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Numerical results for any specimen vary depending on its cultivation conditions and the uncertainty of the laboratory methods used to assess the capsaicinoid content. Pungency values for any pepper are variable, due to expected variation within a species—easily by a factor of 10 or more—depending on seed lineage, climate (humidity is a big factor for the Bhut Jolokia; the Dorset Naga and the original Naga have quite different ratings), and even soil (this is especially true of ]s). The inaccuracies described in the measurement methods above also contribute to the imprecision of these values. When interpreting Scoville ratings, this should be kept in mind.<ref name="tainter" /> | Numerical results for any specimen vary depending on its cultivation conditions and the uncertainty of the laboratory methods used to assess the capsaicinoid content. Pungency values for any pepper are variable, due to expected variation within a species—easily by a factor of 10 or more—depending on seed lineage, climate (humidity is a big factor for the Bhut Jolokia; the Dorset Naga and the original Naga have quite different ratings), and even soil (this is especially true of ]s). The inaccuracies described in the measurement methods above also contribute to the imprecision of these values. When interpreting Scoville ratings, this should be kept in mind.<ref name="tainter" /> | ||
The Scoville scale may be extrapolated to express the pungency of substances that are even hotter than pure capsaicin. One such substance is ], an alkaloid present in the sap of some species of ] plants (spurges). Since it is 1000 times as hot as capsaicin, it would have a Scoville scale rating of |
The Scoville scale may be extrapolated to express the pungency of substances that are even hotter than pure capsaicin. One such substance is ], an alkaloid present in the sap of some species of ] plants (spurges). Since it is 1000 times as hot as capsaicin, it would have a Scoville scale rating of 160 billion.<ref>Atala, Anthony, and Debra Slade (2003), ''Bladder Disease'', (Washington DC: National Bladder Foundation), p. 361.</ref> | ||
== References == | == References == |
Revision as of 17:45, 16 August 2011
The Scoville scale is a measurement of the spicy heat (or piquance) of a chili pepper. The number of Scoville heat units (SHU) indicates the amount of capsaicin present. Capsaicin is a chemical compound that stimulates chemoreceptor nerve endings in the skin, especially the mucous membranes.
The scale is named after its creator, American pharmacist Wilbur Scoville. His method, devised in 1912, is known as the Scoville Organoleptic Test. The modern commonplace method for quantitative analysis uses high-performance liquid chromatography, making it possible to directly measure capsaicinoid content.
Scoville organoleptic test
In Scoville's method, an alcohol extract of the capsaicin oil from a measured amount of dried pepper is added incrementally to a solution of sugar in water until the "heat" is just detectable by a panel of (usually five) tasters; the degree of dilution gives its measure on the Scoville scale. Thus a sweet pepper or a bell pepper, containing no capsaicin at all, has a Scoville rating of zero, meaning no heat detectable. The hottest chilis, such as habaneros and nagas, have a rating of 200,000 or more, indicating that their extract must be diluted over 200,000 times before the capsaicin presence is undetectable. The greatest weakness of the Scoville Organoleptic Test is its imprecision, because it relies on human subjectivity. Tasters taste only one sample per session.
High-performance liquid chromatography
Spice heat is usually measured by a method that uses high performance liquid chromatography (HPLC). This identifies and measures the concentration of heat-producing chemicals. The measurements are used in a mathematical formula that weights them according to their relative capacity to produce a sensation of heat. This method yields results, not in Scoville units, but in American Spice Trade Association (ASTA) pungency units. A measurement of one part capsaicin per million corresponds to about 15 Scoville units, and the published method says that ASTA pungency units can be multiplied by 15 and reported as Scoville units. This conversion is approximate, and spice experts Donna R. Tainter and Anthony T. Grenis say that there is consensus that it gives results about 20–40% lower than the actual Scoville method would have given. Results vary widely, up to 50%, between laboratories.
List of Scoville ratings
The chilis with the highest rating on the Scoville scale exceed one million Scoville units, and include specimens of naga jolokia or bhut jolokia and its cultivars, the "Dorset naga" and the "Ghost chili," neither of which has official cultivar status.
Numerical results for any specimen vary depending on its cultivation conditions and the uncertainty of the laboratory methods used to assess the capsaicinoid content. Pungency values for any pepper are variable, due to expected variation within a species—easily by a factor of 10 or more—depending on seed lineage, climate (humidity is a big factor for the Bhut Jolokia; the Dorset Naga and the original Naga have quite different ratings), and even soil (this is especially true of habaneros). The inaccuracies described in the measurement methods above also contribute to the imprecision of these values. When interpreting Scoville ratings, this should be kept in mind.
The Scoville scale may be extrapolated to express the pungency of substances that are even hotter than pure capsaicin. One such substance is resiniferatoxin, an alkaloid present in the sap of some species of euphorbia plants (spurges). Since it is 1000 times as hot as capsaicin, it would have a Scoville scale rating of 160 billion.
References
- K. V. Peter (ed), Handbook of Herbs and Spices Vol 1, CRC Press, 2001 ISBN 0-8493-1217-5 page 120
- The Journal of the American Pharmacists Association 1912; 1:453–4
- ^ Tainter, Donna R. (2001). Spices and Seasonings. Wiley-IEEE. p. 30. ISBN 0-471-35575-5.
Interlab variation could be as high as + / - 50%. However, labs that run these procedures could generate reasonably repeatable results.
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suggested) (help) - Uhl (1996), op. cit. "The HPLC measures the capsaicinoid(s) in ppm, which can then be converted to Scoville units using a conversion factor of 15, 20 or 30 depending on the capsaicinoid." This would make capsaicin 15,000,000
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"The Police Policy Studies Council". www.theppsc.org. Retrieved 2009-02-09.
Most law enforcement sprays have a pungency of 500,000 to 2 million SHU. One brand has sprays with 5.3 million SHU.
- Dykes, Brett Michael (3 December 2010 11:38 am ET). "World's hottest pepper is 'hot enough to strip paint'". Yahoo! News. Retrieved 3 December 2010.
{{cite web}}
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(help) - "Grantham's Infinity chilli named hottest in world". BBC News. 2011-02-18.
- Shaline L. Lopez (2007). "NMSU is home to the world's hottest chile pepper". Archived from the original on 2007-02-19. Retrieved 2007-02-21.
- AP (23 February 2007). "World's hottest chili pepper a mouthful for prof". CNN. Archived from the original on 2007-03-22.
- Matthew Da Silva, "Aussies grow world's hottest chilli", Australian Geographic, 12 April 2011
- "World's hottest chile pepper discovered". American Society for Horticultural Science. Retrieved 2008-03-31.
- ^ "Chile Pepper Heat Scoville Scale". About.com. Retrieved 2006-09-25.
- "The Scoville Scale".
- ^ "Scoville Scale Chart for Hot Sauce and Hot Peppers". ScottRobertsWeb.com. Retrieved 2008-11-19.
- "Anaheim Pepper" (PDF). Chile Pepper Institute at New Mexico State University. 2007. Retrieved 2007-10-22.
- "World's hottest chilli grown in Grantham, Lincs". The Daily Telegraph. London: Telegraph.co.uk. 2010-04-01. Retrieved 2010-04-24.
- "Grantham firm grows world's hottest chilli". www.thisislincolnshire.co.uk. Retrieved 2010-04-24.
- Atala, Anthony, and Debra Slade (2003), Bladder Disease, (Washington DC: National Bladder Foundation), p. 361.
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