Backed pieces at Sharbithat SHA-10 (Sultanate of Oman)
Technological issues and chronological assessment
DOI:
https://doi.org/10.4312/dp.51.10Keywords:
Southeastern Arabia, Late Neolithic, lithic technology, backed pieces, fisherfolks campsiteAbstract
Sharbithat 10 (SHA-10) was discovered in 2017 during the first extensive survey of the northern part of the Dhofar region. Located on a vast mesa surrounded by wadi deltaic branches and abundant sources of flint, SHA-10 is characterized by flint scatters, dwellings, and cairns. Initial test trenches revealed a single period stratification sequence, highlighting a rich marine faunal composition and intense flintknapping activity. The fishing equipment, typical of coastal sites from this period, accompanies a distinctive lithic industry comprising blades, backed pieces, and tanged points. Through the study of technological processes leading to the manufacture of these artefacts, analysis of the points’ morphological variability, and examination of the prevalence of backed bladelets, new hypotheses regarding coastal subsistence strategies and chronological issues have emerged. However, the potential co-occurrence of different facies complicates a chronological definition which can be partly clarified by radiocarbon data results. In this communication, we present a preliminary study of this unique assemblage, discuss its chrono-typological implications, and explore their significance within the framework of South Arabian prehistory.
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References
Bretzke K. 2018. Preliminary report on the 2017 excavations at Jebel Faya-NE 1 and Buhais 84. Annual Sharjah Archaeology 16: 77–83.
Bretzke K. 2020. The Palaeolithic record from the Central Region of the Emirate of Sharjah, United Arab Emirates. In K. Bretzke, R. Crassard, and Y. H. Hilbert (eds.), Stone Tools of Prehistoric Arabia. Supplement to Volume 50 of the Proceedings of the Seminar for Arabian Studies. Archaeopress. Oxford: 15–26.
Buchinger N., Händel M., Magee P., Al Meqbali A., and Al Kaabi A. 2020. The chipped stone assemblage from Hili 8 – Early Bronze Age innovation vs. Neolithic tradition. In K. Bretzke, R. Crassard and Y. H. Hilbert (eds.), Stone Tools of Prehistoric Arabia. Supplement to Volume 50 of the Proceedings of the Seminar for Arabian Studies. Archaeopress. Oxford: 137–147.
Charpentier V. 2008. Hunter-gatherers of the “empty quarter of the early Holocene” to the last Neolithic societies: chronology of the late prehistory of south–eastern Arabia (8000–3100 BC). Proceedings of the Seminars for Arabian Studies 38: 59–82.
Charpentier V. 2004. Trihedral points: a new facet to the “Arabian Bifacial Tradition”. Proceedings of the Seminars for Arabian Studies 34: 53–66.
Charpentier V. 2021. Avec les premiers chasseurs-collecteurs maritimes d’Arabie. Archéologia 601: 64–69.
Charpentier V., Crassard R. 2013. Back to Fasad … and the PNB controversy. Questioning a Levantine origin for Arabian Early Holocene projectile points technology. Arabian Archaeology and Epigraphy 24(1): 28–36.
Charpentier V., Maiorano M. P., Marchand G., Vosges J., and Borgi F. 2023. Twelve years of the “Arabian Seashores” project: How the extensive investigation of coastal Oman changed the paradigm of the Arabian Neolithic. Arabian Archaeology and Epigraphy 34: S1–S21. https://doi.org/10.1111/aae.12236
Clarkson C., Hiscock P., Mackay A., and Shipton C. 2018. Small, sharp, and standardized: Global convergence in backed-microlith technology. In M. J. O’Brien, B. Buchanan, and M. I. Eren (eds.), Convergent evolution in stone-tool technology. MIT Press. Cambridge: 175–200.
Cleuziou S., Tosi M. 2018. In the Shadow of the Ancestors. The Prehistoric Foundations of the Early Arabian Civilization in Oman. Ministry of Heritage and Culture of the Sultanate of Oman. Khuwair, Muscat.
