Chemistry:Vinegar

From HandWiki
(Redirected from Chemistry:Spirit vinegar)
Short description: Liquid consisting mainly of acetic acid and water
A variety of flavored vinegars, for culinary use, on sale in France

Vinegar is an aqueous solution of acetic acid and trace compounds that may include flavorings. Vinegar typically contains from 5% to 8% acetic acid by volume.[1] Usually, the acetic acid is produced by a double fermentation, converting simple sugars to ethanol using yeast, and ethanol to acetic acid using acetic acid bacteria.[2] Many types of vinegar are made, depending on source materials. The product is now mainly used in the culinary arts as a flavorful, acidic cooking ingredient, or in pickling. Various types are used as condiments or garnishes, including balsamic vinegar and malt vinegar.

As the most easily manufactured mild acid, it has a wide variety of industrial and domestic uses, including functioning as a household cleaner.[1]

Etymology

Fast aerobic fermentation stainless steel vessels

The word "vinegar" arrived in Middle English from Old French (vyn egre; sour wine), which in turn derives from Latin: vīnum (wine) + ācre (neuter gender of ācer, sour).[1][3] The word "acetic" derives from Latin acētum (vinegar, or more properly vinum acetum: "wine turned sour").[4]

History

While vinegar making may be as old as alcoholic brewing, the first documented evidence of vinegar making and use was by the ancient Babylonians around 3000 BC.[5] They primarily made vinegar from dates, figs, and beer and used it for both culinary and medicinal purposes. Traces of it also have been found in Egyptian urns. In East Asia, the Chinese began professionalizing vinegar production in the Zhou dynasty.[6] The book Zhou Li mentions that many noble or royal households had a "vinegar maker" as a specialized occupation. Most vinegar-making then was concentrated in what is now Shanxi province near the city of Taiyuan, which remains a famous vinegar-making region today. Many Chinese kinds of vinegar and their uses for culinary and medicinal purposes were written down in the agricultural manual Qimin Yaoshu (齊民要術).[6]

The Greeks and Romans frequently used vinegar made from wine. The Spartans had vinegar as a part of their traditional broth melas zomos. The Roman Columella described the ingredients and process for making several types of vinegar in his work Res Rustica.[6]

In the late Middle Ages, vinegar making was slowly being professionalized in Europe, with the French city of Orléans becoming particularly famous for the quality of its vinegar through a formalized fermentation and aging process, which became known as the Orléans process.[5][6] During this time, malt vinegar also began to develop in England, where it was first known as alegar.[7] Balsamic vinegar also began its evolution in the Duchy of Modena in Italy, though it would not become widely known until the Napoleonic Wars after being sold abroad by French troops.[8]

In the 19th century, vinegar production underwent many dramatic changes, such as rapid industrialization and scientific analysis. Karl Sebastian Schüzenbach invented the first large-scale industrial process for vinegar production in the Kingdom of Baden in 1823.[6] Known as the packed generator, it circulated alcohol over beechwood shavings to reduce fermentation times from several months down to 1–2 weeks. This process also facilitated the rise of vinegar made from pure alcohol called spirit vinegar or distilled white vinegar. Japan also began industrializing vinegar production during the last days of the Tokugawa shogunate, when Matazaemon Nakano, a man from a traditional sake brewing family, discovered that sake lees could be used to make rice vinegar. This helped provide ample vinegar for the burgeoning popularity of sushi in Japan. The company he founded, now known as Mizkan, is headquartered in Handa (near Nagoya) and is the largest vinegar producer in the world.[6]

Meanwhile, vinegar fermentation became understood as a natural and biological process. Louis Pasteur made the decisive discovery that a special type of bacteria, later known as acetic acid bacteria, was the agent of fermentation for vinegar production. [9]

In the 20th century, vinegar production was again revolutionized by the invention of the submerged fermentation process that cut production times down to 1–2 days.[10] This allowed the mass production of cheap vinegar around the world.

Vinegar was formerly also called eisel.

