Harrat al-Sham

(Redirected from Harrat al-Shamah)

The Ḥarrat al-Shām (Arabic: حَرَّة ٱلشَّام),[1][nb 1] also known as the Harrat al-Harra or Harrat al-Shaba,[2] and sometimes the Black Desert in English,[3] is a region of rocky, basaltic desert straddling southern Syrian region and the northern Arabian Peninsula. It covers an area of some 40,000 km2 (15,000 sq mi)[citation needed] in the modern-day Syrian Arab Republic, Jordan, and Saudi Arabia. Vegetation is characteristically open acacia shrubland with patches of juniper at higher altitudes.[4]

Ḥarrat al-Shām
Black Desert
Location within the Levant of the wider volcanic province it is part of
Location within the Levant of the wider volcanic province it is part of
Map
Coordinates: 32°37′53″N 36°45′52″E / 32.63139°N 36.76444°E / 32.63139; 36.76444
Part ofSyrian Desert
Offshore water bodies
AgeOligocene, Neogene, Quaternary
GeologyBasaltic volcanic field
Volcanic fieldHarrat Ash Shaam Volcanic Province (HASV)
The Harrat near Jawa in eastern Jordan

The Harrat has been occupied by humans since at least the Late Epipalaeolithic (c. 12,500–9500 BCE).[5] One of the earliest known sites is Shubayqa 1 (occupied c. 12,600–10,000 BCE),[5][6] a Natufian site where archaeologists have discovered the remains of the oldest known bread.[7]

Geology

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Harrah region from the Space Shuttle

The Harrat comprises volcanic fields formed by tectonic activity from the Oligocene through to the Quaternary.[8] It is the largest of several volcanic fields on the Arabian Plate,[9] containing more than 800 volcanic cones and around 140 dikes.[8] Activity began during the Miocene; an earlier eruptive stage at the southeastern end of the volcanic field, occurred during the late Pleistocene and the Holocene.[10] It is known to have erupted in historic times.[11][12]

The Jabal al-Druze, al-Safa and Dirat al-Tulul volcanic fields, among others, form the northern and Syrian part of the ḥarra. The Saudi Arabian portion of the Harrat Ash Shamah volcanic field extends across a 210 km (130 miles)-long, roughly 75 km (47 miles)-wide northwest-southeast-trending area on the northeastern flanks of the Wadi Sirhan and reaches its 1,100 metres (3,600 ft) high point at Jabal al-Amud. It is in the Tabuk Province of northwest Saudi Arabia.[13][14] and is one of a series of Quaternary volcanic fields paralleling the Red Sea coast.

History and economy

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The Harrat has traditionally been occupied by nomadic Bedouin of the Anizah confedaration.[15][16] It It is primarily associated with the Ahl al-Jabal tribe, who graze sheep, goats, donkeys and camels there, but the Rwala, Zbaid, Ghayyath, Sardiyya and other tribes also use the area at times.[16] Although the region as a whole is too dry for rainfed agriculture, seasonal wetlands such as the Qa' Shubayqa are used for growing cereals after they are flooded by winter rains.[16][17] In the second half of the 20th century, many Bedouin settled in the village of Safawi, which grew up around a pumping station on the Kirkuk–Haifa oil pipeline (H5).[18]

Archaeological sites

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Jordan

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See also

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Notes

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  1. ^ Variously transcribed as the harra, Ḥarrat ash-Shāmah (حَرَّة ٱلشَّامَة) or Ḥarrate-Shāmah (حَرَّةِ شَامَة).[citation needed]

