Food coloring explained

Food coloring, color additive or colorant is any dye, pigment, or substance that imparts color when it is added to food or beverages. Colorants can be supplied as liquids, powders, gels, or pastes. Food coloring is commonly used in commercial products and in domestic cooking.

Food colorants are also used in various non-food applications, including cosmetics, pharmaceuticals, home craft projects, and medical devices. Colorings may be natural, such as with carotenoids and anthocyanins extracted from plants or cochineal from insects, or may be synthesized, such as tartrazine yellow.

In the manufacturing of foods, beverages and cosmetics, the safety of colorants is under constant scientific review and certification by national regulatory agencies, such as the European Food Safety Authority (EFSA) and US Food and Drug Administration (FDA), and by international reviewers, such as the Joint FAO/WHO Expert Committee on Food Additives.

Purpose of food coloring

People associate certain colors with certain flavors, and the color of food can influence the perceived flavor in anything from candy to wine.[1] Sometimes, the aim is to simulate a color that is perceived by the consumer as natural, such as adding red coloring to glacé cherries (which would otherwise be beige), but sometimes it is for effect, like the green ketchup that Heinz launched in 2000. Color additives are used in foods for many reasons including:[2]

Natural food dyes

History

The addition of colorants to foods is thought to have occurred in Egyptian cities as early as 1500 BC, when candy makers added natural extracts and wine to improve the products' appearance.[3] During the Middle Ages, the economy in the European countries was based on agriculture, and the peasants were accustomed to producing their own food locally or trading within the village communities. Under feudalism, aesthetic aspects were not considered, at least not by the vast majority of the generally very poor population.[4] This situation changed with urbanization at the beginning of the Modern Age, when trade emerged—especially the import of precious spices and colors. One of the first food laws, created in Augsburg, Germany, in 1531, concerned spices or colorants and required saffron counterfeiters to be burned to death.[5]

Natural colorants

Carotenoids (E160, E161, E164), chlorophyllin (E140, E141), anthocyanins (E163), and betanin (E162) comprise four main categories of plant pigments grown to color food products.[6] Other colorants or specialized derivatives of these core groups include:

Blue colors are rare.[7] The pigment genipin, present in the fruit of Gardenia jasminoides, can be treated with amino acids to produce the blue pigment gardenia blue, which is approved for use in Japan, but not the EU or the US.[8]

To ensure reproducibility, the colored components of these substances are often provided in highly purified form. For stability and convenience, they can be formulated in suitable carrier materials (solid and liquids). Hexane, acetone, and other solvents break down cell walls in the fruit and vegetables and allow for maximum extraction of the coloring. Traces of these may still remain in the finished colorant, but they do not need to be declared on the product label. These solvents are known as carry-over ingredients.

Chemical structures of representative natural colorants

Artificial food colorants

History

With the onset of the industrial revolution, people became dependent on foods produced by others. These new urban dwellers demanded food at low cost. Analytical chemistry was still primitive and regulations few. The adulteration of foods flourished. Heavy metal and other inorganic element-containing compounds turned out to be cheap and suitable to "restore" the color of watered-down milk and other foodstuffs, some more lurid examples being:[9]

Sellers at the time offered more than 80 artificial coloring agents, some invented for dyeing textiles, not foods. Many color additives had never been tested for toxicity or other adverse effects. Historical records show that injuries, even deaths, resulted from tainted colorants. In 1851, about 200 people were poisoned in England, 17 of them fatally, directly as a result of eating adulterated lozenges. In 1856, mauveine, the first synthetic color, was developed by Sir William Henry Perkin and by the turn of the century, unmonitored color additives had spread through Europe and the United States in all sorts of popular foods, including ketchup, mustard, jellies, and wine.[10] [11] Originally, these were dubbed 'coal-tar' colors because the starting materials were obtained from bituminous coal.[12] [13]

Synthetic dyes are often less costly and technically superior to natural dyes.