Chemistry

The conversion of ethanol (CH
3
CH
2
OH
) and oxygen (O
2
) to acetic acid (CH
3
COOH
) takes place by the following reaction:[11]

[math]\ce{ CH3CH2OH + O2 -> CH3COOH + H2O }[/math]

Polyphenols

Vinegar contains numerous flavonoids, phenolic acids, and aldehydes,[12] which vary in content depending on the source material used to make the vinegar, such as orange peel or various fruit juice concentrates.[13][14]

Production

Commercial vinegar is produced either by a fast or a slow fermentation process. In general, slow methods are used in traditional vinegars, where fermentation proceeds over the course of a few months to a year. The longer fermentation period allows for the accumulation of a nontoxic slime composed of acetic acid bacteria and their cellulose biofilm, known as mother of vinegar.

Fast methods add the aforementioned mother of vinegar as a bacterial culture to the source liquid before adding air to oxygenate and promote the fastest fermentation. In fast production processes, vinegar may be produced in 1–3 days.

Varieties

The source materials for making vinegar are varied – different fruits, grains, alcoholic beverages, and other fermentable materials are used.[1]

Fruit

Raisin vinegar

Fruit vinegars are made from fruit wines, usually without any additional flavoring. Common flavors of fruit vinegar include apple, blackcurrant, raspberry, quince, and tomato. Typically, the flavors of the original fruits remain in the final product. Most fruit vinegars are produced in Europe, where a market exists for high-priced vinegars made solely from specific fruits (as opposed to nonfruit vinegars that are infused with fruits or fruit flavors).[15] Several varieties are produced in Asia. Persimmon vinegar, called gam sikcho, is common in South Korea . Jujube vinegar, called zaocu or hongzaocu, and wolfberry vinegar are produced in China.

Persimmon vinegar produced in South Korea

Apple cider vinegar is made from cider or apple must, and has a brownish-gold color. It is sometimes sold unfiltered and unpasteurized with the mother of vinegar present. It can be diluted with fruit juice or water or sweetened (usually with honey) for consumption.

A byproduct of commercial kiwifruit growing is a large amount of waste in the form of misshapen or otherwise-rejected fruit (which may constitute up to 30% of the crop) and kiwifruit pomace. One of the uses for pomace is the production of kiwifruit vinegar, produced commercially in New Zealand since at least the early 1990s, and in China in 2008.[16][17]

Vinegar made from raisins is used in cuisines of the Middle East. It is cloudy and medium brown in color, with a mild flavor. Vinegar made from dates is a traditional product of the Middle East, and used in Eastern Arabia.[18][19]

Palm

Coconut vinegar from the Philippines

Coconut vinegar, made from fermented coconut sap or coconut water, is used extensively in Southeast Asian cuisine (notably the Philippines, where it is known as sukang tuba), as well as in some cuisines of India and Sri Lanka, especially Goan cuisine. A cloudy, white liquid, it has a particularly sharp, acidic taste with a slightly yeasty note.[20]

In the Philippines, other types of vinegar are made from palm sap. Like coconut vinegar, they are by-products of tubâ (palm wine) production. Two of the most widely produced are nipa palm vinegar (sukang nipa or sukang sasa) and kaong palm vinegar (sukang kaong or sukang irok). Along with coconut and cane vinegar, they are the four main traditional vinegar types in the Philippines and are an important part of Filipino cuisine.[21] Nipa palm vinegar is made from the sap of the leaf stalks of nipa palm. Its flavor has notes of citrus and imparts a distinctly musky aroma.[22][20] Kaong palm vinegar is made from the sap of flower stalks of the kaong palm. It is sweeter than all the other Philippine vinegar types and is commonly used in salad dressing.[21] Vinegar from the buri palm sap is also produced, but not with the same prevalence as coconut, nipa, and kaong vinegars.[23] Kaong palm vinegar is also produced in Indonesia and Malaysia, though it is not as prevalent as in the Philippines because the palm wine industry is not as widespread in these Muslim-majority countries.[24][25]

Balsamic

Balsamic vinegar is an aromatic, aged vinegar produced in the Modena and Reggio Emilia provinces of Italy. The original product — traditional balsamic vinegar — is made from the concentrated juice, or must, of white Trebbiano grapes. It is dark brown, rich, sweet, and complex, with the finest grades being aged in successive casks made variously of oak, mulberry, chestnut, cherry, juniper, and ash wood. Originally a costly product available to only the Italian upper classes, traditional balsamic vinegar is marked tradizionale or "DOC" to denote its protected designation of origin status, and is aged for 12 to 25 years. A cheaper non-DOC commercial form described as aceto balsamico di Modena (balsamic vinegar of Modena)[26] became widely known and available around the world in the late 20th century, typically made with concentrated grape juice mixed with a strong vinegar, then coloured and slightly sweetened with caramel and sugar.

