].
For more information on the metabolism of lactobacilli, see [[Lactobacillus#Metabolism|Metabolism]].
{| class="wikitable sortable"
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! Lab Name !! Product Name !! Taxonomy !! CO2 Producer (HetHetero/HomHomo) !! Starter Note !! Fermentation/Other Notes|-| [[Bootleg Biology]]/[[Spot Yeast]] || Sour Weapon L || ''Lactiplantibacillus plantarum'' (blended strains) || Facultatively heterofermentative || || Drops the pH of wort quickly. At 98F, trial batches dropped the pH of wort to 3.0 after just 24 hours. When pitched at 84F, pH should reach 3.5 in 24 hours. Ideal to use for acidifying wort for quick/kettle sours, and is also very effective when co-pitched with a yeast strain. As with any Lactobacillus culture, we do not recommend using in worts with <s>10 or more IBUs</s> any hops (this is the up to date recommendation from Jeff Mello of Bootleg Biology; any amount of hops will inhibit ''L. plantarum'' in general) <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/2800217156673147/?comment_id=2800400083321521&reply_comment_id=2804474432914086&comment_tracking=%7B%22tn%22%3A%22R%22%7D Jeff Mello. Milk The Funk Facebook thread on the lack of IBU tolerance of ''L. plantarum'' and Sour Weapon L. 07/23/2019.]</ref> as that will prevent significant souring. Isolated from traditional Norwegian Kveik <ref>[http://bootlegbiology.com/2017/06/27/new-culture-pre-sale-july-5-featuring-mtf-mega-blend-sour-weapon-l/ "New Culture Pre-Sale July 5: Featuring MTF Mega Blend & Sour Weapon L!" Bootleg Biology website. 06/27/2017. Retrieved 06/05/2017.]</ref>.|-| [[Brewing Science Institute]] || L. brevis || ''Levilactobacillus brevis'' || Heterofermentative || || Shipped during log phase, so recommended to use within 2 to 3 days of receiving. Unlike yeast, BSI sells bacteria by volume, and will sell a specific volume for the number of BBL's the brewer is souring. Store at room temperature, not cold. Optimal temperature for fermentation is 102-105°F. Bacteria is half the price of yeast. Commercial pitches only; not listed on their catalog, but is carried in stock. BSI does not have IBU tolerance data, but there has been at least one report of it being tolerant of up to 20 IBU <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/2147198278641708/?comment_id=2147921045236098&reply_comment_id=2148812765146926&comment_tracking=%7B%22tn%22%3A%22R%22%7D John Rowley, Andrew Deming, and Dan Ramos. Milk The Funk Facebook group thread on BSI brevis. 06/26/2018.]</ref>.
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| [[Bootleg BiologyBrewing Science Institute]] || Sour Weapon L . delbrueckii || ''Lactobacillus plantarumdelbrueckii'' (blended strains) || Facultatively heterofermentative Homofermentative || || Drops the pH of wort quickly. At 98F, trial batches dropped the pH of wort to 3.0 after just 24 hours. When pitched at 84F, pH should reach 3.5 in 24 hours. Ideal to use for acidifying wort for quick/kettle sours, and is also very effective when co-pitched with a yeast strain. As with any A Lactobacillus culture, we do not recommend using in worts with <s>10 or more IBUs</s> any hops (this is the up to date recommendation from Jeff Mello of Bootleg Biology; any amount of hops will inhibit ''L. plantarum'' in general) <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/2800217156673147/?comment_id=2800400083321521&reply_comment_id=2804474432914086&comment_tracking=%7B%22tn%22%3A%22R%22%7D Jeff Mello. Milk The Funk Facebook thread on the lack of IBU tolerance of ''L. plantarum'' and Sour Weapon L. 07/23/2019.]</ref> as bacteria that will prevent significant souring. Isolated from traditional Norwegian Kveik <ref>[http://bootlegbiology.com/2017/06/27/new-culture-pre-sale-july-5-featuring-mtf-mega-blend-sour-weapon-l/ "New Culture Pre-Sale July 5: Featuring MTF Mega Blend & Sour Weapon L!" Bootleg Biology website. 06/27/2017produces a clean lactic sourness. Retrieved 06/05/2017.]</ref>.
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| [[Brewing Science Institute]] Chr. Hansen || Harvest LB-1 || ''L. brevisLactiplantibacillus plantarum'' || Lactobacillus brevis || Faculatative Heterofermentative || The culture is ready for inoculation directly in all beverage bases without previous reactivation (freeze dried) || Shipped during log phaseHarvest LB-1 is a freeze dried concentrated pure culture of ''L. plantarum''. The culture has been selected to ensure a fast and safe acidification of cereal bases, so recommended vegetable juices and other sugar beverage bases. Can acidify wort to use within pH 3.2 and should allow brewers to decrease pH from 5.5 to 3 days .5 in ~ 16 hours. Temp range of receiving70 – 100 ⁰F. Tolerates 8 IBU. Unlike yeast, BSI sells bacteria by volume, and will sell a specific volume for the number of BBL's the brewer is souringCommercial only sizes available through [https://www.gusmerenterprises.com/catalog/brewing/brewing-processing-aids/sour-beer/harvest-lb-1/ Gusmer Brewing]. Store at room temperature, not cold<ref>[https://www.gusmerbeer.com/wp-content/uploads/sites/8/2019/04/PI_GLOB_HarvestLB-1_718316_EN. Optimal temperature for fermentation is 102pdf "Harvest LB-105°F1". Bacteria is half the price of yeastChr. Hansen. Commercial pitches only; not listed on their catalog, but is carried in stockRetrieved 12/19/2019. BSI does not have IBU tolerance data, but there has been at least one report of it being tolerant of up to 20 IBU ]</ref><ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/21471982786417083140287979332728/?comment_id=21479210452360983140612629300263&reply_comment_id=2148812765146926&comment_tracking=%7B%22tn%22%3A%22R%22%7D John Rowley, Andrew Deming, and Dan Ramos3140685999292926 Chris Webster. Sales at Gusmer. Milk The Funk Facebook group thread on BSI brevisChr Hanson L. plantarum. 0612/2619/20182019.]</ref>.
