Flavor

This article is about flavor as a sensory impression. For the particle property, see Flavour (particle physics). For other uses, see Flavor (disambiguation).

Flavor (or flavour; see spelling differences) is the sensory impression of food or other substance, and is determined primarily by the chemical senses of taste and smell. The "trigeminal senses", which detect chemical irritants in the mouth and throat as well as temperature and texture, are also important to the overall Gestalt of flavor perception. The flavor of the food, as such, can be altered with natural or artificial flavorants which affect these senses.

A flavorant is defined as a substance that gives another substance flavor, altering the characteristics of the solute, causing it to become sweet, sour, tangy, etc.

Of the three chemical senses, smell is the main determinant of a food item's flavor. While there are only five universally recognized basic tastessweet, sour, bitter, salty, and umami (savory) – the number of food smells is unbounded. A food's flavor, therefore, can be easily altered by changing its smell while keeping its taste similar. This is exemplified in artificially flavored jellies, soft drinks, and candies, which, while made of bases with a similar taste, have dramatically different flavors due to the use of different scents or fragrances. The flavorings of commercially produced food products are typically created by flavorists.

Although the terms flavoring and flavorant in common language denote the combined chemical sensations of taste and smell, the same terms are used in the fragrance and flavors industry to refer to edible chemicals and extracts that alter the flavor of food and food products through the sense of smell. Due to the high cost or unavailability of natural flavor extracts, most commercial flavorants are nature-identical, which means that they are the chemical equivalent of natural flavors but chemically synthesized rather than being extracted from source materials. Identification of nature-identical flavorants is done using technology such as headspace techniques.

Flavorants or flavorings

Flavorings are focused on altering the flavors of natural food product such as meats and vegetables, or creating flavor for food products that do not have the desired flavors such as candies and other snacks. Most types of flavorings are focused on scent and taste. Few commercial products exist to stimulate the trigeminal senses, since these are sharp, astringent, and typically unpleasant flavors.

There are three principal types of flavorings used in foods, under definitions agreed in the EU and Australia:[1]

Type Description
Natural flavoring substances Flavoring substances obtained from plant or animal raw materials, by physical, microbiological or enzymatic processes. They can be either used in their natural state or processed for human consumption, but cannot contain any nature-identical or artificial flavoring substances.
Nature-identical flavoring substances Flavoring substances that are obtained by synthesis or isolated through chemical processes, which are chemically and organoleptically identical to flavoring substances naturally present in products intended for human consumption. They cannot contain any artificial flavoring substances.
Artificial flavoring substances Flavoring substances not identified in a natural product intended for human consumption, whether or not the product is processed. These are typically produced by fractional distillation and additional chemical manipulation of naturally sourced chemicals, crude oil or coal tar. Although they are chemically different, in sensory characteristics are the same as natural ones.

Most artificial flavors are specific and often complex mixtures of singular naturally occurring flavor compounds combined together to either imitate or enhance a natural flavor. These mixtures are formulated by flavorists to give a food product a unique flavor and to maintain flavor consistency between different product batches or after recipe changes. The list of known flavoring agents includes thousands of molecular compounds, and the flavor chemist (flavorist) can often mix these together to produce many of the common flavors. Many flavorants consist of esters, which are often described as being "sweet" or "fruity".[2]

Chemical Odor
Diacetyl, Acetylpropionyl, Acetoin Buttery
Isoamyl acetate Banana
Benzaldehyde Bitter almond, Cherry
Cinnamaldehyde Cinnamon
Ethyl propionate Fruity
Methyl anthranilate Grape
Limonene Orange
Ethyl decadienoate Pear
Allyl hexanoate Pineapple
Ethyl maltol Sugar, Cotton candy
Ethylvanillin Vanilla
Methyl salicylate Wintergreen

The compounds used to produce artificial flavors are almost identical to those that occur naturally. It has been suggested that artificial flavors may be safer to consume than natural flavors due to the standards of purity and mixture consistency that are enforced either by the company or by law.[3] Natural flavors in contrast may contain impurities from their sources while artificial flavors are typically more pure and are required to undergo more testing before being sold for consumption.[3]

Flavors from food products are usually the result of a combination of natural flavors, which set up the basic smell profile of a food product while artificial flavors modify the smell to accent it.[4]

Unlike smelling, which occurs upon inhalation, the sensing of flavors in the mouth occurs in the exhalation phase of breathing and is perceived differently by an individual. In other words, the smell of food is different depending on when you are smelling it in front of you or whether it has already entered your mouth.[5]

Taste

While salt and sugar can technically be considered flavorants that enhance salty and sweet tastes, usually only compounds that enhance umami, as well as other secondary flavors are considered and referred to as taste flavorants. Artificial sweeteners are also technically flavorants.[6]