Balsamic vinegar is made from a grape product. It contains no balsam, though was traditionally aged in balsam as one of the steps. A high acidity level is somewhat hidden by the sweetness of the other ingredients, making it mellow. In terms of its nutrition content, balsamic vinegar contains the carbohydrates of grape sugars (some 17% of total composition), making it some five times higher in caloric content than typical distilled or wine vinegar.[27]

Cane

Vinegar made from sugarcane juice is traditional to and is most popular in the Philippines , in particular in the northern Ilocos Region (where it is called sukang Iloko or sukang basi). It ranges from dark yellow to golden brown in color, and has a mellow flavor, similar in some respects to rice vinegar, though with a somewhat "fresher" taste. Because it contains no residual sugar, it is no sweeter than any other vinegar. In the Philippines, it often is labeled as sukang maasim (Tagalog for "sour vinegar").

Cane vinegars from Ilocos are made in two different ways. One way is to simply place sugar cane juice in large jars; it becomes sour by the direct action of bacteria on the sugar. The other way is through fermentation to produce a traditional wine known as basi. Low-quality basi is then allowed to undergo acetic acid fermentation that converts alcohol into acetic acid. Contaminated basi also becomes vinegar.

Cane vinegar is also produced in other countries, like France and the United States. A white variation has become quite popular in Brazil in recent years, where it is the cheapest type of vinegar sold. It is now common for other types of vinegar (made from wine, rice, and apple cider) to be sold mixed with cane vinegar to lower the cost.[citation needed]

Sugarcane sirka is made from sugarcane juice in parts of northern India. During summer, people put cane juice in earthenware pots with iron nails. The fermentation takes place due to the action of wild yeast. The cane juice is converted to vinegar having a blackish color (from ferrous oxide and acetate). The sirka is used to preserve pickles and for flavoring curries.

Grains

Malt vinegar made from ale, also called "alegar",[28] is made by malting barley, causing the starch in the grain to turn to maltose. Then an ale is brewed from the maltose and allowed to turn into vinegar, which is then aged.[28] It is typically light-brown in color. Malt vinegar (along with salt) is a traditional seasoning for fish and chips, and in the United Kingdom and Canada, a popular seasoning for French fries in general. Some fish and chip shops replace it with non-brewed condiment. Salt and vinegar are combined as a common, traditional flavouring for crisps;[29][30][31] in some varieties this involves the conversion of the vinegar to sodium acetate or sodium diacetate, to avoid dampening the product in manufacture.[32]

Chinese black vinegar is an aged product made from rice, wheat, millet, sorghum, or a combination thereof. It has an inky black color and a complex, malty flavor. The recipe is not fixed, so some Chinese black vinegars may contain added sugar, spices, or caramel color. The most popular variety, Zhenjiang vinegar, originates in the city of Zhenjiang in Jiangsu Province, eastern China.[33] Shanxi mature vinegar is another popular type of Chinese vinegar that is made exclusively from sorghum and other grains. Nowadays in Shanxi province, some traditional vinegar workshops still produce handmade vinegar with a high acidity that is aged for at least five years. Only the vinegars made in Taiyuan and some counties in Jinzhong and aged for at least three years are considered authentic Shanxi mature vinegar according to the latest national standard. A somewhat lighter form of black vinegar, made from rice, is produced in Japan, where it is called kurozu.

Rice vinegar is most popular in the cuisines of East and Southeast Asia. It is available in "white" (light yellow), red, and black varieties. The Japanese prefer a light rice vinegar for the preparation of sushi rice and salad dressings. Red rice vinegar traditionally is colored with red yeast rice. Black rice vinegar (made with black glutinous rice) is most popular in China, and it is also widely used in other East Asian countries. White rice vinegar has a mild acidity with a somewhat "flat" and uncomplex flavor. Some varieties of rice vinegar are sweetened or otherwise seasoned with spices or other added flavorings.

Spirits

Sherry vinegar

The term "spirit vinegar" is sometimes reserved for the stronger variety (5 to 24%[34] acetic acid) made from sugar cane or from chemically produced acetic acid.[35] To be called "spirit vinegar", the product must come from an agricultural source and must be made by "double fermentation". The first fermentation is sugar to alcohol and the second is alcohol to acetic acid. Product made from synthetically produced acetic acid cannot be called "vinegar" in the UK, where the term allowed is "non-brewed condiment".