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| [[Brewing Science InstituteCommunity Cultures Yeast Lab]] || Lactobacillus brevis || ''L. delbrueckiiLevilactobacillus brevis'' || Lactobacillus delbrueckii || Homofermentative Heterofermentative || || A Lactobacillus bacteria that For traditional and kettle souring methods, produces a clean high lactic sournessacid. Suggested for use in wort under 5-10 IBUs. Fermentation Temperature: 75-105F.
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| Chr. Hansen [[Community Cultures Yeast Lab]] || Harvest LB-1 Lactobacillus Plantarum || ''L. Lactiplantibacillus plantarum'' || Faculatative Heterofermentative Facultatively heterofermentative || The culture is ready for inoculation directly in all beverage bases without previous reactivation (freeze dried) || Harvest LB-1 is a freeze dried concentrated pure culture Produces high levels of ''Lactobacillus plantarum''. The culture has been selected to ensure a fast lactic acid for kettle souring and safe acidification of cereal bases, vegetable juices and other sugar beverage basessour mash beers. Can acidify Suggested for use in wort to pH 3.under 1-2 and should allow brewers to decrease pH from 5IBUs.5 to 3.5 in ~ 16 hours. Temp range of 70 – 100 ⁰F. Tolerates 8 IBU. Commercial only sizes available through [https://www.gusmerenterprises.com/catalog/brewing/brewing-processing-aids/sour-beer/harvest-lb-1/ Gusmer Brewing]. <ref>[httpsFermentation Temperature://www.gusmerbeer.com/wp-content/uploads/sites/8/2019/04/PI_GLOB_HarvestLB90-1_718316_EN100F.pdf "Harvest LB-1". Chr. Hansen. Retrieved 12/19/2019.]</ref><ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/3140287979332728/?comment_id=3140612629300263&reply_comment_id=3140685999292926 Chris Webster. Sales at Gusmer. Milk The Funk Facebook thread on Chr Hanson L. plantarum. 12/19/2019.]</ref>
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| [[Craft Cultures]] || CCYL510 || ''L. Lactobacillus delbrueckii'' || Homofermentative || || Lactic acid bacteria producing moderate acidity and sour flavors found in Lambics, Berliner Weiss, and Sour Ales. Commercial pitches only.
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| [[Craft Cultures]] || CCYL512 || ''L. Levilactobacillus brevis'' || Heterofermentative || || Typically produces more lactic acid than Lactobacillus delbrueckii. Commercial pitches only.
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| [[East Coast Yeast]] || ECY32 || ''L. Levilactobacillus brevis'' || Heterofermentative || || Originally isolated from kefir. Bright acidity and hop-tolerant (up to 30 IBU). Fermentation temperature 60 - 80F <ref name="ecy_website">[http://www.eastcoastyeast.com/wild-stuff.html "Wild Yeast / Brettanomyces / Lactic Bacteria". East Coast Yeast website. Retrieved 04/27/2018.]</ref>.
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| [[Escarpment Laboratories]] || Lactobacillus Blend || ''L. Levilactobacillus brevis'' and ''L. Lactiplantibacillus plantarum'' || Heterofermentative/Faculatative Heterofermentative || || This blend is designed to be usable at a wide range of temperatures, and is especially suited for kettle souring/Wort Souring. We recommend pre-acidifying wort to 4.5 with lactic acid, then pitching the Lactobacillus blend in a CO2-purged kettle or fermentor at 32-42°C.
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| [[Escarpment Laboratories]] || Lactobacillus Blend 2.0 || ''L. Lacticaseibacillus rhamnosus'' and ''L. Lactiplantibacillus plantarum'' || Heterofermentative/Faculatative Heterofermentative || || This blend is a product of our ongoing research into optimizing Lactobacillus strain selection. It is a blend of our main L. plantarum strain with a strain of Lactobacillus rhamnosus. This blend has a wide temperature range ( 30ºC to 45ºC) and enhances fruit flavours in the finished beer, with tasters noting red fruit and guava aromas. It is intended for kettle/quick souring but can also be used in 0 IBU wort.
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| [[Escarpment Laboratories]] || Lactobacillus Secondary Souring Blend || ''L. Levilactobacillus brevis'' and ''L. Lacticaseibacillus paracasei'' || Heterofermentative/Faculatative Heterofermentative || || This blend of 2 hop resistant Lactobacillus strains (''L. brevis'' and ''L. paracasei'') is intended for use in long-term souring. We recommend 15 IBU or less in the first generation.
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| [[Escarpment Laboratories]] || Lactobacillus Brevis || ''L. Levilactobacillus brevis'' || Heterofermentative || || This strain is moderately hop-tolerant, and as such it can also be used for long-term souring of <10IBU beers. It also performs well in kettle souring/wort souring where fast and clean lactic acidity is desired. We recommend pre-acidifying wort to 4.5 with lactic acid, then pitching the Lactobacillus blend in a CO2-purged kettle or fermentor at 35-45°C.
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| [[Escarpment Laboratories]] || Lactobacillus Delbrueckii|| ''L. Lactobacillus Delbrueckii'' || Homofermentative || || A single strain of ''L. delbrueckii'' often used for quick souring.
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| [[Escarpment Laboratories]] || Lactobacillus Plantarum || ''L. Lactiplantibacillus plantarum'' || Facultatively heterofermentative || || A single strain of L. plantarum that performs well in kettle souring/sour worting where fast and clean lactic acidity is desired.
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| [[Escarpment Laboratories]] || The Kveik Ring: Lactobacillus paracasei || ''L. Lacticaseibacillus paracasei'' || Facultatively heterofermentative || || Isolated from [https://www.garshol.priv.no/download/farmhouse/kveik.html#kv5 Terje Raftevold's Hornindal Kveik]. Works well in kettle/quick souring. Temp: 30-40ºC // Acid Profile: Light to moderate (final pH 3.4-3.6) // If co-pitching with yeast, give the Lacto a 24 hour head start. Potentially a one time offer for May 2021 <ref>[https://www.facebook.com/escarpmentlabs/posts/4007824289310386:0 Escarpment Labs Facebook Page. Retrieved 05/06/2021.]</ref>.
