Dark chocolate
Dark chocolate is a form of chocolate made of cocoa solids, cocoa butter and sugar. Without added sweetener, dark chocolate is known as bitter chocolate or unsweetened chocolate.[1][2] Dark chocolate, above white and milk chocolate, is valued for claimed, albeit unsupported health benefits and for being a sophisticated choice of chocolate. Like milk and white chocolate, dark chocolate is used to make chocolate bars and as a coating for confectionery.
Dark chocolate gained much of its reputation from an effort by French chocolatiers in the late 20th century to assert a preference for dark chocolate in the French national palate, against milk chocolate. As this palate was exported to other countries, such as the United States, the associated values of terroir, bean-to-bar chocolate making and gourmet chocolates followed. Due to the high cocoa percentage, dark chocolates can contain particularly high amounts of heavy metals such as lead and cadmium. As of 2024, the dark chocolate market was projected to grow by over 9% per annum for the next four years, particularly driven by growth in the European market.
Dark chocolate has a particularly bitter and intense flavor, and compared to other types of chocolate, is reliant on the quality of the cocoa beans and cocoa butter used as ingredients. Making dark chocolate involves a process of mixing, refining, conching, and standardizing. Government and industry standards of what products may be labeled "dark chocolate" vary by country and market. Dark chocolate is also referred to as plain chocolate, and varieties include bittersweet, and semisweet chocolate.[3]
History
[edit]After the domestication of the cacao tree over 5000 years ago,[4] indigenous Americans began producing cacao beverages. While it is unclear when non-alcoholic cacao beverages were first consumed, some academics have claimed this occurred by 1650 BC.[5][6] When the Spanish conquistadors first tasted chocolate around 1520,[7] there were many different variations of cacao beverages, of which one, made in the Guatemala, was referred to as chocolate.[8] After this area became a dominant producer of cacao in the later 16th century, chocolate became the word for all cacao drinks.[9] Europeans adapted chocolate with Old World ingredients, including sugar,[10] and after bringing it to Europe, it spread and became popular among the elite.[11] Over the following centuries it became simpler and less spiced.[12]
In 1828, Coenraad Johannes van Houten received a patent for the manufacturing process for making Dutch cocoa, removing cocoa butter from cocoa liquor, and creating the potential for mass production.[13] In 1847, the first modern chocolate bar was created by the British chocolate maker Fry's,[14] and over the next century it would be improved with a series of new techniques including conching and tempering.[15] With the invention of the modern milk chocolate in 1875, the term dark chocolate was coined to distinguish the traditional chocolate from the new form.[16] By 1899 in the United States, dark chocolate was considered masculine and inappropriate for children.[17] During the World Wars, dark chocolate was fortified with vitamins A, B1, B2, C, D, niacin and sometimes calcium to prevent malnutrition.[18] Beginning in the 1930s and 1960s respectively, British chocolate makers Rowntree's and Cadbury began associating their dark chocolate products with upper-class women in their advertising.[19] This was a response to market research of the time claiming dark chocolate was favored by the higher social classes, compared to a working class who preferred milk chocolate.[20]
During the late 1970s, when the price of cocoa was very low,[21] the palate of French connoisseurs moved strongly in favor of dark chocolates and against milk chocolate after advocacy from chocolatier Robert Linxe.[22] The following decade, a nationwide campaign in France aimed to move the public to appreciate locally produced dark chocolates with sophisticated flavor. Taste makers and producers worked together to create flavor standards using concepts borrowed from wine connoisseurship.[23] This was motivated by foreign firms capturing swathes of the French confectionary market at the expense of local chocolatiers.[24] At the same time, high-quality dark chocolate began to be attributed psychoactive and possibly aphrodisiac qualities due to its theobromine content.[25]