Crassard R. 2008. La Préhistoire du Yémen. Diffusions et diversités locales, à travers l’étude d’industries lithiques du Hadramawt. BAR International Series S1842. Archaeopress. Oxford.
Crassard R., Drechsler P. 2013. Towards new paradigms: multiple pathways for the Arabian Neolithic. Arabian Archaeology and Epigraphy 24: 3–8. https://hal.science/hal-01828787
Crassard R., Charpentier V., McCorriston J., Vosges J., Bouzid S., and Petraglia M. D., 2020. Fluted point technology in Neolithic Arabia: An independent invention far from the Americas. PLoSONE 15(8): e0236314. https://doi.org/10.1371/journal.pone.0236314
Cremaschi M., Negrino F. 2002. The frankincense road of Sumhuram: palaeoenvironmental and prehistorical background. In A. Avanzini (ed.), Khor Rori Report 1. Edizioni Plus. Pisa: 325–363.
Danielisová A., Maiorano M. P., Chlachula D., +5 authors, and Garba R. 2024. The first investigation of an Iron Age shell midden in Oman: The Nafūn complex. Journal of Ar- chaeological Science: Reports 55: 104501. https://doi.org/10.1016/j.jasrep.2024.104501
De Bie M., Caspar J.-P. 2000. Rekem, A Federmesser Camp on the Meuse River Bank. Volume 1. Archeologie in Vlaanderen Monografie 3. Acta Archaeologica Lovaniensia Monographiae 10. Instituut voor het Archaeogish patrimonium. Leuven University Press. Asse-Zellik. Leuven.
Duches R., Peresani M., and Pasetti P. 2018. Success of a flexible behavior. Considerations on the manufacture of Late Epigravettian lithic projectile implements according to experimental tests. Archaeological and Anthropological Sciences 10 (2):1617–1643. https://doi.org/10.1007/s12520-017-0473-x
Groman-Yaroslavski I., Chen H., Liu C., +4 authors, and Nadelet D. 2020. Versatile use of microliths as a technological advantage in the miniaturization of Late Pleistocene toolkits: The case study of Neve David, Israel. PLoS One 15(6): e0233340. https://doi.org/10.1371/journal.pone.0233340
Hilbert Y. H. 2020. Jebel Kareem (TH.68): Techno-typological characteristics of a distinctive lithic assemblage from Dhofar, southern Oman. Arabian Archaeology and Epigraphy 31: 128–139.
Hilbert Y. H., Clemente-Conte I., al-Fudhaili N., and Correa M. L. 2021. Traceological analysis of Paleolithic backed points from Dhofar: insights into South Arabian projectile technology. Bulletin of the International Association for the Study of Arabia 26: 13–15. https://www.theiasa.com/publications/bulletin/
Hilbert H., Lischi S. 2020. The lithic industry from the Iron Age coastal settlement HAS1 (Inqitat), southern Oman. In K. Bretzke, R. Crassard, and Y. H. Hilbert (eds.), Stone Tools of Prehistoric Arabia. Papers from the Special Session of the Seminar for Arabian Studiesheld in July 2019 in Leiden. Supplement to Volume 50 of Proceedings of the Seminar for Arabian Studies. Archaeopress. Oxford: 177–191.
Hilbert Y. H., Usik V. I., Galletti C. S., +7 authors, and Rose J. I. 2015. Archaeological evidence for indigenous human occupation of Southern Arabia at the Pleistocene/Holocene transition: The case of al-Hatab in Dhofar, Southern Oman. Paléorient 41: 31–49.