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| Fermentis || SafSour™ LP 652 || ''L. Lactiplantibacillus plantarum'' || Faculatative Heterofermentative || No starter recommended for dried format || An optimum dosing rate of 10 g/hL provides a lactic fermentation within 24h – 36h in non-hopped wort <ref>[https://fermentis.com/en/fermentation-solutions/you-create-beer/safsour-lp-652 SafSour™ LP 652. Fermentis website. Retrieved 03/14/2020.]</ref>. See also Fermentis presentation [https://www.youtube.com/watch?v=ThuTjHnnYqk here] for impacts on temperature, starting gravity, aerobic/anaerobic fermentation, and sensory impact of different strains of ''S. cerevisiae'' when kettle souring.
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| Fermentis || SafSour™ LP 1 || ''L. Levilactobacillus brevis'' || Heterofermentative || No starter recommended for dried format || An optimum dosing rate of 10 g/hL provides a lactic fermentation. It is recommended to pitch directly into the non-hopped wort at the temperature of 32°C (+/- 5°C) <ref>[https://fermentis.com/en/product/safsour-lb-1/ SafSour™ LP 1. Fermentis website. Retrieved 10/20/2021.]</ref>. See also Fermentis presentation [https://www.youtube.com/watch?v=ThuTjHnnYqk here] for impacts on temperature, starting gravity, aerobic/anaerobic fermentation, and sensory impact of different strains of ''S. cerevisiae'' when kettle souring.
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| [[Fermmentos Labs]] (Brazil - CLOSED) || FB7 Pure Sour || ''L. Lactiplantibacillus plantarum'' and ''L. brevis'' || Facultatively heterofermentative /Heterofermentative || || Designed for kettle souring. Optimal temperatures of 20-25°C <ref name="fermmentos_catalog_2017">[https://fermmentolabs.com.br/wp-content/uploads/2017/07/Cat%C3%A1logo_Fermmento_Labs_TWTF.pdf Fermmentos Labs Catalog. Retrieved 12/21/2017.]</ref>.
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| [[Fermmentos Labs]] (Brazil - CLOSED) || FB12 Lactos || ''L. Lactobacillus delbruekii'' and ''L. Lacticaseibacillus rhamnosus'' || Homofermentative || || Designed for kettle souring. Optimal temperatures of 25-30°C <ref name="fermmentos_catalog_2017" />.
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| [[GigaYeast]] (CLOSED) || GB110 || ''L. Lactobacillus delbrueckii''? <ref>[https://www.facebook.com/GigaYeast/posts/565914926872849?comment_id=567669393364069&offset=0&total_comments=1&notif_t=feed_comment From Gigayeast, Inc. on Facebook, 12/3/2014: "Appears to be L. delbrueckii."]</ref> || Heterofermentative || For a 5 gallon batch of beer use 2 liters at 1.040 with high quality yeast nutrient. Keep as close to 86°F (30°C) as possible for 3-4 days with frequent rousing (no stir plate) <ref>Personal Communication with Jim Thompson.</ref>. || Lactic Acid Bacteria are inhibited by hops, high gravity and low temperatures. You can adjust sourness by increasing or decreasing these variables. More than 7 IBU, gravity above 1050 or temps below 65 F will increase the time to sour or lead to reduced overall souring. Contains ~200 billion cells per homebrew pitch <ref name="sbb2.0"></ref>.
We recommend brewing with GB110 in one of three ways. I) “Hot Start”: Pitch GB110 to wort at 98 F with little or no hops for 48-72 hrs. Wort may be soured before kettle boil or after. If soured before kettle boil, boil with hop additions as usual. If soured after kettle boil cool wort and pitch yeast. II) “Co-Pitch”: Pitch GB110 into a primary with yeast of your choice at 68-72 F. Wort that is less than 1050 and 7 IBU will typically be very sour in 2-3 weeks. III) “Secondary”: Pitch GB110 after primary fermentation for an aged sour. Souring by this method typically requires several months. Adding simple sugars or fruit etc. will enhance souring in the secondary <ref>[http://www.gigayeast.com/fast-souring-lacto GigaYeast Webpage. Retrieved 7/22/2015.]</ref>. Sometimes referred to as GigaYeast's "Fast Acting Lacto". This strain is hop sensitive <ref name="steve_smith">[https://www.facebook.com/groups/MilkTheFunk/permalink/1068326413195572/?comment_id=1069411906420356&offset=0&total_comments=12&comment_tracking=%7B%22tn%22%3A%22R%22%7D Conversation with Steve Smith of GigaYeast on MTF. 05/08/2015.]</ref>.