Umami or "savory" flavorants, more commonly called taste or flavor enhancers, are largely based on amino acids and nucleotides. These are typically used as sodium or calcium salts.[7] Umami flavorants recognized and approved by the European Union include:[8]

Acid Description
Glutamic acid salts This amino acid's sodium salt, monosodium glutamate (MSG), is one of the most commonly used flavor enhancers in food processing. Mono and diglutamate salts are also commonly used.
Glycine salts Simple amino acid salts typically combined with glutamic acid as flavor enhancers.
Guanylic acid salts Nucleotide salts typically combined with glutamic acid as flavor enhancers.
Inosinic acid salts Nucleotide salts created from the breakdown of AMP. Due to high costs of production, typically combined with glutamic acid as flavor enhancers.
5'-ribonucleotide salts Nucleotide salts typically combined with other amino acids and nucleotide salts as flavor enhancers.

Certain organic and inorganic acids can be used to enhance sour tastes, but like salt and sugar these are usually not considered and regulated as flavorants under law. Each acid imparts a slightly different sour or tart taste that alters the flavor of a food.

Acid Description
Acetic acid Gives vinegar its sour taste and distinctive smell
Ascorbic acid Found in oranges and green peppers and gives a crisp, slightly sour taste. Better known as vitamin C.
Citric acid Found in citrus fruits and gives them their sour taste
Fumaric acid Not found in fruits, used as a substitute for citric and tartaric acid
Lactic acid Found in various milk or fermented products and give them a rich tartness
Malic acid Found in apples and gives them their sour/tart taste
Phosphoric acid Used in some cola drinks to give an acid taste
Tartaric acid Found in grapes and wines and gives them a tart taste

Color

The color of food can affect one's expectations of the flavor significantly.[9] In one study, adding more red color to a drink increased the perceived sweetness with darker colored solutions being rated 2–10% better than lighter ones, even though it had 1% less sucrose concentration.[10]

Restrictions and regulations

Regulations on natural flavoring

UK Food Law defines a natural flavor as:

a flavouring substance (or flavouring substances) which is (or are) obtained, by physical, enzymatic or microbiological processes, from material of vegetable or animal origin which material is either raw or has been subjected to a process normally used in preparing food for human consumption and to no process other than one normally so used.[11]

The U.S. Code of Federal Regulations describes a "natural flavorant" as:

the essential oil, oleoresin, essence or extractive, protein hydrolysate, distillate, or any product of roasting, heating or enzymolysis, which contains the flavoring constituents derived from a spice, fruit or fruit juice, vegetable or vegetable juice, edible yeast, herb, bark, bud, root, leaf or any other edible portions of a plant, meat, seafood, poultry, eggs, dairy products, or fermentation products thereof, whose primary function in food is flavoring rather than nutritional.[12]

The European Union's guidelines for natural flavorants are slightly different.[13] Certain artificial flavorants are given an E number, which may be included on food labels.[14]

Dietary restrictions

Food manufacturers are sometimes reluctant to inform consumers about the source and identity of flavor ingredients and whether they have been produced with the incorporation of substances such as animal by-products. Some flavor ingredients, such as gelatin, are produced from animal products. Some, such as glycerin can be derived from either animal or vegetable sources. And some extracts, such as vanilla, may contain alcohol. Many Jews, Jains, Hindus, and Muslims adhere to religious dietary laws, and vegans to personal convictions, which restrict the use of animal by-products and/or alcohol in foods unless subject to oversight and inspection by their respective religious authority or moral beliefs. In many Western countries some consumers rely on a Jewish Kosher Pareve certification mark to indicate that natural flavorings used in a food product are free of meat and dairy (although they can still contain fish). The Vegan Society's Sunflower symbol (which is currently used by over 260 companies worldwide) can also be used to see which products do not use any animal ingredients (including flavorings and colorings).

Similarly, persons with known sensitivities or allergies to food products are advised to avoid foods that contain generic "natural flavors" or to first determine the source of the flavoring before consuming the food. [15] Such flavors may be derived from a variety of source products that are themselves common allergens, such as dairy, soy,[16] sesame,[17] eggs, and nuts.[18]

Flavor creation

Food and beverage companies may require flavors for new products, product line extensions (e.g., low fat versions of existing products) or changes in formula or processing for existing products. In 2011, about US$10.6 billion were generated with the sale of flavors; the majority of the flavors used are consumed in processed and packaged food.[19]

Most flavors represent a mixture of aroma compounds, the raw material that is produced by flavor companies. In rare cases, a single synthetic compound is used in pure form. Artificial vanilla flavors vanillin and ethylvanillin are a notable exception, as well as the artificial strawberry flavor (ethyl methylphenylglycidate). The ubiquitous "green apple" aroma is based on hexyl acetate.[20]