Iovita R. 2009. Ontogenetic scaling and lithic systematics: Method and application. Journal of Archaeological Science 36(7): 1447–1457. https://doi.org/10.1016/j.jas.2009.02.008
Iovita R. 2010. Comparing stone tool resharpening trajectories with the aid of elliptical Fourier analysis. In S. Lycett, P. Chauhan (eds.), New perspectives on old stones: Analytical approaches to Paleolithic technologies. Springer. New York: 235–253. https://doi.org/10.1007/978-1-4419-6861-6_10
Kallweit H., 2004. Lithics from the Emirates: the Abu Dhabi Airport sites. Proceeding of the Seminars for Arabian Studies 34: 139–145.
Leplongeon A., Ménard C., Bonhomme V., and Bortolini E. 2020. Backed Pieces and Their Variability in the Later Stone Age of the Horn of Africa. African Archaeology Review 37: 437–468. https://doi.org/10.1007/s10437-020-09401-x
Lézine A.–M., Ivory S. J., Braconnot P., and Marti O. 2017. Timing of the southward retreat of the ITCZ at the end of the Holocene Humid Period in Southern Arabia: Data- model comparison. Quaternary Science Review 164: 68–76. https://doi.org/10.1016/j.quascirev.2017.03.019
Maggi R., Gebel H. G. 1990. A preliminary report on the chipped stone industries of the middle-Holocene shell-midden communities of Ra’s al-Hamra 5 layer 1 (Muscat-Sultanate of Oman). Rivista di Archeologia 14: 5–24.
Maiorano M. P., Crassard R., Charpentier V., and Bortolini E. 2020. A quantitative approach to the study of Neolithic projectile points from southeastern Arabia. Arabian Archaeology and Epigraphy 31: 151–167. https://doi.org/10.1111/aae.12147
Maiorano M. P., Marchand G., Vosges J., Berger J.-F., Borgi F., and Charpentier V. 2018. Sharbithat and the Early-Middle Holocene chronology (Dhofar, Sultanate of Oman). Proceeding of the Seminars for Arabian Studies 48: 219– 234.
Maiorano M. P., Marchand G., Vosges, J., and Charpentier V. 2023. Challenging the Late Neolithic cultural horizon of Southern Arabia: the case of Sharbithat 10 (Dhofar, Sul- tanate of Oman). Archaeological research in Asia 33: 100429. https://doi.org/10.1016/j.ara.2023.100429
Mellars P. 2006. Why did modern human populations disperse from Africa ca. 60,000 years ago? A new model. PNAS 103(25): 9381-9386. https://doi.org/10.1073/pnas.0510792103
Millet M. 1988. Survey of the Sharjah Coast. Sharjah Archaeology 4: 21–30.
Moore M. W., Weeks L., Cable C. M., Al-Ali Y. Y., Boraik M., and Zein H. 2020. Bronze Age microliths at Saruq al-Hadid, Dubai. In K. Bretzke, R. Crassard, and Y. H. Hilbert (eds.), Stone Tools of Prehistoric Arabia. Papers from the Special Session of the Seminar for Arabian Studies held in July 2019 in Leiden. Supplement to Volume 50 of Proceedings of the Seminar for Arabian Studies. Archaeopress. Oxford: 149–166.
Ochs U. 2020. A Hafit-period stone tool assemblage from Al-Khashbah, Sultanate of Oman. In K. Bretzke, R. Crassard, and Y. H. Hilbert (eds.), Stone Tools of Prehistoric Arabia. Papers from the Special Session of the Seminar for Arabian Studies held in July 2019 in Leiden. Supplement to Volume 50 of Proceedings of the Seminar for Arabian Studies. Archaeopress. Oxford: 167-176.
Platel J. P., Le Mètour J., Berthiaux A., Beurrier M., and Roger J. 1992. Geological Map of Juzor al Halaaniyaat (1: 250,000 Sheet NE 40-10). Explanatory notes. Bureau de Recherches Géologiques et Minières. Orléans Cedex 2.