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| [[Inland Island Brewing & Consulting|Inland Island Yeast Laboratories]] || INISBC-991 || ''L. Levilactobacillus brevis'' || Heterofermentative || || Produces more lactic acid at higher temperatures and in low hop worts. 70-95 F Temperature Range
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| [[Inland Island Brewing & Consulting|Inland Island Yeast Laboratories]] || INISBC-992 || ''L. Lactobacillus delbruekii'' || Homofermentative || || Produces more lactic acid at higher temperatures and in low hop worts. 70-95 F Temperature Range
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| [[Inland Island Brewing & Consulting|Inland Island Yeast Laboratories]] || INISBC-932 || ''L. Limosilactobacillus fermentum'' || Heterofermentative || ||
|-
| [[Jasper Yeast]] || Lactobacillus plantarum JY-LPLANT || ''L. Lactiplantibacillus plantarum'' || Facultatively heterofermentative || || Ideal for kettle souring. Optimum temperature is 100°F-110°F. L. plantarum is hop sensitive, we advise not to use any hops until souring is satisfactory. <ref name="Jasper_Lacto">[https://jasperyeast.com/bacteria "Available Bacteria". Jasper Yeast Website.]</ref>
|-
| [[Jasper Yeast]] || Lactobacillus brevis JY-LBREV || ''L. Levilactobacillus brevis'' || heterofermentative || || Ideal for kettle souring. works well at 95°F-105°F. <ref name="Jasper_Lacto"/>
|-
| [[Jasper Yeast]] || Lactobacillus blend || ''L. Lactiplantibacillus plantarum'' and ''L. Levilactobacillus brevis'' || Facultatively heterofermentative/heterofermentative || || Ideal for kettle souring. Optimum temperature is 95°F-110°F. L. plantarum is hop sensitive, we advise not to use any hops until souring is satisfactory. <ref name="Jasper_Lacto"/>
|-
| [[Jasper Yeast]] || JY-LACID || ''Lactiplantibacillus acidophilus''|| Homofermentative || || Optimum temperature is 95°F-105°F. <ref name="Jasper_Lacto"/>|-| Lallemand || WildBrew Sour Pitch || ''L. Lactiplantibacillus plantarum'' <ref>[https://www.facebook.com/Lallemandyeasts/photos/a.941604692537326.1073741829.939455986085530/1656901501007638/?type=3&comment_id=1657229347641520&reply_comment_id=1657231934307928&comment_tracking=%7B%22tn%22%3A%22R5%22%7D Post on the Lallemand Facebook page. 09/22/2017. Retrieved 09/22/2017.]</ref> || Facultatively heterofermentative || || See [https://www.facebook.com/groups/MilkTheFunk/permalink/1790290834332456/ this information from Scott Lucas on MTF]. This culture comes in a dry (desiccated) format. Although the [http://www.lallemandbrewing.com/product-details/wildbrew-sour-pitch manufacturer's website] claims this strain is tolerant of 4 IBU, we recommend that brewers treat this strain like any other strain of ''L. plantarum'' and do not expose it to any hops until the desired acidity has been produced (for example, see [[Wort Souring]]). Recommended temperature: 95-100°F (35-38°C) <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1882643148430557/?comment_id=1883360638358808&reply_comment_id=2017197581641779&comment_tracking=%7B%22tn%22%3A%22R9%22%7D Caroline Smith (rep from Lallemand). Milk The Funk Facebook group regarding Lallemand WildBrew Sour Pitch. 03/09/2018.]</ref><ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1988756664485871/?comment_id=1990170714344466&reply_comment_id=2017220451639492&comment_tracking=%7B%22tn%22%3A%22R9%22%7D Caroline Smith (rep from Lallemond). Milk The Funk Facebook group regarding Lallemand WildBrew Sour Pitch and IBU tolerance. 03/09/2018.]</ref>.
Reports in MTF on hop tolerance are mixed: Thomas Delaney reported no souring with 4 IBU, while Warren Knowles reported slower souring to 3.2 in 48 hours with ~5 IBU. Adam Stout reported a pH drop from 5.4 to 5.0 over 24 hours with ~3-5 IBU. Knowles, Matt Lange, and Matt Waugh reported light THP for a few days that went away or dimished by serving time but otherwise clean acidity and good results <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1988756664485871/ Various Milk The Funk members. MTF post on the Lallemand WildBrew Sour Pitch product. 02/14/2018.]</ref>.
The homebrew pitch is enough for two 5 gallon/19 liter batches, but the package is not vacuum-sealable. It is recommended to seal the original sachet without vacuum sealing, and then double bag it into a bvacuum-sealable package and store in the freezer. This will help prevent contamination (see reference for anecdotes of saving left-over open packages of this product) <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/3204419266252932/?comment_id=3205432392818286 Gianmaria Ricciardi, Lallemand Brewing sales representative. Milk The Funk thread on saving Lallemand Wild Brew opened packages. 01/14/2020.]</ref>.
|-
| Lallemand || WildBrew Helveticus || ''L. Lactobacillus helveticus'' || Homofermentative || || Temp range: 38°C - 45°C (100°F - 113°F). Hop tolerance: In lab tests, growth was inhibited at 4ppm iso-alpha acid, but they recommend no hops during kettle souring. The pH range is 3.0-3.5 (within 36 hours). Dosage: 10g/hL <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/3016721145022746/?comment_id=3016866791674848&reply_comment_id=3017521094942751 Joan Montasell from Lallemand Brewing. Milk The Funk Facebook thread on Lallemand WildBrew Helveticus. 11/01/2019.]</ref>. [https://www.facebook.com/groups/MilkTheFunk/permalink/3016721145022746/ MTF thread on availability and personal experiences using it.]
|-
| [[Mainiacal Yeast]] (CLOSED) || MYLP1 || ''L. Lactiplantibacillus plantarum'' || Facultatively heterofermentative || || Isolated from flowers at King Richards Faire in Massachusetts. It produces a clean lactic sour and prefers it a little cooler however does sour more quickly at its higher temps. Recommended fermentation temperature is 70-90°F <ref name="Amaral_Mainiacal">Private correspondence with Justin Amaral by Dan Pixley. 01/24/2018.]</ref>. '''Commercial pitches only'''.
|-
| [[Mainiacal Yeast]] (CLOSED) || MYLP2 || ''L. Lactiplantibacillus plantarum'' || Facultatively heterofermentative || || Isolated from grains going through the steeping process at Blue ox Malthouse. It produces a clean lactic sour and is a viable option for kettle souring, co-pitching, or post fermentation. Recommended fermentation temperature is 70-105°F <ref name="Amaral_Mainiacal" />. '''Commercial pitches only'''.
|-
| [[Mainiacal Yeast]] (CLOSED) || MYLD1 || ''L. Lactobacillus delbruekii'' || Homofermentative || || Isolated from a spontaneous beer, this strain likes it warm but not to hot. It does not sour as quickly and will require some longer aging times to reach terminal pH. It produces a clean acidity with a hint of farmhouse like straw. Recommended fermentation temperature is 65-90°F <ref name="Amaral_Mainiacal" />. '''Commercial pitches only'''.
|-
| [[Mainiacal Yeast]] (CLOSED) || MYLB2 || ''L. Levilactobacillus brevis'' || Heterofermentative || || Produces a clean lactic acidity, but generally doesn't produce as much lactic acid as some other variants. It's best used co-pitched with other microbes and allowed to age. Expect this strain to be a bit lighter on the souring side leaving a tart refreshing beer. Recommended fermentation temperature is 60-85°F <ref name="Amaral_Mainiacal" />. '''Commercial pitches only'''.