Chemical structures of representative artificial colorants

Regulation

History: 19th and 20th centuries

Concerns over food safety led to numerous regulations throughout the world. German food regulations released in 1882 stipulated the exclusion of dangerous "minerals" such as arsenic, copper, chromium, lead, mercury, and zinc, which were frequently used as ingredients in colorants.[14] In contrast to today's regulatory guidelines, these first laws followed the principle of a negative listing (substances not allowed for use); they were already driven by the main principles of today's food regulations all over the world, since all of these regulations follow the same goal: the protection of consumers from toxic substances and from fraud. In the United States, the Pure Food and Drug Act of 1906 reduced the permitted list of synthetic colors from 700 down to seven.[15] The seven dyes initially approved were Ponceau 3R (FD&C Red No. 1), amaranth (FD&C Red No. 2), erythrosine (FD&C Red No. 3), indigotine (FD&C Blue No. 2), light green SF (FD&C Green No. 2), naphthol yellow 1 (FD&C Yellow No. 1), and orange 1 (FD&C Orange No. 1). Even with updated food laws, adulteration continued for many years.

In the 20th century, improved chemical analysis and testing led to the replacement of the negative lists by positive listings. Positive lists consist of substances allowed to be used for the production and the improvement of foods. Most prevailing legislations are based on positive listing. Positive listing implies that substances meant for human consumption have been tested for their safety, and that they have to meet specified purity criteria prior to their approval by the corresponding authorities. In 1962, the first EU directive (62/2645/EEC) approved 36 colorants, of which 20 were naturally derived and 16 were synthetic.[16] [17] This directive did not list which food products the colorants could or could not be used in. At that time, each member state could designate where certain colors could and could not be used. In Germany, for example, quinoline yellow was allowed in puddings and desserts, but tartrazine was not. The reverse was true in France. This was updated in 1989 with 89/107/EEC, which concerned food additives authorized for use in foodstuffs.[18] [19]

Status as of 2024

Naturally-derived colors, most of which have been used traditionally for centuries, are exempt from certification by a number of regulatory bodies throughout the world, such as the FDA. Included in the exempt category are colors or pigments from vegetables, minerals, or animals, such as annatto extract (yellow), beets (purple), beta-carotene (yellow to orange), and grape skin extract (purple).

Synthetic food colorings are manufactured to provide deeper and more uniform color or hues, and are typically less expensive, but require closer scientific scrutiny for safety and are certified for use in food manufacturing in the United States, United Kingdom,[20] and European Union.

National regulations

A comparison of food color regulations in the EU and the US was published in 2017.[21]

Canada

Canada has published food and drug regulations covering food colorants.[22]

Food in Canada cannot be sold with more than:[22]

European Union

In the European Union, E numbers are used for all additives, both synthetic and natural, that are approved in food applications. E numbers beginning with 1, such as E100 (turmeric) or E161b (lutein), are allocated to colorants.[23] The safety of food colors and other food additives in the EU is evaluated by the European Food Safety Authority (EFSA). Color Directive 94/36/EC, enacted by the European Commission in 1994, outlines permitted natural and artificial colors with their approved applications and limits in different foodstuffs.[24] This is binding on all member countries of the EU; any changes have to be implemented into national laws by a specified deadline. In non-EU member states, food additives are regulated by national authorities, which usually, but not always, try to harmonize with EU regulations. Most other countries have their own regulations and list of food colors which can be used in various applications, including maximum daily intake limits.

Permitted synthetic colorants in the EU include E numbers 102–143 which cover the range of artificial colors. The EU maintains a list of currently allowed additives.[25] Some artificial dyes approved for food use in the EU include:

The three synthetic colors Orange B, Citrus Red No. 2 and FD&C Green No. 3 are permitted in the US but not the EU, as is the natural toasted partially defatted cooked cottonseed flour.[21]

India

The Food Safety and Standard Act, 2006 in India generally permits eight artificial colorings in food:[26]

SL No. Color Common name INS No. Chemical class
1 Red Ponceu 4R 124 Azo
Carmoisine 122 Azo
Erythrosine 127 Xanthene
2 Yellow Tartrazine 102 Pyrazolone
Sunset yellow FCF 110 Azo
3 Blue Indigo carmine 132 Indigoid
Brilliant blue FCF 133 Triarylmethane
4 Green Fast green FCF 143 Triarylmethane

United States

The FDA permitted colors are classified as subject to certification or exempt from certification in Code of Federal Regulations – Title 21 Part 73 & 74,[27] both of which are subject to rigorous safety standards prior to their approval and listing for use in foods.[28]

In the United States, FD&C numbers (which indicate that the FDA has approved the colorant for use in foods, drugs and cosmetics) are given to approved synthetic food dyes that do not exist in nature.