In the 1990s, French flavor standards, having gained mass uptake, were exported to the United States.[23] These standards, laid out in published guides and chocolate tastings, evoked terroir, bean varietals and estate growths. Chocolates with high cocoa content and novel flavors (such as pepper, ginger and fennel) were promoted.[26] These chocolates were significantly more expensive than the chocolates that had previously consumed.[27] By the late 2000s, a preference for dark chocolate was seen as the sign of a "discriminating palate" in the United States.[28]
Characteristics
[edit]Dark chocolate is harder than milk chocolate,[29] due to its particle size and fat and lecithin content.[30] Dark chocolate has a more bitter and intense flavor than milk chocolate, due to a higher proportion of cocoa mass,[31] which contains theobromine, caffeine, l-leucine, and catechin flavonoids.[32] Compared to other types of chocolate, the quality of cocoa beans is more important for flavor,[33] and the most highly flavored cocoa butters are reserved for dark chocolates.[34] Dark chocolate can exhibit burnt, chocolate, smoky, nutty and sour flavors, among others. These variations are particularly noticeable among dark chocolates using single-origin cocoa beans.[31] While the appeal of the taste of sugary and milky milk chocolate is often immediately apparent, dark chocolate's more complex flavors can lead to it being more of an acquired taste.[35]
Dark chocolate contains 60 compounds contributing to its flavor, with 33 of these considered particularly important. Basic and neutral compounds are responsible for a "chocolate" flavor, while acidic compounds contributed more sweet flavors. Some of these compounds are the product of Maillard reactions.[36] Some manufacturers age dark chocolate to improve flavor. This is done at a minimum for a few weeks, and it is debated whether ageing for more time is desirable.[37] The antioxidants in cocoa solids are responsible for preserving chocolate;[38] dark chocolate has a shelf life of about two years, longer than milk chocolate.[39] Dark chocolate can range in color from mahogany to black.[40]
Health effects
[edit]Nutrition
[edit]Nutritional value per 100 g (3.5 oz) | |||||||||||||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Energy | 2,500 kJ (600 kcal) | ||||||||||||||||||||||||||||||||||||||||||||||||||
45.9 g | |||||||||||||||||||||||||||||||||||||||||||||||||||
Sugars | 24 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
Dietary fiber | 10.9 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
42.6 g | |||||||||||||||||||||||||||||||||||||||||||||||||||
Saturated | 24.5 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
Trans | 0.03 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
Monounsaturated | 12.8 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
Polyunsaturated | 1.26 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
7.79 g | |||||||||||||||||||||||||||||||||||||||||||||||||||
| |||||||||||||||||||||||||||||||||||||||||||||||||||
Other constituents | Quantity | ||||||||||||||||||||||||||||||||||||||||||||||||||
Water | 1.37 g | ||||||||||||||||||||||||||||||||||||||||||||||||||
Caffeine | 80 mg | ||||||||||||||||||||||||||||||||||||||||||||||||||
Cholesterol | 3 mg | ||||||||||||||||||||||||||||||||||||||||||||||||||
Theobromine | 802 mg | ||||||||||||||||||||||||||||||||||||||||||||||||||
†Percentages estimated using US recommendations for adults,[41] except for potassium, which is estimated based on expert recommendation from the National Academies.[42] |
Nutrients in dark chocolate include 46% carbohydrates, 43% fats, 8% protein, and 1% water (table). In a 100-gram (3+1⁄2-ounce) reference serving, dark chocolate provides 2,500 kilojoules (600 kilocalories) of food energy, and is a rich source (defined as more than 20% of the Daily Value, DV) of several dietary minerals, including copper, iron, magnesium, manganese, phosphorus, potassium, and zinc (table).