|-
| [[Omega Yeast Labs]] || OYL-605 || ''L. Levilactobacillus brevis'', <span style="text-decoration: line-through;">''delbrueckii''</span>, and ''plantarum'' blend || Hetero/Hetero <ref name="mtf_wiki_shaner"></ref> || 1 liter starter for a 5 gallon batch of beer at room temperature for 24-48 hours. No stir plate unless kept anaerobic. || Quick souring. Pitch into 65°F-95°F <ref name="adi_oyl605"></ref>. Holding temperature is not required. No longer contains delbruekii <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1065268213501392/?comment_id=1065669443461269&offset=0&total_comments=18&comment_tracking=%7B%22tn%22%3A%22R%22%7D Conversation with Raymond Wagner of Oso Brewing Co on Milk The Funk. 4/30/2015.]</ref>. Don't use any hops if possible. 2 IBU is a good target if hops must be used <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1092523807442499/?comment_id=1092571350771078&offset=0&total_comments=6&comment_tracking=%7B%22tn%22%3A%22R1%22%7D Conversation with Lance Shaner on MTF in regards to IBU tolerance of OYL-605. 6/15/2015.]</ref>. Contains ~150 billion cells per homebrew pitch <ref name="sbb2.0">[http://sourbeerblog.com/lactobacillus-2-0-advanced-techniques-for-fast-souring-beer/ Lactobacillus 2.0 – Advanced Techniques for Fast Souring Beer. Sour Beer Blog. Matt Miller. 11/18/2015. Retrieved 11/19/2015.]</ref>. This product is vegan <ref>Adi Hastings. Private correspondance with Dan Pixley.
08/17/2018.</ref>.
|-
| [[Propagate Lab]] || MIP-911 || ''L. Levilactobacillus brevis'' || Heterofermentative || || Acidifies unhopped wort in 48 hours at 100°F <ref>[http://www.propagatelab.com/mip911-lactobrevis Propagate Lab. MIP-911. Retrieved 06/20/2020.]</ref>.
|-
| [[Propagate Lab]] || MIP-912 || ''L. Lactobacillus delbruekii'' || Homofermentative || || Acidifies over an extended period of time; used in barrel aging <ref>[http://www.propagatelab.com/mip912-lactodelbureckii Propagate Lab. MIP-912. Retrieved 06/20/2020.]</ref>.
|-
| [[Propagate Lab]] || MIP-913 || ''L. Lacticaseibacillus casei'' || Facultative Heterofermentative || ||
|-
| [[Propagate Lab]] || MIP-914 || ''L. Lactiplantibacillus plantarum'' || Facultative Heterofermentative || || Acidifies unhopped wort in 48 hours at 100°F <ref>[http://www.propagatelab.com/mip-914lactoplantarum Propagate Lab. MIP-914. Retrieved 06/20/2020.]</ref>.
|-
| [[RVA Yeast Labs]] || RVA 600 || ''L. Lacticaseibacillus rhamnosus'' GG || Homofermentative || No starter necessary per RVA || Homofermentative Lacto strain found in probiotics; sensitive to hops; does well at room temperature.
|-
| [[SouthYeast Labs]] (CLOSED) || Lactobacillus 1 || Unknown || Heterofermentative || || Source: Spontaneously infected beer (South Carolina). Best suits Light sours, gose, farmhouse saison (medium/high acidity).
|-
| [[SouthYeast Labs]] (CLOSED) || Lactobacillus 2 || Unknown || Homofermentatative || || Source: Prickly pear fruit (South Carolina). Best suits strong sours, and lambic (high acidity).
|-
| [[The Yeast Bay]] || Lactobacillus Blend || ''L. Lactiplantibacillus plantarum'', and 2 strains of ''L. Levilactobacillus brevis'' || Heterofermentative || || The Lactobacillus Blend includes three strains: ''Lactobacillus plantarum'', ''Lactobacillus brevis'' and a second strain of ''Lactobacillus brevis'' isolated from an accidentally soured blonde ale from a Mexican craft brewery. Quickly produces acidity across a wide range of temperatures. It can be used on its own for kettle souring prior to pitching yeast to create acidity quickly, or co-pitched with yeast to create sourness over time. It will produce a pronounced and rounded acidity. The Yeast Bay recommends holding the IBU on the low end (< 2-3) if you'd like to use this blend to create acidity in a shorter time frame. Higher IBUs may result in souring, but the strain of ''L. brevis'' isolated from the Mexican craft brewery is hop tolerant up to about 15-20 IBU. Temperature: 70-90°F. Cell count: 50-80 million cells/mL (1.75-2.8 billion cells for 35 mL homebrew vials) <ref name="WL_cellcounts"></ref><ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1280135442014667/?comment_id=1280341068660771&reply_comment_id=1280498695311675&comment_tracking=%7B%22tn%22%3A%22R1%22%7D Conversation with Nick Impellitteri on MTF regarding TYB Lactobacillus Blend cell counts. 04/08/2016.]</ref>. Recommended temperature range for fastest acid production for kettle souring is 85-90°F, although if kept in the 70's it should produce good acidification in 48-72 hours. A major drop off of in acid production is seen above 90°F <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1616265398401668/?comment_id=1617001948328013&comment_tracking=%7B%22tn%22%3A%22R%22%7D Impellitteri, Nick. Milk The Funk Facebook group. 03/17/2017.]</ref>.
|-
| [[The Yeast Bay]] || TYB282 || ''L. Lactiplantibacillus brevis'' || Heterofermentative || || TYB282 is a single strain of Lactobacillus brevis isolated out of an unintentionally soured golden ale produced by a Mexican craft brewery.