Preston G. W., Thomas D. S. G., Goudie A. S., +7 authors, and Parker A. G. 2015. A multiproxy analysis of the Holocene humid phase from the United Arab Emirates and its implications for southeast Arabia’s Neolithic populations. Quaternary International 382: 277–292. https://doi.org/10.1016/j.quaint.2015.01.054
Reimer P. J., Bard E., Bayliss A., +25 authors, and van der Plicht J. 2013. INTCAL13 and MARINE13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55: 1869–1887. http://doi:10.2458/azu_js_rc.55.16947
Rose J. I., Usik V. I. 2009. The “Upper Paleolithic” of South Arabia. In M. D. Petraglia, J. I. Rose (eds.), The Evolution of Human Populations in Arabia. Springer Netherlands. Dordrecht: 169–185. https://doi.org/10.1007/978-90-481-2719-1_13
Rose J. I., Hilbert Y. H. 2014. New prehistoric sites in the southern Rub’al-Khali desert, Oman. Antiquity Project Gallery 88(381): 15.
Rose J. I., Hilbert Y. H., Usik V. I., +4 authors, and Preusser F. 2019. 30,000-Year-Old Geometric Microliths Reveal Glacial Refugium in Dhofar, Southern Oman. Journal of Paleolithic Archaeology 2: 338–357. https://doi.org/10.1007/s41982-019-00027-3
Shepherd-Popescu E. 2003. The Neolithic settlement sites on the islands of Dalma and Marawah. In D. T. Potts, H. A. Naboodah, and P. Hellyer (eds.), Archaeology of the United Arab Emirates. Proceedings of the first International Conference on the Archaeology of the U.A.E.. Trident Press. London: 45–54.
Tryon C. A. 2019. The Middle/Later Stone Age transition and cultural dynamics of late Pleistocene East Africa. Evolutionary Anthropology 28(5): 267–282. https://doi.org/10.1002/evan.21802
Uerpmann H.-P., Potts D. T., and Uerpmann M. 2009. Holocene (Re–)Occupation of Eastern Arabia. In M. D. Petraglia, J. I. Rose (eds.), The evolution of human populations in Arabia. Paleoenvironments, prehistory and genetics. Springer. New York: 205–210.
Vardi J., Gilead I. 2009. On the definition of errors in contexts of craft specialization: Krukowski microburins from Beit Eshel Chalcolithic flint workshop. In S. A. Rosen, V. Roux (eds.), Techniques and People. Anthropological perspectives on technology in the archaeology of the proto-historic and early historic periods in the Southern Levant. De Boccard. Paris: 125–134.
Vardi J., Gilead I. 2011. Side-blow blade-flakes from the Ghassulian sickle blade workshop of Beit Eshel: a Chalcolithic solution to a Neolithic riddle. In E. Healy, S. Campbell, and O. Maeda (eds.), The State of the Stone Terminologies, Continuities and Contexts in Near Eastern Lithics. Proceedings of the sixth PPN Conference on chipped and ground stone artefacts in the Near East (SENEPSE). Ex Oriente. Berlin: 343–356.
Yaroshevich A., Kaufman D., Nuzhnyy D., Bar-Yosef O., and Weinstein-Evron M. 2010. Design and performance of microlith implemented projectiles during the Middle and the Late Epipaleolithic of the Levant: experimental and archaeological evidence. Journal of Archaeological Science 37: 368–388. https://doi.org/10.1016/j.jas.2009.09.050
Zarins J. 2001. The Land of Incense. Archaeological Work in the Governate of Dhofar, Sultanate of Oman 1990–1995. In M. M. Ibrahim, A. Tigani El Mahi, and J. Owen (eds.), The Project of the National Committee for the supervision of Archaeological survey in the Sultanate. Archaeology and Cultural Heritage Series Vol.1. Sultan Qaboos University publications. Ministry of Information of Sultanate of Oman. Al Nahda: 34–50.
Zazzo A., Munoz O., and Saliège J. F. 2014. Diet and mobility in a late Neolithic population of coastal Oman inferred from radiocarbon dating and stable isotope analysis. Journal of Physical Anthropology 153(3): 353–364. https://doi.org/10.1002/ajpa.22434
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