Permitted synthetic colorants include the following seven artificial colorings (the most common in bold).[29] The lakes of these colorings are also permitted except the lake of Red No. 3.[30]

Two dyes are allowed by the FDA for limited applications:

(Orange B, Citrus Red No. 2 and FD&C Green No. 3 are not permitted in the EU.[21])

Many dyes have been delisted for a variety of reasons, ranging from poor coloring properties to regulatory restrictions.[32] Some of these delisted food colorants are:

Global harmonization

Since the beginning of the 1960s, the Joint FAO/WHO Expert Committee on Food Additives has promoted the development of international standards for food additives, not only by its toxicological assessments, which are continuously published by the World Health Organization in a "Technical Report Series",[35] but furthermore by elaborating appropriate purity criteria, which are laid down in the two volumes of the "Compendium of Food Additive Specifications" and their supplements.[36] These specifications are not legally binding but very often serve as a guiding principle, especially in countries where no scientific expert committees have been established.

To further regulate the use of these evaluated additives, in 1962 the WHO and FAO created an international commission, the Codex Alimentarius, which is composed of authorities, food industry associations and consumer groups from all over the world. Within the Codex organization, the Codex Committee for Food Additives and Contaminants is responsible for working out recommendations for the application of food additives: the General Standard for Food Additives.[37] In the light of the World Trade Organizations General Agreement on Tariffs and Trade (GATT), the Codex Standard, although not legally binding, influences food color regulations all over the world.

Safety evaluation

A 2023 update by the FDA on food colorants required safety assurances by manufacturers and restrictions on the types of foods in which colorants are used, their maximum amounts and labeling, batch certification, and the amount needed to attain the desired food coloring.[38] Scientific consensus regards that food color additives are safe under the restrictions for use, and that most children have no adverse effects when consuming foods with color ingredients; some individual studies, however, indicate that certain children may have allergic sensitivities to colorants.[39] In October 2023, the state of California banned the colorant, Red 3, in food products starting in 2027.[40]

In the 20th century, widespread public belief that artificial food coloring causes ADHD-like hyperactivity in children originated from Benjamin Feingold, a pediatric allergist from California, who proposed in 1973 that salicylates, artificial colors, and artificial flavors cause hyperactivity in children.[41] However, there is no clinical evidence to support broad claims that food coloring causes food intolerance and ADHD-like behavior in children.[42] [43] It is possible that certain food colorings may act as a trigger in those who are genetically predisposed, but the evidence is weak.[44]

Despite concerns expressed in 2011 that food colorings may cause ADHD-like behavior in children,[45] the collective evidence does not support this assertion.[46] The UK Food Standards Agency examined the effects of tartrazine, allura red, ponceau 4R, quinoline yellow, sunset yellow and carmoisine on children. These colorants are found in beverages.[45] [47] The study found "a possible link between the consumption of these artificial colours and a sodium benzoate preservative and increased hyperactivity" in the children;[45] [47] the advisory committee to the FSA that evaluated the study also determined that because of study limitations, the results could not be extrapolated to the general population, and further testing was recommended.[48] [45] After continuous review as of 2024, the FSA stated that the above artificial food colors may induce hyperactivity in some children.[20] Food and drink products containing any of the six designated colors must warn consumers on the package labels, stating May have an adverse effect on activity and attention in children.[20]

The European regulatory community, with an emphasis on the precautionary principle, required labeling and temporarily reduced the acceptable daily intake for the food colorings; the UK FSA called for voluntary withdrawal of the colorings by food manufacturers.[45] [47] However, in 2009, the European Food Safety Authority re-evaluated the data at hand and determined that "the available scientific evidence does not substantiate a link between the color additives and behavioral effects" for any of the dyes.[49] [50] [51]

An ongoing assessment by EFSA over the years 2016-24 stated that only colors assessed as safe were approved for manufacturing in the European Union.[52] [53]

Titanium dioxide

In 2016, EFSA updated its safety assessment of titanium dioxide (E 171), concluding that it can no longer be considered safe as a food additive.[54] As of 2024, the FDA was evaluating a petition to exclude titanium dioxide from use in foods, beverages or cosmetics in the United States.[55]