Sherry vinegar is linked to the production of sherry wines of Jerez. Dark mahogany in color, it is made exclusively from the acetic fermentation of wines. It is concentrated and has generous aromas, including a note of wood, ideal for vinaigrettes and flavoring various foods.[36] Wine vinegar is made from red or white wine, and is the most commonly used vinegar in Southern and Central Europe, Cyprus, and Israel. As with wine, the range in quality is considerable. Better-quality wine vinegars are matured in wood for up to two years, and exhibit a complex, mellow flavor. Wine vinegar tends to have a lower acidity than white or cider vinegars. More expensive wine vinegars are made from individual varieties of wine, such as champagne, sherry, or pinot gris.

The term "distilled vinegar" as used in the United States (called "spirit vinegar" in the UK, "white vinegar" in Canada[37]) is something of a misnomer because it is not produced by distillation, but by fermentation of distilled alcohol. The fermentate is diluted to produce a colorless solution of 5 to 8% acetic acid in water, with a pH of about 2.6. This is variously known as distilled spirit, "virgin" vinegar,[38] or white vinegar, and is used in cooking, baking, meat preservation, and pickling, as well as for medicinal, laboratory, and cleaning purposes.[35] The most common starting material in some regions, because of its low cost, is barley malt,[39] or in the United States, corn. It is sometimes derived from petroleum.[40] Distilled vinegar is used predominantly for cooking, although in the UK it is used as an alternative to brown or light malt vinegar. White distilled vinegar can also be used for cleaning, and some types are sold specifically for this purpose.

Culinary uses

Vinegar is commonly used in food preparation,[1] in particular as pickling liquids, vinaigrettes, and other salad dressings. It is an ingredient in sauces, such as hot sauce, mustard, ketchup, and mayonnaise. Vinegar is sometimes used in chutneys. It is often used as a condiment on its own, or as a part of other condiments. Marinades often contain vinegar. Soups sometimes have vinegar added to them, as is the case with hot and sour soup. In terms of its shelf life, vinegar's acidic nature allows it to last indefinitely without the use of refrigeration; it is essentially already "spoiled".[41]

Beverages

A beverage made from apple vinegar in China

Several beverages are made using vinegar, for instance posca in ancient Rome. The Ancient Greece drink oxymel is made from vinegar and honey, and sekanjabin is a traditional Persian drink similar to oxymel. Other preparations, known colloquially as "shrubs", range from simply mixing sugar water or honey water with small amounts of fruity vinegar, to making syrup by laying fruit or mint in vinegar for several days, then sieving off solid parts and adding considerable amounts of sugar. Some prefer to boil the "shrub" as a final step. These recipes have lost much of their popularity with the rise of carbonated beverages, such as soft drinks.

Diet and metabolism

Preliminary research indicates that consuming 2–4 tablespoons of vinegar may cause small reductions in post-meal levels of blood glucose and insulin in people with diabetes.[42]

Nutrition

Distilled or red wine vinegar is 95% water, with no fat or protein.[43] In a 100 mL (3 12 US fl oz) reference amount, distilled vinegar supplies 75 kJ (18 kcal) of food energy and no micronutrients in significant content.[43] The composition (and absence of nutrient content) for red wine vinegar and apple cider vinegar are the same, whereas balsamic vinegar is 77% water with 17% carbohydrates, 370 kJ (88 kcal) per 100 mL, and contains no fat, protein, or micronutrients.[27]

In folk medicine

Since antiquity, folk medicine treatments have used vinegar, but no conclusive evidence from clinical research supports health claims of benefits for diabetes, weight loss, cancer, or use as a probiotic.[1] A systematic review and meta-analysis later suggested it could help type 2 diabetics reduce insulin and glucose after meals.[44] Some treatments with vinegar pose risks to health.[45] Esophageal injury by apple cider vinegar has been reported, and because vinegar products sold for medicinal purposes are neither regulated nor standardized, such products may vary widely in content and acidity.[46]