Research
[edit]While dark chocolate is popularly considered a health food,[43] as of 2017,[update] no high-quality clinical research had been conducted to evaluate the effects of compounds found in cocoa on physiological outcomes, such as blood pressure, for which only small (1–2 mmHg) changes resulted from short-term, high consumption of chocolate up to 105 grams and 670 milligrams of flavonols per day.[44]
Flavanols found in dark chocolate include the monomers catechin and epicatechin, and (to a lesser extent) the polymeric procyanidins, which remain under laboratory research.[44] To consume enough cocoa flavanols for the presumed effects claimed in some limited studies requires eating at least around 4.75 ounces (135 g) of dark chocolate a day, which also involves intake of significant amounts of sugar and saturated fats. The chocolate industry, and in particular Mars, Inc., has funded research to promote chocolate as a health food. As of 2018, Mars had funded more than 150 studies into cocoa flavanols since the 1980s. That year, they said they would no longer try to imply chocolate is a health food.[45]
A 2021 systematic review of the health effects of chocolate and cocoa found high-quality research had still not been performed to evaluate physiological outcomes. The only health effects observed were improvements in lipid profiles; control subjects showed no significant differences in terms of skin, cardiovascular, anthropometric, cognitive and quality of life outcomes.[46]
Metal content
[edit]Chocolate, particularly dark chocolate, may contain appreciable levels of toxic heavy metals, such as cadmium, which may be present naturally in the soil of cocoa plantations, particularly in Latin America.[47][48] For products containing over 50% cocoa, the European Commission has set a limit for cadmium of 0.8 mg/kg, while for chocolate containing between 30%–50% cocoa, the limit is 0.3 mg/kg.[47] After these limits came into enforcement in 2019, similar regulations were enforced in other jurisdictions across the world.[49] The state of California recommends a maximum daily intake of 4.1 micrograms of cadmium.[50]
A 2024 report analyzing dark chocolate and cocoa samples in the United States from 2014 to 2022 found that multiple samples exceeded Prop 65 levels for heavy metals: 43% of samples exceeding levels for lead, and 35% exceeding levels for cadmium.[51]
Manufacturing
[edit]Dark chocolate is mainly a combination of chocolate liquor, cocoa butter and sugar.[52] The basic process of making dark chocolate involves mixing, refining, conching and standardizing.[53] In the mixing stage, chocolate liquor is combined in a melanger with sugar and some cocoa butter, mixing until a paste is formed.[54] Milk fats are often added to dark chocolate to delay the formation of chocolate bloom; dark chocolate containing 1–2% milk fat experiences a delay in blooming.[55]
As long as the cocoa mass has been correctly milled, the refining process for dark chocolate is primarily about grinding down sugar.[56] Refining primarily involves putting chocolate through a refiner machine, which carries the cocoa mass through large steel rollers set to varying widths, enveloping them in fat until the chocolate particles are as small as is desired, and the cocoa mass is a fine powder.[57] Refining dark chocolate to be finer makes the cocoa flavor more intense,[58] and the ideal particle size for dark chocolate has been identified as 35 μm.[59] Dark chocolates with a higher cocoa mass require special accommodations here, as, with high portions of cocoa butter, there can be issues with the roller refining process. These accommodations can involve beginning the refining process with less cocoa mass, and only integrating the rest during the conching stage. Other alternatives include using cocoa powder or processing in a ball mill.[31]
Conching machines mix and knead a cocoa mass, changing the flavor and texture.[60] More than for other types of chocolate, conching dark chocolate serves to remove undesirable flavors.[61] Dark chocolate is conched at higher temperatures than other chocolates, between 158–180 °F (70–82 °C).[62] If dark chocolate takes on moisture during the conching process, for example by being conched in the same room as milk chocolate with neither enclosed, the dark chocolate can become undesirably thick and develop unpleasant flavors.[63] During the final step of standardizing, emulsifiers such as lecithin or PGPR are added to improve texture.[64] Some manufacturers add vanilla or vanillin as a flavoring.[65] If it is needed to reach a desired yield or viscosity, more cocoa butter can be added, before the mixture is subject to laboratory testing for particle size and food safety. If it meets these standards, it is pumped through fine screens to remove any agglomerates.[60] When dark chocolate is tempered, the temperature regime is different to milk chocolate because of how milk fats impact the formation of crystal lattices.[66]