See also

Notes and References

  1. Jeannine Delwiche . The impact of perceptual interactions on perceived flavor . Food Quality and Preference . 2003 . 14 . 2 . 137–146 . 10.1016/S0950-3293(03)00041-7 . dead . https://web.archive.org/web/20130228041745/http://www-fst.ag.ohio-state.edu/Pubs/2004/delwiche-fqap1.pdf . 2013-02-28 . 10.1.1.103.7087 .
  2. Web site: Food Ingredients & Colors . . June 29, 2010 . https://archive.today/20120730214147/http://www.foodinsight.org/Resources/Detail.aspx?topic=Food_Ingredients_Colors . dead . July 30, 2012 . Feb 15, 2012 .
  3. Encyclopedia: Meggos, H. . Food colours: an international perspective . The Manufacturing Confectioner . 59–65 . 1995 .
  4. Web site: Arlt . Ulrike . The Legislation of Food Colours in Europe . The Natural Food Colours Association . 29 Apr 2011 . 18 Feb 2014 . April 2, 2015 . https://web.archive.org/web/20150402174212/http://www.natcol.org/node/19 . dead .
  5. Cook . Jim . Colorants Compliance . The World of Food Ingredients . Sept 2013 . 41–43 . 1566-6611 .
  6. Rodriguez-Amaya . Delia B . 2016 . Natural food pigments and colorants . Current Opinion in Food Science . 7 . 20–26 . 10.1016/j.cofs.2015.08.004 . 93008250 .
  7. Newsome . A. G. . Culver . C. A. . van Breemen . R. B. . 2014 . Nature's palette: the search for natural blue colorants . J Agric Food Chem . 62 . 28. 6498–6511 . 10.1021/jf501419q . 24930897 .
  8. Coultate . T. . Blackburn . R.S. . 2018 . Food colorants: their past, present and future . Coloration Technology . 134 . 3. 165–186 . 10.1111/cote.12334 . 103965612 .
  9. Downham . Alison . Collins . Paul . Colouring our foods in the last and next millennium . International Journal of Food Science and Technology . 35 . 5–22 . 2000 . 18 Feb 2014 . 10.1046/j.1365-2621.2000.00373.x . 10.1.1.466.4598 . https://web.archive.org/web/20140811180953/http://www.blacksci.co.uk/products/journals/freepdf/tmp1.pdf . 11 August 2014 . dead .
  10. Walford . J. . Historical Development of Food Colouration . Developments in Food Colours . 1 . 1–25 . Applied Science Publishers . London . 1980 .
  11. A Global Perspective on the History, Use, and Identification of Synthetic Food Dyes. Sharma, Vinita. McKone, Harold T.. Markow, Peter G.. Journal of Chemical Education. 2011. 88. 1 . 24–28. 10.1021/ed100545v. 2011JChEd..88...24S .
  12. Web site: Hancock. Mary. Potential for Colourants from Plant Sources in England & Wales. UK Central Science Laboratory. 20 January 2013. 1997. The use of natural dyes in the UK and the rest of the Western economies has been replaced commercially by synthetic dyes, based mainly on aniline and using petroleum or coal tar as the raw stock.. https://web.archive.org/web/20130513035834/http://ienica.csl.gov.uk/usefulreports/colourants.pdf. 13 May 2013. dead.
  13. Web site: Barrows . Julie N. . Lipman . Arthur L. . Bailey . Catherine J. . Color Additives: FDA's Regulatory Process and Historical Perspectives . FDA (Reprinted from Food Safety Magazine October/November 2003 issue) . 17 Dec 2009 . 2 Mar 2012. Although certifiable color additives have been called coal-tar colors because of their traditional origins, today they are synthesized mainly from raw materials obtained from petroleum..
  14. Hastings . Robert W. . Hamilton . John B. . Human Food Laws . Journal of the American Medical Association . 30 . 1–13 . 419–421 . January–March 1898 . 17 Feb 2014 . 10.1001/jama.1898.72440600019002e.
  15. Meadows . Michelle . A Century of Ensuring Safe Foods and Cosmetics . FDA Consumer Magazine . January–February . FDA . 2006 . 40 . 6–13 . 16528821 . 21 Feb 2014 .