Cleaning

White vinegar is often used as a household cleaning agent.[1] For most uses, dilution with water is recommended for safety and to avoid damaging the surfaces being cleaned. Because it is acidic, it can dissolve mineral deposits from glass, coffee makers, and other smooth surfaces.[47] Vinegar is known as an effective cleaner of stainless steel and glass. Malt vinegar sprinkled onto crumpled newspaper is a traditional, and still-popular, method of cleaning grease-smeared windows and mirrors in the United Kingdom.[48]

Vinegar can be used for polishing copper, brass, bronze or silver. It is an excellent solvent for cleaning epoxy resin as well as the gum on sticker-type price tags. It has been reported as an effective drain cleaner.[49]

The use of vinegar in dishwashers and washing machines can cause damage to their rubber seals and hoses, leading to leaks. According to testing done by Consumer Reports, vinegar is ineffective as a rinse aid and in removing hard-water film while used in a dishwasher. According to Brian Sansoni, chief spokesperson for the American Cleaning Institute, vinegar "isn't very useful with stains that have already set into clothing, including food stains and bloodstains."[50][51] Other household items and surfaces that can be damaged by vinegar include flooring, stone countertops, knives, the screens of electronic devices, clothes iron water tanks, and rubber components of various small appliances. Common metals that can be damaged by vinegar include aluminum, copper, and lower-quality grades of stainless steel often used in small appliances.[50]

Herbicide and sting relief

Twenty percent acetic acid vinegar can be used as a herbicide,[52] but acetic acid is not absorbed into root systems so the vinegar will only kill the top growth and perennial plants may reshoot.[53]

Applying vinegar to common jellyfish stings deactivates the nematocysts, although not as effectively as hot water.[54] This also applies to the Portuguese man o' war, which, although generally considered to be a jellyfish, is not (it is a siphonophore).[55]

Reactions, byproducts, and regulation

Most commercial vinegar solutions available to consumers for household use do not exceed 5%. Solutions above 10% require careful handling, as they are corrosive and damaging to the skin.[56]

When a bottle of vinegar is opened, mother of vinegar may develop. It is considered harmless and can be removed by filtering.[57]

Vinegar eels (Turbatrix aceti), a form of nematode, may occur in some forms of vinegar unless the vinegar is kept covered. These feed on the mother of vinegar and can occur in naturally fermenting vinegar.[58]

Some countries prohibit the sale of vinegar over a certain percentage of acidity. As an example, the government of Canada limits the acetic acid of vinegars to between 4.1% and 12.3%, unless it is sold only for manufacturing use and identified as such.[59]

When baking soda and vinegar are combined, the bicarbonate ion of the baking soda reacts with acetic acid to form carbonic acid, which decomposes into carbon dioxide and water, completing the carbon cycle. Sodium acetate remains in solution with the water contained in the vinegar.[60]