Legal requirements
[edit]According to a 2000 European Union directive, dark chocolate must contain at minimum 18% cocoa butter, not less than 35% total dry cocoa solids and a minimum of 14% dry non-fat cocoa solids.[67] As of 2017, the United States Food and Drug Administration did not regulate a standard identity for dark chocolate, which had led to concerns that some products were made from vegetable fats and customers had been misled by health claims.[68]
Market
[edit]During the 2010s, demand for high-cocoa dark chocolate increased in light of research linking the antioxidant content with a reduced risk of cancer and cardiovascular health.[70] As of 2019, demand for dark chocolate containing more than 70% cocoa, particularly using beans from a single-source, was increasing.[71]
France is considered the "home of dark chocolate", and the industry there uses the term Grand Cru to refer to particularly valued chocolates.[69] As of 2018, retailers and dark chocolate manufacturers there received an equal portion of over two thirds of the margins generated across the cocoa supply chain for dark chocolate tablets.[72] As of 2016, the dark chocolate market was concentrated more in Continental Europe than the United States and England.[73] 31% of chocolate produced was dark chocolate. From 2005 to 2011, dark chocolate consumption in the US increased by 9% per annum.[74] Beyond beliefs around the healthiness of dark chocolate, increased demand for dark chocolate in the United States has also been attributed to a trend of consumers expanding preferences beyond traditional mass-produced chocolate.[75] In the US, this growth has occurred at the expense of milk chocolate.[76]
A large percentage of chocolates sold by the Swiss chocolate maker Lindt are dark chocolate of varying cocoa solid percentages, including 70%, 85% and 90%.[75] Dark chocolate is sold in various forms: bars, blocks, pieces, chunks, bonbons and as other confectionary items. Across these forms, it is consumed as a snack, and used by confectioners and in recipes.[77][78] As of 2024, Europe was one of the largest producers and the market had grown by over 8 percent since the previous year. About a third of sales were from organic chocolate. The market was influenced by the volatile cost of cocoa beans.[77]
Projections
[edit]According to a market research report released in May 2024, the dark chocolate market was projected to increase by US$36.03 billion at a compound annual growth rate of 9.45% for 2024–2028, driven by health claims leading to an increase in gifting dark chocolate. Europe was projected to account for 42% of this growth. This growth was challenged by volatile raw material prices and a growing demand for alternatives.[77]
Variants
[edit]Low sugar dark chocolate is made by replacing sugar with maltitol, a sugar alcohol. As maltitol can be a laxative, it is sometimes replaced with a combination of a fiber blend and stevia.[79] As of 2024, gluten-free and gourmet dark chocolates were growing in popularity. Gourmet chocolates are made using flavor cocoa, dried fruits, and using sugars such as coconut sugar. Other varieties of dark chocolate include artisanal, organic, milk and vegan chocolates.[77] Nuts, cereals, creams, liqueurs and syrups can be added.[78] Dark chocolates range in the percentage of cocoa solids they contain, from products being called dark chocolate with percentages from 40%–100%.[32]
Flavor cocoas; cocoas purchased for a premium, valued for their flavor or other qualities, are mostly used for dark chocolate. These include single source chocolates.[80] Single source dark chocolates are often from countries such as Ecuador and Venezuela. Fruity, astringent and acidic flavors are highlighted in these chocolates, while flavors of smoke and mold flavors are avoided as they cannot be removed by further processing.[71]
See also
[edit]References
[edit]- ^ Mushet, C.; Sur La Table; Caruso, M. (2008). The Art and Soul of Baking. Andrews McMeel Publishing. pp. 39–40. ISBN 978-0-7407-7334-1.
- ^ Patrick-Goudreau, C. (2007). The Joy of Vegan Baking: The Compassionate Cooks' Traditional Treats and Sinful Sweets. Fair Winds Press. p. 241. ISBN 978-1-61673-850-1.
- ^ Afoakwa (2016), pp. 492, 495, 503.
- ^ Lanaud et al. 2024, p. 8
- ^ Powis et al. 2008, p. 38
- ^ Collins (2022), pp. 301–302.
