Hashbai

Hashbai
Alternative nameTell Hashbai
LocationBeqaa Valley, Lebanon
TypeTell
Part ofSettlement
History
Foundedc. 8200-6200 BC
PeriodsPPNB, Neolithic
Site notes
Excavation dates1965-1966
ArchaeologistsLorraine Copeland,
Peter J.
Wescombe,
Henri de Contenson
Conditionruins
Public accessYes

Hashbai or Tell Hashbai is an archaeological site on the west of the Beqaa Valley in Lebanon.[1][2]

The area is watered by the Mount Lebanon reservoirs and sits beside the Wadi Hashbai, close to the Ain Hashbai springs.[3] The site is located on the side of the valley as older sites in the central valley have been deeply covered in soil.

It was first surveyed and studied in 1965-6 by Lorraine Copeland, Peter Wescombe and Henri de Contenson. Materials found included burnished, red-washed shards of pottery (some with incision decoration), arrowheads, sickle blades with coarse denticulation, obsidian, basalt rubber and a limestone pestle. suggested PPNB or Neolithic dating similar to Tell Ramad, Byblos or Amuq with occupation as late as the Bronze Age. A dark brown and black flint group of later appearance was also detected. It was suggested that if this flint group were to belong with the production period for Dark Faced Burnished Ware or red-washed pottery, then it may carry an even earlier PPNB date. Along with evidence from White Ware in the area, this has suggested that the Beqaa sites are of a sub-group suggested to date earlier chronologically than finds from Byblos.[4]

References

  1. ^ Lorraine Copeland; P. Wescombe (1965). Inventory of Stone-Age sites in Lebanon. Imprimerie Catholique. Retrieved 15 March 2011.[permanent dead link]
  2. ^ Copeland, Lorraine, "Neolithic Village Sites in the South Beqaa Lebanon", Melanges de l'Université Saint-Joseph (Beirut Lebanon) Volume 45, (Pages 83-114), 1969.
  3. ^ Université Saint-Joseph (Beirut; Lebanon) (1969). Mélanges de l'Université Saint-Joseph. Impr. catholique. Retrieved 24 March 2011.
  4. ^ Moore, A.M.T. (1978). The Neolithic of the Levant. Oxford University, Unpublished Ph.D. Thesis. pp. 346–349 & 436–442.