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 "Vinegar". TH Chan School of Public Health, Harvard University. 1 October 2019. https://www.hsph.harvard.edu/nutritionsource/food-features/vinegar/. 
  2. Nakayama T (1959). "Studies on acetic acid-bacteria I. Biochemical studies on ethanol oxidation". J Biochem 46 (9): 1217–25. http://jb.oxfordjournals.org/content/46/9/1217.extract. 
  3. "Definition of vinegar in English by Oxford Dictionaries". https://en.oxforddictionaries.com/definition/vinegar. 
  4. "acetic | Etymology, origin and meaning of acetic by etymonline". https://www.etymonline.com/word/acetic. 
  5. 5.0 5.1 Bourgeois, Jacques; Barja, François (December 2009). "The history of vinegar and its acetification systems". Archives des Sciences 62 (2): 147–160. https://www.unige.ch/sphn/Publications/ArchivesSciences/AdS%202004-2015/AdS%202009%20Vol%2062%20Fasc%202/147-160_05_Bourgeois_62_2.pdf. Retrieved 28 January 2019. 
  6. 6.0 6.1 6.2 6.3 6.4 6.5 Smith, Reginald (2019). Vinegar, the Eternal Condiment. Southport, NC: Spikehorn Press. pp. 29–31. ISBN 978-1-943015-03-0. 
  7. Smith, Reginald (2019). "From Alegar to Sarson's: A History of Malt Vinegar". Petits Propos Culinaires 113: 95–119. 
  8. Giudici, P.; Lemmetti, F.; Mazza, S. (2015). Balsamic Vinegars. Tradition, Technology, Trade.. Cham: Springer. ISBN 978-3319137575. 
  9. Berche, P. (October 2012). "Louis Pasteur, from crystals of life to vaccination". Clinical Microbiology and Infection 18: 1–6. doi:10.1111/j.1469-0691.2012.03945.x. PMID 22882766. 
  10. Yun, Jeong Hyun; Kim, Jae Ho; Lee, Jang-Eun (2019-04-03). "Surface Film Formation in Static-Fermented Rice Vinegar: A Case Study". Mycobiology 47 (2): 250–255. doi:10.1080/12298093.2019.1575585. ISSN 1229-8093. PMID 31448145. 
  11. Saladin, Kenneth S. (2015), Anatomy & Physiology: The Unity of Form and Function, McGraw-Hill Education, p. 55, ISBN 978-9814646437 
  12. Cerezo, Ana B.; Tesfaye, Wendu; Torija, M. Jesús; Mateo, Estíbaliz; García-Parrilla, M. Carmen; Troncoso, Ana M. (2008). "The phenolic composition of red wine vinegar produced in barrels made from different woods". Food Chemistry 109 (3): 606–615. doi:10.1016/j.foodchem.2008.01.013. 
  13. Cejudo-Bastante, C; Castro-Mejías, R; Natera-Marín, R; García-Barroso, C; Durán-Guerrero, E (2016). "Chemical and sensory characteristics of orange based vinegar". Journal of Food Science and Technology 53 (8): 3147–3156. doi:10.1007/s13197-016-2288-7. PMID 27784909. 
  14. Coelho, E; Genisheva, Z; Oliveira, J. M; Teixeira, J. A; Domingues, L (2017). "Vinegar production from fruit concentrates: Effect on volatile composition and antioxidant activity". Journal of Food Science and Technology 54 (12): 4112–4122. doi:10.1007/s13197-017-2783-5. PMID 29085154. 
  15. "What is Fruit Vinegar?". vinegarbook.net. http://www.vinegarbook.net/Fruit_vinegar.shtml. 
  16. "Biotechnology in New Zealand". http://www.apctt.org/publication/pdf/tm_dec_biotechnz.pdf. 
  17. "The Vinegar Institute". Versatilevinegar.org. 2008-10-20. http://www.versatilevinegar.org/latestnews_2008_12.html. 
  18. Das, Bhagwan; Sarin, J. L. (1936). "Vinegar from Dates". Industrial & Engineering Chemistry 28 (7): 814. doi:10.1021/ie50319a016. 
  19. Forbes, Robert James (1971). "Studies in Ancient Technology, Volume 3". Brill Publishers. https://books.google.com/books?id=Y84UAAAAIAAJ&pg=PA78. Retrieved 8 January 2016. 
  20. 20.0 20.1 Edgie Polistico (2017). Philippine Food, Cooking, & Dining Dictionary. Anvil Publishing, Incorporated. ISBN 9786214200870. https://books.google.com/books?id=iz8_DwAAQBAJ&q=Arroz+caldo. [yes|permanent dead link|dead link}}]
  21. 21.0 21.1 Lim-Castillo, Pia (2006). "Traditional Philippine Vinegars and their Role in Shaping the Culinary Culture". in Hosking, Richard. Authenticity in the Kitchen. Proceedings of the Oxford Symposium on Food and Cookery 2005. Prospect Books. pp. 296–298. ISBN 9781903018477. https://books.google.com/books?id=HflTVd898PAC. 