This strain produces a clean lactic acidity (down to ~pH 3.16-3.18) in unhopped wort within 36 hours at a temperature of ~72-77 F. The higher the temperature (up to 90 F is what we've tested), the faster the acid production. Recommended for kettle souring, as it grows rather quickly and produces acidity fast with no detectable off flavors. The Yeast Bay has tested this strain at ~20 IBU and it was able to reduce the pH of beers down to 3.30 pH when co-pitched with a farmhouse yeast. It might create acidity at higher IBU's (Nick suggests maybe up to 30 IBU); however, this has not been tested yet <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/2907190232642505/?comment_id=2907235245971337 Nick Impellitteri. Milk The Funk Fcaebook group post on TYB282 hop tolerance. 09/12/2019.]</ref>. Temperature: 70-90 ºF.
|-
| [[WHC Lab]] || Lactobacillus helveticus - Tangy Dehydrated Bacteria || ''Lactobacillus helveticus'' || Homofermentative || || Described as producing "citrus" flavor. Use no hops. Ferment between 36°C to 42°C for quick souring.|-| [[WHC Lab]] || Lactobacillus plantarum - Dehydrated Bacteria || ''Lactiplantibacillus plantarum'' || Facultatively heterofermentative || || Described as producing "citrus" flavor. Use no hops. Ferment between 34°C to 36°C for quick souring.|-| [[White Labs]] || WLP677 || ''L. Lactobacillus delbrueckii'' (might be misidentified <ref>[http://masterbrewerspodcast.com/085-lactic-acid-bacteria-case-study Tim Lozen. Master Brewers Association podcast interview on lactic acid bacteria case study. 04/23/2018.]</ref>) || Heterofermentative <ref name="mtf_wiki_shaner">[http://www.milkthefunk.com/wiki/100%25_Lactobacillus_Fermentation Milk The Funk Wiki. 100% Lactobacillus Fermentation Test by Lance Shaner.]</ref><ref name="tmf_cultures">[http://www.themadfermentationist.com/p/commercial-cultures.html ''Commercial Brettanomyces, Lactobacillus, and Pediococcus Descriptions''. The Mad Fermentationist Blog. Michael Tonsmeire. Retrieved 3/4/2015.]</ref> || no stir plate, room temp ||Incubate at > 90°F and < 117°F for 5-7 days for greater lactic acid production. Cell count: 50-80 million cells/mL (1.75-2.8 billion cells in a 35 mL homebrew vial) <ref name="WL_cellcounts">Private correspondence with White Labs Customer Service and Dan Pixley. 10/29/2015.</ref>. Not a good strain for kettle souring, but can produce a "soft" acidity over a longer period of time <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1212455192116026/?comment_id=1212475888780623&reply_comment_id=1212476575447221&comment_tracking=%7B%22tn%22%3A%22R3%22%7D Conversation with Andrew Addkison on MTF. 01/12/2016.]</ref>. White Labs claims that it is tolerant to up to 20 IBU, although growth starts to become inhibited at 15 IBU <ref name="WL_datasheet" /><ref>[http://www.themadfermentationist.com/p/commercial-cultures.html "Commercial Brettanomyces, Lactobacillus, and Pediococcus Descriptions; Commercial Yeast Laboratories." The Mad Fermentationist blog. Michael Tonsmeire. Retrieved 12/12/2016.]</ref>. Generally heat tolerant, but sours faster between 100-110°F <ref name="WL_datasheet">[http://www.whitelabs.com/sites/default/files/R%26D%20Wild%20Yeast%20and%20Bacteria%20Experiments_2.pdf "R&D Wild Yeast and Bacteria Experiments". White Labs data sheet. Retrieved 05/16/2017.]</ref>
|-
| [[White Labs]] || WLP672 || ''L. Levilactobacillus brevis'' || Heterofermentative <ref name="mtf_wiki_shaner"></ref><ref name="nick">[https://www.facebook.com/groups/MilkTheFunk/permalink/1029638267064387/?comment_id=1030638553631025&offset=0&total_comments=24 Conversation with Nick Impellitteri from The Yeast Bay on the MTF Facebook Group. 3/4/2015.]</ref> || No stir plate, room temp|| Produced by [[The Yeast Bay]]. More hop tolerant than other Lacto strains, however TYB advises to use wort with less than 10 IBU. White Labs data sheet shows that growth is inhibited to 82% at 5 IBU, and 60% at 10 IBU <ref name="WL_datasheet" />. Temperature range: 70-95°F (greatly inhibited at 110°F) <ref name="WL_datasheet" />. <ref>[http://www.theyeastbay.com/wild-yeast-and-bacteria-products/wlp672-lactobacillus-brevis The Yeast Bay website. Retrieved 3/2/2015.]</ref> Cell count: 50-80 million cells/mL (1.75-2.8 billion cells for 35 mL homebrew vials) <ref name="WL_cellcounts"></ref>. This strain can take several days to acidify unhopped wort, and as such is not recommended by MTF for kettle sours. This strain benefits from magnesium nutrient additions, and is slightly inhibited by zinc nutrient additions <ref>[https://www.mdpi.com/2218-273X/10/12/1599 Chemical Composition of Sour Beer Resulting from Supplementation the Fermentation Medium with Magnesium and Zinc Ions. Aneta Ciosek, Katarzyna Fulara, Olga Hrabia, Paweł Satora, and Aleksander Poreda. 2020. DOI: https://doi.org/10.3390/biom10121599.]</ref>.
|-
| [[Wyeast]] || 5335 || ''L. Lentilactobacillus buchneri'' || Heterofermentative <ref name="mtf_wiki_shaner"></ref> || 1 liter starter for a 5 gallon batch of beer, 1.020 DME sterile wort, no stir plate, no O2, starter at 90°F if possible 5-7 days || Incubate at 90°F for 5-7 days for greater lactic acid production. Cell count: 1.0 x 10<sup>8</sup> (100 million) cells/mL (10 billion cells in a 100 mL homebrew pouch) <ref name="wyeast_cellcounts">[https://drive.google.com/folderview?id=0B8CshC9nxYHdZmE4MmoyLXA2WVk&usp=sharing Wyeast Specifications 2015 Retail Products. 2015.]</ref>.