References

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  1. ^ Ibrahim, K. (1993), The geological framework for the Harrat Ash-Shaam Basaltic Super-Group and its volcanotectonic evolution, Jordan: Bulletin 24, Geological Mapping Division, Natural Resources Authority
  2. ^ Edgell, H. Stewart (2006). Arabian Deserts: Nature, Origin and Evolution. Dordrecht: Springer. pp. 327–329, 347. ISBN 978-1-4020-3969-0.{{cite book}}: CS1 maint: date and year (link)
  3. ^ Betts, Alison (1982). "A Natufian site in the Black Desert, Eastern Jordan". Paléorient. 8 (2): 79–82. doi:10.3406/paleo.1982.4322. ISSN 0153-9345.
  4. ^ S.A. Ghazanfar, Vegetation of the Arabian Peninsula (Springer Science & Business Media, 1998) p 272.
  5. ^ a b Richter, Tobias (2017). "Natufian and early Neolithic in the Black Desert". In Enzel, Yehouda; Bar-Yosef, Ofer (eds.). Quaternary of the Levant: Environments, Climate Change, and Humans. Cambridge: Cambridge University Press. pp. 715–722. ISBN 978-1-107-09046-0.
  6. ^ Richter, Tobias; Arranz-Otaegui, Amaia; Yeomans, Lisa; Boaretto, Elisabetta (5 December 2017). "High Resolution AMS Dates from Shubayqa 1, northeast Jordan Reveal Complex Origins of Late Epipalaeolithic Natufian in the Levant". Scientific Reports. 7 (1): 17025. Bibcode:2017NatSR...717025R. doi:10.1038/s41598-017-17096-5. ISSN 2045-2322. PMC 5717003. PMID 29208998.
  7. ^ Arranz-Otaegui, Amaia; Carretero, Lara Gonzalez; Ramsey, Monica N.; Fuller, Dorian Q.; Richter, Tobias (31 July 2018). "Archaeobotanical evidence reveals the origins of bread 14,400 years ago in northeastern Jordan". Proceedings of the National Academy of Sciences. 115 (31): 7925–7930. doi:10.1073/pnas.1801071115. ISSN 0027-8424. PMC 6077754. PMID 30012614.
  8. ^ a b Al Kwatli, Mohamad Amer; Gillot, Pierre Yves; Lefèvre, Jean Claude; Hildenbrand, Anthony (2015-09-01). "Morpho-structural analysis of Harrat Al Sham volcanic field Arabian plate (Syria, Jordan, and Saudi Arabia): methodology and application". Arabian Journal of Geosciences. 8 (9): 6867–6880. doi:10.1007/s12517-014-1731-1. ISSN 1866-7538. S2CID 129569824.
  9. ^ Krienitz, M.-S.; Haase, K. M.; Mezger, K.; Shaikh-Mashail, M. A. (2007-08-01). "Magma Genesis and Mantle Dynamics at the Harrat Ash Shamah Volcanic Field (Southern Syria)". Journal of Petrology. 48 (8): 1513–1542. doi:10.1093/petrology/egm028. ISSN 0022-3530.
  10. ^ H. Stewart Edgell, Arabian Deserts: Nature, Origin and Evolution (Springer Science & Business Media, 21Jul.,2006 ) p329-330
  11. ^ Geological Survey Professional Paper. U.S. Government Printing Office. 1989. p. 153.
  12. ^ Peter Vincent, Saudi Arabia: An Environmental Overview (CRC Press, 2008) p22.
  13. ^ U.S. Geological Survey Professional Paper (U.S. Government Printing Office, 1989) pA152
  14. ^ Geological Survey Professional Paper, Volume 560, Part 1 (U.S. Government Printing Office, 1989)
  15. ^ Lancaster, William; Lancaster, Fidelity (1997-02-01). "Indigenous resource management systems in the Bâdia of the Bilâd ash-Shâm". Journal of Arid Environments. 35 (2): 367–378. doi:10.1006/jare.1996.0169. ISSN 0140-1963.
  16. ^ a b c Lancaster, William; Lancaster, Fidelity (1999). People, Land and Water in the Arab Middle East. London: Routledge. pp. 100–102. ISBN 9781315079257.
  17. ^ Jones, Matthew D.; Richter, Tobias; Rollefson, Gary; Rowan, Yorke; Roe, Joe; Toms, Phillip; Wood, Jamie; Wasse, Alexander; Ikram, Haroon; Williams, Matthew; AlShdaifat, Ahmad; Pedersen, Patrick Nørskov; Esaid, Wesam (2022-10-20). "The palaeoenvironmental potential of the eastern Jordanian desert basins (Qe'an)". Quaternary International. Geoarchaeology from Mediterranean Areas to Arid Margins. 635: 73–82. doi:10.1016/j.quaint.2021.06.023. ISSN 1040-6182.
  18. ^ "Arid Land Resources and Their Management: Jordan's Desert Margin". Routledge & CRC Press. Retrieved 2024-12-17.

Further reading

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  • Ilani, S., Harlavan, Y., Tarawneh, K., Rabba, I., Weinberger, R., Khalil, I., and Peltz, S. (2001), "New K-Ar ages of basalts from the Harrat Ash Shaam volcanic field in Jordan: Implications for the span and duration of the upper-mantle upwelling beneath the western Arabian plate" Geology 29(2):171–174
  • Kempe, S. and Al-Malabeh, A. (2005), "Newly discovered lava tunnels of the Al-Shaam plateau basalts", Geophysical Research Abstracts 7, European Geosciences Union
  • Salf, S.I. (1988), "Field and petrographic characteristics of Cenozoic basaltic rocks, Northwestern Saudi Arabia" Journal of African Earth Sciences, 7(5):805–809
  • Weinstein, Y., Navon, O., Altherr, R., and Stein, M., (2006) "The role of lithospheric mantle heterogeneity in the generation of Plio-Pleistocene alkali basalt suites from NW Harrat Ash Shaam (Israel)", Journal of Petrology 47(5):1017–1050
  • Al Kwatli, M.A., Gillot, P.Y., Zeyen, H., Hildenbrand, A., and Al Gharib, I., 2012. Volcano-tectonic evolution of the northern part of the Arabian plate in the light of new K-Ar ages and remote sensing: Harrat Ash Shaam volcanic province (Syria). Tectonophysics, 580, 192–207.
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