  22. Lumpia, Burnt (2009-05-17). "I'm Gonna Git You Suka (Filipino Vinegar)". Burntlumpiablog.com. http://burntlumpiablog.com/2009/05/suka-filipino-vinegar.html. 
  23. Dagoon, Jesse D. (1989). Applied nutrition and food technology. Rex Book Store. p. 273. ISBN 9789712305054. 
  24. Siebert, Stephen F. (1999). "Where There is no Beer: Arenga pinnata and Sagueir in Sulawesi, Indones". Palms 43 (4): 177–181. http://www.palms.org/palmsjournal/1999/vol43n4p177-181.pdf. Retrieved 23 December 2018. 
  25. "Toddy Palm – Sugar Palm". https://www.clovegarden.com/ingred/pm_toddy.html. 
  26. "Balsamic vinegar". BBC Good Food. http://www.bbcgoodfood.com/glossary/balsamic-vinegar. 
  27. 27.0 27.1 "Nutrition facts for balsamic vinegar". Nutritiondata.com, Conde Nast; from the US Department of Agriculture National Nutrient Database, standard reference 21. 2018. https://nutritiondata.self.com/facts/spices-and-herbs/9744/2. 
  28. 28.0 28.1 "Alegar". Oxford Dictionaries, Oxford University Press. 2018. https://en.oxforddictionaries.com/definition/alegar. 
  29. "Joe 'Spud' Murphy: The Man Who Gave Potato Chips Flavor". 20 April 2012. http://www.huffingtonpost.com/2012/04/20/joe-spud-murphy-the-man-w_n_1437270.html. 
  30. "31 Wacky and Weird Flavors of British Potato Crisps". BBC America. http://www.bbcamerica.com/anglophenia/2013/04/british-crisps. 
  31. "Walkers launches six new limited-edition crisp flavours to mark 70th anniversary". Independent. https://www.independent.co.uk/life-style/food-and-drink/walkers-limited-edition-crisp-flavours-launch-700th-anniversary-cheese-fondue-coronation-chicken-a8257701.html. 
  32. Austen, Ian (8 June 2018). "The Secret Story of Salt and Vinegar Chips: the Canada Letter". The New York Times. https://www.nytimes.com/2018/06/08/world/canada/the-secret-story-of-salt-and-vinegar-chips-the-canada-letter.html. 
  33. "AsianWeek.com". http://news.asianweek.com/news/view_article.html?article_id=dcd86dc7c83d91f2079714cf8e3a053a. 
  34. "Perstorps 24% Acetic Vinegar 300ml". https://www.amazon.co.uk/Perstorps-24-Acetic-Vinegar-300ml/dp/B072ZYZQHQ/ref=pd_sbs_1?pd_rd_w=Ve8po&pf_rd_p=448c740b-5b83-47fd-809b-6bedb049b25c&pf_rd_r=QDSGPDWTTZ2N0RYRMY0R&pd_rd_r=67ddd172-5c57-4c94-9edc-4bf876ad5ad4&pd_rd_wg=XdX0R&pd_rd_i=B072ZYZQHQ&psc=1. 
  35. 35.0 35.1 Sinclair C, International Dictionary of Food and Cooking, Peter Collin Publishing, 1998 ISBN:0-948549-87-4[page needed]
  36. Clutton, Angela (7 March 2019). The vinegar cupboard: recipes and history of an everyday ingredient. London. ISBN 9781472958099. OCLC 1100963349. 
  37. "List of Ingredients and Allergens: Requirements; Exemptions, Prepackaged Products that Do Not Require a List of Ingredients; Standardized vinegars B.01.008(2)(g), FDR". Canadian Food Inspection Agency. 29 July 2016. http://www.inspection.gc.ca/food/labelling/food-labelling-for-industry/list-of-ingredients-and-allergens/eng/1383612857522/1383612932341?chap=1. 
  38. Allgeier RJ et al., Newer Developments in Vinegar Manufacture, 1960 ("manufacture of white or spirit vinegar"), in Umbreit WW, Advances in Microbiology: Volume 2, Elsevier/Academic Press Inc., ISBN:0-12-002602-3, accessed at Google Books 2009-04-22[page needed]
  39. Bateman, Michael (2 May 2016). "Bliss and vinegar - why malt makes a pretty pickle: It's time for a revival of a very British condiment". The Independent, Independent Digital News & Media, London, UK. https://www.independent.co.uk/arts-entertainment/food-bliss-and-vinegar-why-malt-makes-a-pretty-pickle-its-time-for-a-revival-of-a-very-british-1541895.html. 
  40. "CPG Sec. 555.100 Alcohol; Use of Synthetic Alcohol in Foods". Fda.gov. 2014-09-18. https://www.fda.gov/ICECI/ComplianceManuals/CompliancePolicyGuidanceManual/ucm074550.htm. 