- ^ Dillinger et al. 2000, p. 2058S-2059S
- ^ Sampeck & Thayn (2017), pp. 78–79.
- ^ Sampeck & Thayn (2017), p. 79.
- ^ Martin & Sampeck (2015), p. 41.
- ^ Coe & Coe (2013), Chocolate and the English.
- ^ Martin & Sampeck (2015), p. 45.
- ^ Coe & Coe (2013), A Break with the Past: Van Houten's Inventions.
- ^ Gordon (2008), p. 590.
- ^ Coe & Coe (2013), Switzerland: Land of Cows and Chocolate; Snyder, Olsen & Brindle (2008), p. 620.
- ^ Collins (2022), pp. 228–230.
- ^ Hackenesch (2017), p. 71.
- ^ Graziano (1998), p. 141.
- ^ Robertson (2009), pp. 26–27.
- ^ Robertson (2009), p. 29.
- ^ Terrio (2000), p. 260.
- ^ Terrio (2000), pp. 42, 49, 227; Terrio (2014), p. 177.
- ^ a b Terrio (2016), p. 140.
- ^ Terrio (2014), p. 177.
- ^ Wilson & Hurst (2012), p. 136.
- ^ Terrio (2016), p. 143.
- ^ Hackenesch (2017), p. 16.
- ^ Terrio (2016), p. 141.
- ^ Beckett (2019), p. 88.
- ^ Afoakwa (2016), p. 209.
- ^ a b c Ziegler (2017), p. 205.
- ^ a b McShea et al. 2008, p. 632
- ^ Alberts & Cidell (2016), p. 129.
- ^ Kamphuis & Fowler (2017), p. 64.
- ^ Schifferstein, Kudrowitz & Breuer (2022), pp. 320–321.
- ^ Afoakwa (2016), pp. 165, 168.
- ^ Telly (1997), p. 174.
- ^ Beckett (2019), p. 19.
- ^ Leissle (2018), p. 64; Ziegler (2017), p. 206.
- ^ Bau (2008), p. 37.
- ^ United States Food and Drug Administration (2024). "Daily Value on the Nutrition and Supplement Facts Labels". FDA. Archived from the original on 27 March 2024. Retrieved 28 March 2024.
- ^ National Academies of Sciences, Engineering, and Medicine; Health and Medicine Division; Food and Nutrition Board; Committee to Review the Dietary Reference Intakes for Sodium and Potassium (2019). Oria, Maria; Harrison, Meghan; Stallings, Virginia A. (eds.). Dietary Reference Intakes for Sodium and Potassium. The National Academies Collection: Reports funded by National Institutes of Health. Washington, DC: National Academies Press (US). ISBN 978-0-309-48834-1. PMID 30844154. Archived from the original on 9 May 2024. Retrieved 21 June 2024.
- ^ James (2018).
- ^ a b Ried et al. 2017
- ^ Nestle (2018), pp. 54–59.
- ^ Tan et al. 2021, p. 1
- ^ a b "Cadmium in chocolate" (PDF). European Commission. 1 March 2019. Retrieved 7 March 2023.
- ^ Vanderschueren et al. 2021, p. 1
- ^ Vanderschueren et al. 2021, p. 2
- ^ "Cadmium". California Environmental Protection Agency, Office of Environmental Health Hazard Assessment. 1 May 1997. Retrieved 8 March 2023.
- ^ Hands et al. 2024, p. 1
- ^ Afoakwa (2016), p. 122.
- ^ Stauffer (2017), p. 543.
- ^ Stauffer (2017), p. 544; Coe & Coe (2013), How They Make Chocolate.
- ^ Beckett (2019), p. 73; Skytte & Kaylegian (2017), p. 112.
- ^ Ziegler & Hogg (2017), p. 226.
- ^ Stauffer (2017), p. 544; Presilla (2001), p. 64.
- ^ Beckett (2019), p. 114; Ziegler & Hogg (2017), p. 226.
- ^ Afoakwa (2016), p. 123.