The flavor creation is done by a specially trained scientist called a "flavorist". The flavorist's job combines scientific knowledge of the chemical palette with creativity to develop new and distinctive flavors. The flavor creation begins when the flavorist receives a brief from the client. In the brief the client will attempt to communicate exactly what type of flavor they seek, in what application it will be used, and any special requirements (e.g., must be all natural). The communication barrier can be quite difficult to overcome since most people aren't experienced at describing flavors. The flavorist will use his or her knowledge of the available chemical ingredients to create a formula and compound it on an electronic balance. The flavor will then be submitted to the client for testing. Several iterations, with feedback from the client, may be needed before the right flavor is found.

Additional work may also be done by the flavor company. For example, the flavor company may conduct sensory taste tests to test consumer acceptance of a flavor before it is sent to the client or to further investigate the "sensory space." The flavor company may also employ application specialists who work to ensure the flavor will work in the application for which it is intended. This may require special flavor delivery technologies that are used to protect the flavor during processing or cooking so that the flavor is only released when eaten by the end consumer.

Determination

Few standards are available or being prepared for sensory analysis of flavors.[21] In chemical analysis of flavors, solid phase extraction (SPE), solid phase microextraction (SPME), and headspace gas chromatography are applied to extract and separate the flavor compounds in the sample. The determination is typically done by various mass spectrometric techniques.[22]

Scientific resources

See also

References

  1. From Australian Food Standards Guidelines
  2. "How do artificial flavors work?". howstuffworks. Retrieved 3 June 2015.
  3. 1 2 R.L. Smitha, S.M. Cohenb, J. Doullc, V.J. Ferond, J.I. Goodmane, L.J. Marnettf, P.S. Portogheseg, W.J. Waddellh, B.M.Wagneri, R.L. Hallj, N.A. Higleyk, C. Lucas-Gavinl and T.B. Adamsm (2005). "A procedure for the safety evaluation of natural flavor complexes used as ingredients in food: essential oils". Food and Chemical Toxicology. 43 (3): 345–363. doi:10.1016/j.fct.2004.11.007. PMID 15680674.
  4. Amy Fleming. "Fake flavours: why artificial aromas can't compete with real food smells". Food & Drink. Retrieved 3 June 2015.
  5. Masaoka, Yuri; Satoh, Hironori; Akai, Lena; Homma, Ikuo (2010). "Expiration: The moment we experience retronasal olfaction in flavor". Neuroscience Letters. 473 (2): 92–6. doi:10.1016/j.neulet.2010.02.024. PMID 20171264.
  6. "Artificial sweeteners and other sugar substitutes". Mayo Clinic. Retrieved 3 June 2015.
  7. "Monosodium Glutamate & Umami". International Glutamate Informatioin Service. Retrieved 3 June 2015.
  8. "Flavorings". Food Additives. Retrieved 3 June 2015.
  9. Shankar, Maya U.; Levitan, Carmel A.; Spence, Charles (2010). "Grape expectations: The role of cognitive influences in color–flavor interactions". Consciousness and Cognition. 19 (1): 380–90. doi:10.1016/j.concog.2009.08.008. PMID 19828330.
  10. Johnson, J.; Clydesdale, F. M. (1982). "Perceived Sweetness and Redness in Colored Sucrose Solutions". Journal of Food Science. 47 (3): 747. doi:10.1111/j.1365-2621.1982.tb12706.x.
  11. The Flavourings in Food Regulations, Amended 1994
  12. Code of Federal Regulations
  13. REGULATION (EC) No 1334/2008
  14. COMMISSION REGULATION (EU) No 1129/2011
  15. http://www.foodsafetynews.com/2015/12/attention-allergy-sufferers-beware-of-natural-flavors
  16. "Hidden Allergens in Foods". Allergy Advisor. Retrieved 2011-12-27
  17. "Sesame Allergy: A growing food allergy". Kids with Food Allergies Foundation. Retrieved 2011-12-27
  18. "Food Allergies". Center for Science in the Public Interest. Retrieved 2011-12-27
  19. Ceresana, market study Flavors, December 2012, http://www.ceresana.com/en/market-studies/chemicals/flavors/
  20. http://www.thegoodscentscompany.com/data/rw1003201.html
  21. e.g. ISO 13301:2002 Sensory analysis -- Methodology -- General guidance for measuring odor, flavor and taste detection thresholds by a three-alternative forced-choice (3-AFC) procedure. or ISO 6564:1985 Sensory analysis -- Methodology -- Flavor profile methods.
  22. Use of Ozone Depleting Substances in Laboratories. TemaNord 2003:516. norden.org Archived February 27, 2008, at the Wayback Machine.
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