  16. EEC: Council Directive on the approximation of the rules of the Member States concerning the coloring matters authorized for use in foodstuffs intended for human consumption OJ 115, 11.11.1962, p. 2645–2654 (DE, FR, IT, NL) English special edition: Series I Volume 1959–1962 p. 279–290
  17. Web site: 62/2645/EEC. https://web.archive.org/web/20140316190346/http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=DD:I:1959-1962:31962L2645:EN:PDF. dead. March 16, 2014.
  18. Council Directive 89/107/EEC of 21 December 1988 on the approximation of the laws of the Member States concerning food additives authorized for use in foodstuffs intended for human consumption OJ L 40, 11.2.1989, p. 27–33 (ES, DA, DE, EL, EN, FR, IT, NL, PT)
  19. Web site: 89/107/EEC.
  20. Web site: Food additives . Food Standards Agency, UK Government . 25 June 2024 . 26 January 2024.
  21. Lehto . Sari . Buchweitz . Maria . Klimm . Alexandra . Straßburger . Raphaela . Bechtold . Cato . Ulberth . Franz . 3. Comparison of food colour regulations in the EU and the US: a review of current provisions . Food Additives and Contaminants: Part A. 34 . 3 . 20 January 2017 . 1944-0049 . 10.1080/19440049.2016.1274431. free. 335–355. 28004607 .
  22. Web site: Food and Drug Regulations (C.R.C., c. 870) . Consolidated federal laws of Canada. 15 February 2023 .
  23. Web site: Current EU approved additives and their E Numbers . . 26 Nov 2010 . 20 Feb 2012 .
  24. Web site: Color Directive 94/36/EC . February 22, 2014 . May 9, 2016 . https://web.archive.org/web/20160509062829/http://ec.europa.eu/food/fs/sfp/addit_flavor/flav08_en.pdf . live .
  25. Web site: Approved additives and E numbers. Food Standards Agency.
  26. Book: Food Safety and Standard Act, 2006,Rules 2011, Regulations 2011. 483 . 14th . 2015 . International Law Book Company, India . Delhi.
  27. http://www.access.gpo.gov/nara/cfr/waisidx_01/21cfr73_01.html Code of Federal Regulations – Title 21 Part 73 & 74
  28. Barrows . Julie N. . Lipman . Arthur L. . Bailey . Catherine J. . Cianci . Sebastian . Color Additives: FDA's Regulatory Process and Historical Perspectives . Food Safety Magazine . Food Safety Magazine . October/November 2003 . 24 July 2016 .
  29. Web site: Types of Food Ingredients . US Food and Drug Administration . 25 June 2024 . 6 July 2023.
  30. Web site: US FDA Color Additive Status List . Fda.gov . 2018-07-16.
  31. Web site: Red No. 3 and Other Colorful Controversies . 2007-08-26 . FDA terminated the provisional listings for FD&C Red No. 3 on January 29, 1990, at the conclusion of its review of the 200 straight colors on the 1960 provisional list. . FDA . https://web.archive.org/web/20070809080710/https://www.fda.gov/bbs/topics/CONSUMER/CON00063.html . 2007-08-09.
  32. News: News of Food; U.S. May Outlaw Dyes Used to Tint Oranges and Other Foods . The use of artificial colors to make foods more attractive to the eye may be sharply curtailed by action of the United States Food and Drug Administration. Three of the most extensively used food colorants are being considered for removal from the Government's list of colors certified as safe for internal and external use and consumption. . New York Times . January 19, 1954.
  33. Web site: CFR Title 21 Part 81.10: Termination of provisional listings of color additives . Accessdata.fda.gov . 2018-07-16.
  34. Encyclopedia: Food coloring . Among the colours that have been "delisted," or disallowed, in the United States are FD&C Orange No. 1; FD&C Red No. 32; FD&C Yellows No. 1, 2, 3, and 4; FD&C Violet No. 1; FD&C Red No. 2; and FD&C Red No. 4. Many countries with similar food colouring controls (including Canada and Great Britain) also ban the use of Red No. 40, and Yellow No. 5 is also undergoing testing.. Encyclopædia Britannica. 2007-08-21 .
