Aleppo soap

Aleppo soap (also known as savon d'Alep, laurel soap, Syrian soap, or ghar soap, the Arabic word "غَار", meaning 'laurel') is a handmade, hard bar soap associated with the city of Aleppo, Syria. Aleppo soap is classified as a Castile soap as it is a hard soap made from olive oil and lye, from which it is distinguished by the inclusion of laurel oil.

Aleppo soap

History

The origin of Aleppo soap is unknown. Unverified claims of its great antiquity abound,[1][2] such as its supposed use by Queen Cleopatra of Egypt and Queen Zenobia of Syria.[3] It is commonly thought that the process of soap-making emanated from the Levant region (of which Aleppo is the main city) and to have moved west from there to Europe after the First Crusades. This is based on the claim that the earliest soap made in Europe was shortly after the Crusades, but the soap was known to the Romans in the first century AD and Zosimos of Panopolis described soap and soapmaking in c. 300 AD.[4]

Today most Aleppo soap, especially that containing more than 16% of laurel oil, is exported to Europe and East Asia.[5]

Manufacturing process

Soap in a vat
Soap cooling
Final result

Traditional Aleppo soap is made by the "hot process". First, the olive oil is brought into a large, in-ground vat along with water and lye. Underneath the vat, there is an underground fire that heats the contents to a boil. Boiling lasts three days while the oil reacts with the lye and water to become a thick liquid soap.

The laurel oil is added at the end of the process, and after it is mixed in, the mix is taken from the vat and poured over a large sheet of waxed paper on the floor of the factory. At this point, the soap is a large, green, flat mass, and it is allowed to cool down and harden for about a day. While the soap is cooling, workers with planks of wood strapped to their feet walk over the soap to try to smooth out the batch and make it an even thickness.

The soap is then cut into cubes. The cubes of soap are stacked in staggered cylinders to allow maximum air exposure. Once they have dried sufficiently, they are put into a special subterranean chamber to be aged for six months to a year. While it is aging, the soap goes through several chemical changes. The free alkaline content of the soap (the alkaline which did not react with the oil during saponification) breaks down upon slow reaction with air. The moisture content of the soap is also reduced, making the soap hard and long-lasting. And lastly, the color of the outside of the soap turns pale gold, while the inside remains green.

Modern Aleppo soaps are manufactured using a "cold process" and contain olive and laurel oils, and may contain a variety of herbs and/or essential oils.

Ingredients

Traditional Aleppo soap is made with olive oil, laurel berry oil (zeit ghar), water and lye, while the relative concentration of laurel oil (typically 2–20%) determines the quality and cost of the soap. Laurus nobilis, from which the berries come, is categorized as an underutilized species.[6][7] As it is produced only from natural oils, Aleppo soap is also biodegradable.[8]

In the 20th century, with the introduction of cold process soap making, Allepian soap artisans began introducing a variety of herbs and essential oils to their soaps.

Unlike most soaps, some Aleppo soap will float in water.

Some Aleppo soap will float but not all. This will be dependent on the process and the amount of air trapped within the mix when being poured and solidifying. The exception to this; Aleppo soap which uses the higher quality method of first press Virgin Oil processed using the cold saponification method. This is the premium of soaps produced in the traditional way and they will generally partly sink or remain on the bottom as it will be a denser bar of soap with less air content.

Skin care properties

Aleppo soap can be used daily as soap for washing and shampooing, as face mask, as shaving cream, and for bathing infants and babies.[9] Laurel oil is an effective cleanser, antimicrobial,[10] antifungal[11] and anti-itching agent.

See also

References

  1. Mosquin, Daniel (2008-03-26). "Laurus nobilis - Botany Photo of the Day". Botanicalgarden.ubc.ca. Archived from the original on 2012-04-02. Retrieved 2012-07-09.
  2. "Aleppo Soap, The True Natural Soap". Natural Cosmetic News. Retrieved 2012-07-09.
  3. Giuliani, Alessandra (2007). Developing Markets for Agrobiodiversity: Securing Livelihoods in Dryland Areas. London: Earthscan. ISBN 9781849770972.
  4. Partington, James R (1960). A history of Greek fire and gunpowder. p. 307. ISBN 9780801859540.
  5. Yacoub, Khaled (2010-10-22). "Modern threat to Syria's ancient Aleppo soap industry". Reuters. Retrieved 2012-07-09.
  6. "Laurel (Laurus nobilis)" (PDF). Global Facilitation Unit for Underutilized Species. Retrieved 2014-01-05.
  7. Gruère, Guillaume; Smale, Melinda; Giuliani, Alessandra (2006). Marketing Underutilized Plant Species for the Benefit of the Poor: A Conceptual Framework. IFPRI Environmental and Protection Technology (EPT) Discussion Paper (Report). p. 2. doi:10.2139/ssrn.916572. SSRN 916572.
  8. Al-Darbi, M.M.; Saeed, N.O.; Islam, M.R.; Lee, K. (2003). "Biodegradation of Natural Oils in Seawater" (PDF). Energy Sources. 27 (1–2): 21. CiteSeerX 10.1.1.497.4049. doi:10.1080/00908310490448073. S2CID 7615677.
  9. Kiechl-Kohlendorfer, Ursula; Berger, Cindy; Inzinger, Romy (2008). "The Effect of Daily Treatment with an Olive Oil/Lanolin Emollient on Skin Integrity in Preterm Infants: A Randomized Controlled Trial". Pediatric Dermatology. 25 (2): 174–8. doi:10.1111/j.1525-1470.2008.00627.x. PMID 18429773.
  10. Fukuyama, Noriaki; Ino, Chieko; Suzuki, Yumiko; Kobayashi, Noritada; Hamamoto, Hiroshi; Sekimizu, Kazuhisa; Orihara, Yutaka (2011). "Antimicrobial sesquiterpenoids from Laurus nobilis L.". Natural Product Research. 25 (14): 1295–303. doi:10.1080/14786419.2010.502532. PMID 21678158. S2CID 20697261.
  11. Simić, A.; Soković, M. D.; Ristić, M.; Grujić-Jovanović, S.; Vukojević, J.; Marin, P. D. (2004). "The chemical composition of some Lauraceae essential oils and their antifungal activities". Phytotherapy Research. 18 (9): 713–7. doi:10.1002/ptr.1516. PMID 15478207.

Bibliography

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