|-
| [[Wyeast]] || 5223-PC || ''L. Levilactobacillus brevis'' || Heterofermentative <ref name="mtf_wiki_shaner"></ref><ref name="nick"></ref> || no stir plate, room temp is fine || Heterofermentative (produces lactic acid, ethanol and CO2), more hop tolerant. Does well at room temperature. Jamie Daly indicated on MTF that he got almost no sourness after 24 hours at 100°F (37.8°C). He lowered the temperature to 90°F-95°F (32.2°C-35°C) for 36 hours, and the pH of the wort went down to 3.29. Thus, Jamie recommends 90°F-95°F (32.2°C-35°C) for 60 hours for better souring; avoid warmer temperatures. He also aerated his starter of L. brevis (2L starter of 1.020 DME) and set it on a stir plate at 95°F <ref name="brevis_aeration">[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC547135/ Growth Response of Lactobacillus brevis to Aeration and Organic Catalysts. J. R. Stamer and B. O. Stoyla. Appl Microbiol. Sep 1967; 15(5): 1025–1030.]</ref>. The beer wort was not aerated, and the fermenter was flushed with CO2. These methods need verification. Cell count: 1.0 x 10<sup>8</sup> (100 million) cells/mL (10 billion cells in a 100 mL homebrew pouch) <ref name="wyeast_cellcounts"></ref>.
|-
| [[Wyeast]] || 4335 || ''L. Lactobcillus delbruekii'' || Heterofermentative || || There are [https://www.google.com/search?safe=off&rlz=1C1CHBF_enUS741US743&ei=BAuPW-WyL8OAk-4PuoGryA8&q=wyeast+4335&oq=wyeast+4335&gs_l=psy-ab.3..0i30.16026.16026..16511...0.0..0.83.83.1......0....1..gws-wiz.......0i71.9JdIoR14NT8 various references on the internet during the mid to late 2000's] to a product called "Wyeast 4335 ''Lactobacillus delbruekii''", however, this product is no longer offered by Wyeast. When asked about this product, the Wyeast customer support reported that the "4335" product was renamed to "5335" fifteen years ago, and the "5335" and "4335" products are the same culture. It is unclear why "4335" was labeled as ''L. delbruekii'', but it is likely that it was originally misidentified <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/2265479906813544/?comment_id=2267884689906399&comment_tracking=%7B%22tn%22%3A%22R%22%7D Chris Cates private correspondance with Wyeast customer service representative. Milk The Funk Facebook thread on the origin and disappearance of WY4335 ''L. delbruekii''. 09/04/2018.]</ref>.
|-
|}
</blockquote>
Hop tolerance is not only species dependent, but is also strain dependent. For example, a dissertation by F.J. Methner measured the pH drop of wort that started at a pH of 5.55 from day 3 to day 14 for several strains of ''L. brevis'' at different IBU levels (7,9,11,13 and 18 IBU's). One strain of ''L. brevis'' eventually got down to a pH of 3.8 at day 14 with 7 IBU's, while another strain got down to 3.3 pH at day 14 (with other strains in-between those numbers). At 18 IBU, the relatively hop intolerant ''L. brevis'' strain got down to only 4.2 pH, while another strain got down to 3.7. In general, the higher the IBU, the slower the pH drop. Interestingly, another species called ''L. coryniformis'' was shown to be more hop tolerant than ''L. brevis''. ''L. coryniformis'' dropped the 18 IBU wort down to 3.6 pH over 14 days <ref name="Methner">[https://www.facebook.com/groups/MilkTheFunk/permalink/1537381402956735/ Methner, F.D. Uber Die Aromabildung beim berliner weissebier unter besonderer berucksichtigung von sauren and estern (data reported and translated by Benedikt Koch on Milk THe The Funk Facebook group). 1987.]</ref>. In a separate study, one strain of ''Lacticaseibacillus paracasei'' subsp. ''paracasei'' was able to remain viable in 40 IBU beer <ref>[https://www.sciencedirect.com/science/article/abs/pii/S0963996924011104 Lucas Borges Martins da Silva, Katy Vieira Arruda, Juliana Yumi Suzuki, Marcos Edgar Herkenhoff. Survival of the probiotic strain Lacticaseibacillus paracasei subsp. paracasei F19 in high-hopped beers. Food Research International, 2024, 115040, ISSN 0963-9969, https://doi.org/10.1016/j.foodres.2024.115040.]</ref>
Methner's data is shown below; graphs created by Benedikt Koch <ref name="Methner" />. Y axis = pH, X axis = days.
====Tolerance of Extreme Temperature====
Most ''Lactobacillus'' species have a thermal death rate of ~145°F 151°F (63°C66°C)after 5 minutes <ref>[https://onlinelibrary.wiley.com/doi/pdf/10.1002/j.2050-0416.1957.tb02903.x SOME INVESTIGATIONSON LACTOBACILLUS INFECTION. By R.T.Dean,M.Sc.(Carllon and United Breweries,Ltd.,Melbourne,Australia). Received 11th October,1956.]</ref>. Freezing without glycerol will kill most cells, but it is possible for a very small number of cold-resistant mutant cells to survive <ref>[http://fermentationnation.net/2015/11/episode-26-quality-assurance-w-jessica-davis-of-the-bruery/ Fermentation nation Podcast interview with Jessica Davis, QA for The Bruery.]</ref> (~1:19:00 in). In very rare occasions, some strains have been identified as being extremely thermotolerant. For example, [https://patents.google.com/patent/US20180042256A1/en this patent] claims that a strain of ''Lactobacillus delbrueckii'' subsp. ''lactis'' can acidify milk within 2.5 hours when held at temperatures between 45-65°C (113-149°F).
In another example, [https://sfamjournals.onlinelibrary.wiley.com/doi/pdf/10.1046/j.1365-2672.1999.00607.x Jordan and Cogan (1999)] described the heat tolerance of three strains of ''Lactobacillus'' isolated from cheese (two strains of ''L. plantarum'' and one strain of ''L. paracasei''). When temperatures were finally able to kill the strains, they observed a non-linear death curve with either very little death for the first 15 minuets, or a tailing of the curve. For the ''L. paracasei'' strain, the culture was able to survive temperatures between 50 and 55°C for two hours. At 60°C, there was no significant cell death for 15 minutes, but after 15 minutes the culture began to slowly die, and then more quickly die after an hour of heat exposure. At 65°C, the ''L. paracasei'' strain had a fairly steep death curve for the first 10 minutes, and then a tailing curve showing a small number of cells surviving up to 25 minutes. Even at 72°C, which is typical for pasteurization in the milk industry, the death rate for this strain was slow enough to survive 15 second pasteurization methods. The two strains of ''L. plantarum'' were less heat tolerant, with death starting to occur at around 50-56°C <ref>[https://pubmed.ncbi.nlm.nih.gov/10499302/ Jordan KN, Cogan TM. Heat resistance of Lactobacillus spp. isolated from Cheddar cheese. Lett Appl Microbiol. 1999 Aug;29(2):136-40. doi: 10.1046/j.1365-2672.1999.00607.x. PMID: 10499302.]</ref>. Assuming the heat penetrates all surfaces, exposure to water heated to 72-80°C for 1 minute should be more than adequate for eliminating heat tolerant strains of ''Lactobacillus'', as well as any other beer contaminate species, from the brewing environment.
