Pungency Explained

Pungency refers to the taste of food commonly referred to as spiciness, hotness or heat,[1] [2] found in foods such as chili peppers. Highly pungent tastes may be experienced as unpleasant. The term piquancy is sometimes applied to foods with a lower degree of pungency[3] that are "agreeably stimulating to the palate". Examples of piquant food include mustard and curry. The primary substances responsible for pungent taste are capsaicin, piperine (in peppers) and allyl isothiocyanate (in radish, mustard and wasabi).

Terminology

In colloquial speech, the term "pungency" can refer to any strong, sharp smell or flavor.[4] [5] However, in scientific speech, it refers specifically to the "hot" or "spicy" quality of chili peppers. It is the preferred term by scientists as it eliminates the ambiguity arising from use of "hot", which can also refer to temperature, and "spicy", which can also refer to spices.[1] [6] [7]

For instance, a pumpkin pie can be both hot (out of the oven) and spicy (due to the common inclusion of spices such as cinnamon, nutmeg, allspice, mace, and cloves), but it is not pungent. Conversely, pure capsaicin is pungent, yet it is not naturally accompanied by a hot temperature or spices.

As the Oxford, Collins, and Merriam-Webster dictionaries explain, "piquancy" can refer to mild pungency, that is, flavors and spices that are much less strong than chilli peppers, including, for example, the strong flavor of some tomatoes. In other words, pungency always refers to a very strong taste whereas piquancy refers to any spices and foods that are "agreeably stimulating to the palate", in other words to food that is spicy in the general sense of "well-spiced".

Mildly pungent or sour foods may be referred to as tangy.

Uses

Pungency is often quantified in scales that range from mild to hot. The Scoville scale measures the pungency of chili peppers, as defined by the amount of capsaicin they contain.

Pungency is not considered a taste in the technical sense because it is carried to the brain by a different set of nerves. While taste nerves are activated when consuming foods like chili peppers, the sensation commonly interpreted as "hot" results from the stimulation of somatosensory fibers in the mouth. Many parts of the body with exposed membranes that lack taste receptors (such as the nasal cavity, genitals, or a wound) produce a similar sensation of heat when exposed to pungent agents.

The pungent sensation provided by chili peppers, black pepper and other spices like ginger and horseradish plays an important role in a diverse range of cuisines across the world.

Pungent substances, like capsaicin, are used in topical analgesics and pepper sprays.[8] [9]

Mechanism

Pungency is sensed via chemesthesis, the sensitivity of the skin and mucous membranes to chemical substances. Substances such as piperine, capsaicin, and thiosulfinates can cause a burning or tingling sensation by inducing a trigeminal nerve stimulation together with normal taste reception. The pungent feeling caused by allyl isothiocyanate, capsaicin, piperine, and allicin is caused by activation of the heat thermo- and chemosensitive TRP ion channels including TRPV1 and TRPA1 nociceptors. The pungency of chilies may be an adaptive response to microbial pathogens.

Favoring by humans

Capsaicin evolved in peppers to deter particularly seed-eating rodents that destroy seeds by grinding, thwarting their germination, while at the same allowing birds to eat them and disperse through defecation[10] (in birds, pepper seeds are not destroyed by consumption and digestion). It was found that birds do not feel pungency due to lack of TRP channels, but mammals, including rodents and humans, do have them.[10]

Unlike most other mammals, however, many humans favor pungent and spicy food (including traditionally spicy regional cuisines). Multiple reasons for that have been proposed. The thrill-seeking theory suggests that some people are attracted to spicy taste due to intense sensations or thrills.[11] According to the antimicrobial theory, general spices have been added to foods in hot climates due to antimicrobial properties of related substances.[11] The only other mammal known to consume pungent food is northern treeshrew (Tupaia belangeri).[12]

See also

Notes and References

  1. Tewksbury. J. J.. Reagan. K. M.. Machnicki. N. J.. Carlo. T. A.. Haak. D. C.. Penaloza. A. L. C.. Levey. D. J.. Evolutionary ecology of pungency in wild chilies. Proceedings of the National Academy of Sciences. 2008. 105. 33. 11808–11811. 10.1073/pnas.0802691105. 18695236. 2575311. 2008PNAS..10511808T. free.
  2. Web site: Chile Heat . 2006 . Chile Pepper Institute, New Mexico State University . September 14, 2012 . https://web.archive.org/web/20121016183453/http://www.chilepepperinstitute.org/files/tiny_mce/file_manager/educ_info/ChileHeat.pdf . October 16, 2012.
  3. Web site: Merriam-Webster Dictionary: "Piquant" . Merriam-webster.com . February 7, 2014 . November 15, 2022 . https://web.archive.org/web/20221115052254/https://www.merriam-webster.com/dictionary/piquant . live .
  4. Web site: Pungency . Collins English Dictionary . February 3, 2014 . February 7, 2014 . February 21, 2014 . https://web.archive.org/web/20140221095824/http://www.collinsdictionary.com/dictionary/english/pungency#pungency_1 . live .
  5. Web site: Merriam-Webster Dictionary: "Pungent" . Merriam-webster.com . February 7, 2014 . January 22, 2014 . https://web.archive.org/web/20140122075124/http://www.merriam-webster.com/dictionary/pungent . live .
  6. Web site: Chile Terminology . 2006 . Chile Pepper Institute, New Mexico State University . September 14, 2012 . https://web.archive.org/web/20121016183559/http://www.chilepepperinstitute.org/files/tiny_mce/file_manager/educ_info/Chile%20Terminology.pdf . October 16, 2012.
  7. Why are not all chilies hot? A trade-off limits pungency . Proceedings of the Royal Society B: Biological Sciences . 279 . 1735 . 2012–2017 . 10.1098/rspb.2011.2091 . 22189403 . 3311884 . 2011 . Haak . D. C. . McGinnis . L. A. . Levey . D. J. . Tewksbury . J. J. .
  8. Web site: Capsaicin . PubChem, US National Library of Medicine . 2 May 2023 . 29 April 2023 . 12 June 2018 . https://web.archive.org/web/20180612142907/https://pubchem.ncbi.nlm.nih.gov/compound/Capsaicin . live .
  9. Anand . P. . Bley . K. . October 2011 . Topical capsaicin for pain management: therapeutic potential and mechanisms of action of the new high-concentration capsaicin 8% patch . British Journal of Anaesthesia . 107 . 4 . 490–502 . 10.1093/bja/aer260 . 0007-0912 . 3169333 . 21852280.
  10. Directed deterrence by capsaicin in chillies. Joshua J. Tewksbury, Gary P. Nabhan. Nature. 26 July 2001. 412 . 6845 . 403–404 . 31 January 2024. 10.1038/35086653. 11473305 . 4389051 .
  11. Chili pepper preference development and its impact on dietary intake: A narrative review. Emily Siebert, Soo-Yeun Lee, Melissa Pflugh Prescott. Frontiers in Nutrition. 14 Dec 2022. 9 . 10.3389/fnut.2022.1039207. free . 36590220 . 9795841 .
  12. Molecular mechanism of the tree shrew's insensitivity to spiciness. Various authors. PLOS Biology. 17 July 2018. 31 January 2024.