  35. Technical Report Series 960: Evaluation of Certain Food Additives and Contaminants. World Health Organization. 2011. August 5, 2013 . https://web.archive.org/web/20130805055059/http://whqlibdoc.who.int/trs/WHO_TRS_960_eng.pdf . dead.
  36. Compendium of Food Additive Specifications. Food and Agriculture Organization. 2011 . August 10, 2013 . https://web.archive.org/web/20130810075348/http://www.fao.org/docrep/014/i2358e/i2358e00.pdf . live .
  37. General Standard for Food Additives. 1995. November 7, 2013. https://web.archive.org/web/20131107205707/http://www.codexalimentarius.net/gsfaonline/docs/CXS_192e.pdf. dead. CODEX STAN 192-1995.
  38. Web site: Color Additives in Foods . US Food and Drug Administration . 24 June 2024 . 6 July 2023.
  39. Web site: How Safe Are Color Additives? . US Food and Drug Administration . 24 June 2024 . 13 July 2023.
  40. Smithsonian Magazine . Osborne M . What to Know About California's New Law Banning Food Additives, Including Red Dye No. 3 . 17 October 2023 . 24 June 2024. en.
  41. Book: Feingold, B.F. . Introduction to clinical allergy . Charles C. Thomas . 1973 . 978-0-398-02797-1.
  42. Tomaska LD and Brooke-Taylor, S. Food Additives – General pp. 449–454 in Encyclopedia of Food Safety, Vol 2: Hazards and Diseases. Eds, Motarjemi Y et al. Academic Press, 2013.
  43. Kavale KA, Forness SR . Hyperactivity and Diet Treatment: A Meta-Analysis of the Feingold Hypothesis . Journal of Learning Disabilities . 16 . 6 . 1983 . 324–330 . 0022-2194 . 10.1177/002221948301600604. 6886553 . 41744679 .
  44. Millichap JG, Yee MM . The diet factor in attention-deficit/hyperactivity disorder. Pediatrics . 129 . 2 . 330–337 . February 2012 . 22232312. 10.1542/peds.2011-2199 . 14925322.
  45. FDA. Background Document for the Food Advisory Committee: Certified Color Additives in Food and Possible Association with Attention Deficit Hyperactivity Disorder in Children: March 30–31, 2011
  46. Amchova . Petra . Kotolova . Hana . Ruda-Kucerova . Jana . 2015 . Health safety issues of synthetic food colorants . . 73 . 3. 914–922 . 10.1016/j.yrtph.2015.09.026 . 26404013 .
  47. Sarah Chapman of Chapman Technologies on behalf of Food Standards Agency in Scotland. March 2011 [Guidelines on approaches to the replacement of tartrazine (E102), allura red (E129), ponceau 4R (E124), quinoline yellow (E104), sunset yellow (E110), and carmoisine (E122) in food and beverages]
  48. Web site: Committee of Toxicity. UK Food Standards Agency. September 2007. Statement on the effects of mixtures of certain food colours and a preservative on behaviour in children. 24 June 2024 .
  49. EFSA Panel on Food Additives and Nutrient Sources added to Food . 10.2903/j.efsa.2009.1330 . 7 . Scientific Opinion on the re-evaluation of Sunset Yellow FCF (E 110) as a food additive . 2009 . EFSA Journal. 11 . 1330 . free .
  50. EFSA Panel on Food Additives and Nutrient Sources added to Food. Scientific Opinion on the re-evaluation of Ponceau 4R (E 124) as a food additive. EFSA Journal . 2009. 7. 11. 1328.
  51. EFSA Panel on Food Additives and Nutrient Sources added to Food . November 2009 . Scientific Opinion on the re-evaluation Tartrazine (E 102). EFSA Journal. 7. 11. 1331–1382. 10.2903/j.efsa.2009.1331. free.
  52. Web site: Food colours . European Food Safety Authority . 25 June 2024 . 18 January 2024.
  53. Web site: Re-evaluation of food colours: EFSA completes major programme . European Food Safety Authority . 25 June 2024 . 14 September 2016.
  54. Web site: 2021-05-06 . Titanium dioxide: E171 no longer considered safe when used as a food additive. European Food Safety Authority . 2024-06-24 . en.
  55. Web site: Titanium Dioxide as a Color Additive in Foods . US Food and Drug Administration . 25 June 2024 . 4 March 2024.