  41. "Shelf Life of Vinegar". Eatbydate.com. http://www.eatbydate.com/other/condiments/how-long-does-vinegar-last/. 
  42. Shishehbor, F; Mansoori, A; Shirani, F (2017). "Vinegar consumption can attenuate postprandial glucose and insulin responses; a systematic review and meta-analysis of clinical trials". Diabetes Research and Clinical Practice 127: 1–9. doi:10.1016/j.diabres.2017.01.021. PMID 28292654. https://www.diabetesresearchclinicalpractice.com/article/S0168-8227(16)30851-8/fulltext. Retrieved 26 May 2018. 
  43. 43.0 43.1 "Nutrition facts for distilled vinegar". Nutritiondata.com, Conde Nast; from the US Department of Agriculture National Nutrient Database, standard reference 21. 2018. https://nutritiondata.self.com/facts/spices-and-herbs/7162/2. 
  44. Cheng, L. J.; Jiang, Y.; Wu, V. X.; Wang, W. (2020). ""A systematic review and meta-analysis: Vinegar consumption on glycaemic control in adults with type 2 diabetes mellitus"". Journal of Advanced Nursing 76 (2): 459–474. doi:10.1111/jan.14255. PMID 31667860. 
  45. Johnston, Carol S.; Gaas, Cindy A. (2006). "Vinegar: medicinal uses and antiglycemic effect". MedGenMed 8 (2): 61. PMID 16926800. PMC 1785201. http://www.medscape.com/viewarticle/531649. Retrieved 9 June 2006. 
  46. Hill, L; Woodruff, L; Foote, J; Barreto-Alcoba, M (2005). "Esophageal Injury by Apple Cider Vinegar Tablets and Subsequent Evaluation of Products". Journal of the American Dietetic Association 105 (7): 1141–4. doi:10.1016/j.jada.2005.04.003. PMID 15983536. 
  47. "My Environment: Cleaning Products" , Ontario Ministry of the Environment
  48. "Trade Secrets: Betty's Tips" , BBC/Lifestyle/Homes/Housekeeping. Retrieved 2009-04-22.
  49. "95+ Household Uses for Vinegar | Reader's Digest". Rd.com. http://www.rd.com/home/150-household-uses-for-vinegar. 
  50. 50.0 50.1 Santanachote, Perry; Yao, Daphne (5 February 2020). "9 Things You Should Never Clean With Vinegar". Consumer Reports. https://www.consumerreports.org/home-garden/cleaning/things-you-should-never-clean-with-vinegar-distilled-white-vinegar-a3336471803/. 
  51. "How to clean your LG Washing Machine: 15 things you should know". LG Electronics. https://www.lg.com/uk/lg-experience/helpful-hints/how-to-clean-washing-machine. "Make sure not to do this too frequently, especially near the seal of the machine as the vinegar can corrode the rubber seal." 
  52. "Spray Weeds With Vinegar?". Ars.usda.gov. http://ars.usda.gov/is/pr/2002/020515.htm. 
  53. "Vinegar as herbicide". Cahe.nmsu.edu. 2004-04-10. http://www.cahe.nmsu.edu/CES/yard/2004/041004.html. 
  54. Nomura, J; Sato, RL; Ahern, RM; Snow, JL; Kuwaye, TT; Yamamoto, LG (2002). "A randomized paired comparison trial of cutaneous treatments for acute jellyfish (Carybdea alata) stings". The American Journal of Emergency Medicine 20 (7): 624–6. doi:10.1053/ajem.2002.35710. PMID 12442242. 
  55. "UH scientists scrutinize first aid for man o' war stings". hawaii.edu. https://www.hawaii.edu/news/2017/05/02/man-o-war-stings-first-aid/. 
  56. "Conquer Weeds with Vinegar?". Hort.purdue.edu. 2006-03-24. http://www.hort.purdue.edu/ext/vinegar.html. 
  57. "Vinegar Information". Reinhart Foods. 2004-01-01. http://www.reinhartfoods.com/vinegarstats.asp. 
  58. "FDA: Sec. 525.825 Vinegar, Definitions – Adulteration with Vinegar Eels (CPG 7109.22)". Food and Drug Administration. 2009-07-27. https://www.fda.gov/ICECI/ComplianceManuals/CompliancePolicyGuidanceManual/ucm074471.htm. 
  59. "Departmental Consolidation of the Food and Drugs Act and the Food and Drug Regulations – Part B – Division 19". Health Canada. March 2003. http://laws-lois.justice.gc.ca/PDF/C.R.C.,_c._870.pdf. 
  60. "Kitchen Chemistry: The Chemical Reaction Powered Car". https://engineering.oregonstate.edu/momentum/k12/march04/index.html. 

External links