== Commercially available Lactobacillus strains and their pH change over time ==
All data provided by [http://phdinbeer.com/2015/08/05/beer-microbiology-lactobacillus-ph-expeirment/ Matt Humbard]. Similar results were reported by Lance Shaner's [[Lactobacillus_Fermentation|100% Lactobacillus Fermentation]] experiment. See also the associated [https://byo.com/article/brewing-with-lactobacillus/ write up in BYO Magazine].
=== pH change at 86°F ===
All metabolism by Lactobacillus, including growth, will require sugar to be consumed and lactate (lactic acid) to be produced. Two categories of metabolism exist, '''homolactic''' and '''heterolactic'''. In summary, homolactic fermentation produces only lactic acid, while heterolactic fermentation produce lactic acid, CO2, and ethanol/acetic acid <ref name="Todar">[http://textbookofbacteriology.net/lactics_2.html Todar's Online Texbook of Bacteriology. Kenneth Todar, PhD. Retrieved 05/06/2015.]</ref>.
 
See also:
* [https://www.facebook.com/groups/MilkTheFunk/posts/5589875397707295/?comment_id=5590160227678812 Richard Preiss and Dr. Bryan Heit's layman explanation of ''L. plantarum'' having an extracellular electron transport chain.]
====Homolactic====
====100% ''Lactobacillus'' Fermentation====
Lance Shaner's experiment on testing [[Lactobacillus_Fermentation|100% Lactobacillus Fermentation]] showed that '''pure cultures''' of WLP677, WLP672, Wyeast 5335, Wyeast 5223-PC, and the ''L. plantarum'' from Omega Yeast OYL-605, could not fully attenuate a 1.037 SG wort. The most attenuative ''Lactobacillus'' culture, WLP677, was only able to attenuate down to 1.03255 SG. It is likely that all species and strains of ''Lactobacillus'' available to brewers cannot fully attenuate wort. In addition, this study showed at most a 0.29% ABV in 100% ''Lactobacillus'' fermentations (attributed to WLP677). See [[Lactobacillus_Fermentation|100% Lactobacillus Fermentation]] for more information. If a higher attenuation is achieved, cross contamination of yeast is most likely the cause. Thomas Hübbe's masters thesis also supports that ''Lactobacillus'' attenuates less than 10% of the sugars in wort <ref name="Hubbe"></ref>.
The amount of CO2 produced is very small in heterofermentative species. Lance Shaner of Omega Yeast Labs noted that although ''L. brevis'' is classified as obligatory heterofermentative, the human eye cannot detect any CO2 production in the Omega Yeast Lactobacillus blend (OYL-605). Lance still needs to test this blend to see if it produces any CO2 at all. There have been reliable reports of pure ''Lactobacillus brevis'' cultures producing a layer of bubbles on the surface of wort if roused <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1354678291227048/?comment_id=1354678411227036&reply_comment_id=1355288821165995&notif_t=group_comment_reply&notif_id=1468974761019794# Conversation with Richard Preiss on MTF regarding pure Lactobacillus fermentation. 07/19/2016.]</ref>. It is clear though that any type of ''Lactobacillus'', regardless of whether it is heterofermentative or homofermentative, cannot produce a krausen. Krausens are sometimes seen even with the use of commercially available ''Lactobacillus'' cultures and good sanitation techniques. If a krausen develops in wort when it is the only culture that is pitched, this is indicative of cross-contamination of ''Saccharomyces'' or ''Brettanomyces'' in either the wort or the ''Lactobacillus'' culture itself <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1083842231643990/?comment_id=1084646124896934&offset=0&total_comments=26&comment_tracking=%7B%22tn%22%3A%22R8%22%7D Discussion with Lance Shaner on MTF. 6/7/2015.]</ref>. In addition to this, heterolactic fermentation by ''Lactobacillus'' can only produce 10-20% of the ethanol that Saccharomyces can produce <ref name="PhysioLacto">[http://phdinbeer.com/2015/04/13/physiology-of-flavors-in-beer-lactobacillus-species/ Humbard, Matt. Physiology of Flavors in Beer – Lactobacillus Species. Retrieved 6/14/2015.]</ref>, therefore a high level of attenuation cannot be achieved by ''Lactobacillus'' and is again a sign of cross contamination by yeast. Take a gravity reading and if the wort gravity has dropped more than 1°P (.004 specific gravity points) then this is due to a yeast fermentation.
An in-house experiment by Bell's Brewery which was presented at the MBAA Conference 2017 by Timothy Lozen reported slightly higher amoutns of ABV from a few species of ''Lactobacillus''. Out of 7 different species of ''Lactobacillus'' that were tested, ''L. bucherni'' (White Labs) produced the most alcohol at 0.64% ABV. ''L. rossiae'' (White Labs) and ''L. brevis'' (Bell's Brewery) produced around 0.4% ABV. ''L. delbruekii'' subsp. ''bulgaricus'' (ATCC #11842) produced around 0.5% ABV. The other strains, which were ''L. delbruekii'' subsp. ''lactis'' (ATCC #12315), ''L. casei'' (White Labs), and ''L. plantarum'' (Goodbelly) produced 0.1% or lower ABV <ref name="lozen_2017" />.
* See also [[Lactobacillus_Fermentation|100% Lactobacillus Fermentation]].
===Primary/Secondary Metabolites===

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