- ^ a b Stauffer (2017), p. 545.
- ^ Beckett, Paggios & Roberts (2017), p. 241.
- ^ Afoakwa (2016), p. 162.
- ^ Beckett, Paggios & Roberts (2017), p. 249.
- ^ Beckett (2019), pp. 67, 78; Stauffer (2017), pp. 543, 545.
- ^ Leissle (2018), p. 50; Stauffer (2017), p. 543.
- ^ Afoakwa (2016), p. 129.
- ^ Afoakwa (2016), p. 118.
- ^ Thomas (2017), p. 671.
- ^ a b Wohlmuth (2017), p. 493.
- ^ Afoakwa (2016), pp. 15, 37.
- ^ a b Beckett (2019), p. 113.
- ^ FAO and BASIC 2024, p. 7
- ^ Afoakwa (2016), p. 15.
- ^ Afoakwa (2016), p. 37.
- ^ a b Alberts & Cidell (2016), p. 122.
- ^ Thomas (2017), p. 665.
- ^ a b c d "Dark Chocolate Market Analysis Europe, North America, APAC, South America, Middle East and Africa - US, Germany, Belgium, France, UK - Size and Forecast 2024-2028". technavio. May 2024. Archived from the original on 5 September 2024. Retrieved 9 September 2024.
- ^ a b Gutiérrez (2017), p. 1332.
- ^ Beckett (2019), p. 117.
- ^ Fowler & Coutel (2017), p. 47.
Sources
[edit]Books
[edit]- Afoakwa, Emmanuel Ohene (8 April 2016). Chocolate Science and Technology. Wiley (publisher). ISBN 978-1-118-91378-9.
- Alberts, Heike C; Cidell, Julie (2016). "Chocolate Consumption, Manufacturing, and Quality in Europe and North America". In Squicciarini, Mara P; Swinnen, Johan (eds.). The Economics of Chocolate. Oxford University Press. ISBN 978-0-19-179326-4.
- Bau, Frédéric (2008). Chocolate Fusion: Chocolate in Cuisine (2nd English ed.). Montagud Editores. ISBN 978-84-7212-117-1.
- Beckett, Stephen T (2019). The Science of Chocolate (3rd ed.). Croydon, United Kingdom: Royal Society of Chemistry. ISBN 978-1-78801-235-5.
- Beckett, Stephen T; Paggios, Konstantinos; Roberts, Ian (2017). "Conching". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Coe, Sophie D.; Coe, Michael D. (2013). The True History of Chocolate (3rd ed.). London: Thames & Hudson. ISBN 978-0-500-77093-1. OCLC 1085907808.
- Collins, Ross F. (2022). Chocolate: A Cultural Encyclopedia. Santa Barbara, California: ABC-Clio. ISBN 978-1-4408-7607-3.
- Fowler, Mark S; Coutel, Fabien (2017). "Cocoa beans: from tree to factory". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Gordon, Bertram M. (2008). "Commerce, Colonies, and Cacao". In Grivetti, Louis Evan; Shapiro, Howard-Yana (eds.). Chocolate: History, Culture, and Heritage. New Jersey: John Wiley & Sons, Inc. ISBN 978-0-470-41131-5.
- Hackenesch, Silke (2017). Chocolate and Blackness: A Cultural History. University of Chicago Press. ISBN 978-3-593-50776-7.
- Kamphuis, Henri J; Fowler, Mark S (2017). "Production of cocoa mass, cocoa butter and cocoa powder". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Leissle, Kristy (2018). Cocoa. Polity. ISBN 978-1-5095-1320-8. OCLC 988580966.
- Presilla, Maricel E. (2001). The New Taste of Chocolate, Revised: A Cultural and Natural History of Cacao with Recipes. New York: Ten Speed Press. ISBN 978-1-58008-950-0.
- Nestle, Marion (2018). Unsavory Truth: How Food Companies Skew the Science of What We Eat. New York: Basic Books. ISBN 978-1-5416-1731-5.
- Robertson, Emma (2009). Chocolate, Women and Empire: A Social and Cultural History. Studies in Imperialism. Manchester University Press. ISBN 978-0-7190-9005-9.
- Skytte, Ulla P; Kaylegian, Kerry E (2017). "Ingredients from milk". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Stauffer, Marlene B (2017). "Quality control and shelf life". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Telly, Charles S (1997). "Chocolate—Its Quality and Flavor (Which Is the World's Best Chocolate?)". Chocolate: Food of the Gods. Westport, Connecticut: Greenwood Publishing Group. ISBN 978-0-313-30506-1.
- Terrio, Susan J (2000). Crafting the Culture and History of French Chocolate. University of California Press. ISBN 0-520-22125-7.
- Terrio, Susan (2016). "Visions of Excess: Crafting and Consuming Good Chocolate in France and the United States". In Wilkinson-Weber, Clare M; DeNicola, Alicia Ory (eds.). Critical Craft: Technology, Globalization, and Capitalism. London and New York: Routledge. ISBN 978-1-4725-9485-3.
- Terrio, Susan (28 August 2014). "French Chocolate as Intangible Cultural Heritage". In Brulotte, Ronda L; Di Giovine, Michael A (eds.). Edible Identities: Food As Cultural Heritage. New York: Routledge. ISBN 978-1-4094-4263-9.
- Sampeck, Kathryn E; Thayn, Jonathan (2017). "Translating Tastes: A Cartography of Chocolate Colonialism". In Schwartzkopf, Stacey; Sampeck, Kathryn E (eds.). Substance and Seduction: Ingested Commodities in Early Modern Mesoamerica. University of Texas Press. doi:10.7560/313862-006. ISBN 978-1-4773-1388-6.
- Snyder; Olsen, Bradley Foliart; Brindle, Laura Pallas (2008). "From Stone Metates to Steel Mills: The Evolution of Chocolate Manufacturing". In Grivetti, Louis Evan; Shapiro, Howard-Yana (eds.). Chocolate: History, Culture, and Heritage. New Jersey: John Wiley & Sons, Inc. ISBN 978-0-470-41131-5.
- Thomas, Jonathan (2017). "The global chocolate confectionery market". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Wilson, Philip K; Hurst, W Jeffrey (2012). Chocolate as Medicine: A Quest over the Centuries. Cambridge: Royal Society of Chemistry. ISBN 978-1-84973-411-0.
- Wohlmuth, Edward G (2017). "Recipes". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Ziegler, Gottfried (2017). "Flavour development in cocoa and chocolate". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
- Ziegler, Gottfried; Hogg, Richard (2017). "Particle size reduction". In Beckett, Stephen T; Fowler, Mark S; Ziegler, Gregory R (eds.). Beckett's Industrial Chocolate Manufacture and Use (5th ed.). West Sussex, UK: Wiley. ISBN 978-1-118-78014-5.
Journal articles and reports
[edit]- Comparative study on the distribution of value in European chocolate chains (Report). Paris: Food and Agriculture Organization of the United Nations (FAO) and Bureau d’analyse sociétale pour une information citoyenne (BASIC). 2024.
- Dillinger, Teresa L.; Barriga, Patricia; Escárcega, Sylvia; Jimenez, Martha; Lowe, Diana Salazar; Grivetti, Louis E. (1 August 2000). "Food of the Gods: Cure for Humanity? A Cultural History of the Medicinal and Ritual Use of Chocolate". The Journal of Nutrition. 130 (8): 2057S–2072S. doi:10.1093/jn/130.8.2057S. ISSN 0022-3166. PMID 10917925.
- Graziano, Martha Makra (1998). "Food of the Gods as Mortals' Medicine: The Uses of Chocolate and Cacao Products". Pharmacy in History. 40 (4). JSTOR 24319003.
- Gutiérrez, Tomy J (November 2017). "State-of-the-Art Chocolate Manufacture: A Review". Comprehensive Reviews in Food Science and Food Safety. 16 (6). doi:10.1111/1541-4337.12301. hdl:11336/32798. PMID 33371587.
- Hands, Jacob M; Anderson, Mark L; Cooperman, Tod; Balsky, Jared E; Frame, Leigh A (31 July 2024). "A multi-year heavy metal analysis of 72 dark chocolate and cocoa products in the USA". Frontiers in Nutrition. 11. doi:10.3389/fnut.2024.1366231. PMC 11321977.
- James, Cyan (5 October 2018). "Junk food, junk science?". Science. 362 (6410). doi:10.1126/science.aau6602.
- Lanaud, Claire; Vignes, Hélène; Utge, José; Valette, Gilles; Rhoné, Bénédicte; Garcia Caputi, Mariella; Angarita Nieto, Natalia Sofía; Fouet, Olivier; Gaikwad, Nilesh; Zarrillo, Sonia; Powis, Terry G.; Cyphers, Ann; Valdez, Francisco; Olivera Nunez, S. Quirino; Speller, Camilla (7 March 2024). "A revisited history of cacao domestication in pre-Columbian times revealed by archaeogenomic approaches". Scientific Reports. 14 (1): 2972. Bibcode:2024NatSR..14.2972L. doi:10.1038/s41598-024-53010-6. ISSN 2045-2322. PMC 10920634. PMID 38453955.
- Martin, Carla D; Sampeck, Kathryn E (2015). "The bitter and sweet of chocolate in Europe". Socio.hu Social Science Review. 5 (SI3): 37–60. doi:10.18030/socio.hu.2015en.37. eISSN 2063-0468.
- McShea, Andrew; Ramiro-Puig, Emma; Munro, Sandra B; Casadesus, Gemma; Castell, Margarida; Smith, Mark A (1 November 2008). "Clinical benefit and preservation of flavonols in dark chocolate manufacturing". Nutrition Reviews. 66 (11). doi:10.1111/j.1753-4887.2008.00114.x.
- Powis, Terry G; Hurst, W Jeffrey; del Carmen Rodríguez, María; Ponciano, Ortíz C; Blake, Michael; Cheetham, David; Coe, Michael D; Hodgson, John G (April 2008). "The Origins of Cacao Use in Mesoamerica". Mexicon. 30 (2). JSTOR 23759545.
- Ried, K.; Sullivan, T. R.; Fakler, P.; Frank, O. R.; Stocks, N. P. (25 April 2017). "Effect of cocoa on blood pressure". The Cochrane Database of Systematic Reviews. 4 (4): CD008893. doi:10.1002/14651858.CD008893.pub3. PMC 6478304. PMID 28439881.
- Schifferstein, Hendrik N.J.; Kudrowitz, Barry M; Breuer, Carola (2022). "Food Perception and Aesthetics - Linking Sensory Science to Culinary Practice". Journal of Culinary Science & Technology. 20 (4). doi:10.1080/15428052.2020.1824833.
- Tan, Terence Yew Chin; Lim, Xin Yi; Yeo, Julie Hsiao Hui; Lee, Shaun Wen Huey; Lai, Nai Ming (24 August 2021). "The Health Effects of Chocolate and Cocoa: A Systematic Review". Nutrients. 13 (9). doi:10.3390/nu13092909. PMC 8470865.
- Vanderschueren, Ruth; Argüello, David; Blommaert, Hester; Montalvo, Daniela; Barraza, Fiorella; Maurice, Laurence; Schreck, Eva; Schulin, Rainer; Lewis, Caleb; Vazquez, José Luis; Umaharan, Pathmanathan; Chavez, Eduardo; Sarret, Geraldine; Smolders, Erik (2021). "Mitigating the level of cadmium in cacao products: Reviewing the transfer of cadmium from soil to chocolate bar". Science of the Total Environment. 781: 146779. doi:10.1016/j.scitotenv.2021.146779.
External links
[edit]- Media related to Dark chocolate at Wikimedia Commons