Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-26T12:48:56.969Z Has data issue: false hasContentIssue false

Settlement Oscillations in the Negev Highlands Revisited: The Impact of Microarchaeological Methods

Published online by Cambridge University Press:  09 February 2016

Ruth Shahack-Gross*
Affiliation:
Kimmel Center for Archaeological Science, Weizmann Institute of Science, Rehovot 76100, Israel.
Israel Finkelstein
Affiliation:
The Jacob M. Alkow Department of Archaeology and Ancient Near Eastern Civilizations, Tel Aviv University, Tel Aviv 6997801, Israel.
*
Corresponding author. Email: [email protected].

Abstract

Microarchaeological methods, especially those focused on geoarchaeology and radiocarbon dating, have revolutionized the manner in which the Iron Age settlement peak in the Negev Highlands is interpreted. We review here results from field and laboratory studies conducted at two Iron Age sites (Atar Haroa and Nahal Boqer) compared to one Byzantine/Early Islamic site (Wadi el-Mustayer)—all located near Sede Boqer. We present our methodology, which is based on small-scale but detailed excavations, study of sediments, and identification of livestock dung remains and their utility as indicators of past subsistence practices. To this we add meticulous 14C dating, ceramic petrography, and identification of botanic and zoological remains. We conclude that subsistence during the Iron Age included tending livestock but did not include agriculture. We further propose that the long-distance trade of copper from the Arabah Valley under Egyptian auspices and possibly the trading of cinnamon, dates, and other Arabian/Indian commodities were the driving force in the initiation (and later decline) of the Iron Age settlement system. We hypothesize that the agricultural settlement peak during the Byzantine/Early Islamic period was also influenced by an imperial power from outside of the Negev and that large-scale agriculture was enabled due to the adoption of new agricultural techniques, including terracing of ephemeral streams along with water diversion systems and possibly water storage facilities such as advanced cisterns. Future studies are expected to shed additional light on the complexity of settlement oscillations in the Negev Highlands region in key periods such as the Early and Intermediate Bronze Ages.

Type
Articles
Copyright
Copyright © The Arizona Board of Regents on behalf of the University of Arizona 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Arnon, I. 1986. Agrometeorology. In: Halperin, H, editor. The Encyclopedia of Agriculture. Tel Aviv: The Encyclopedia of Agriculture Press. p 250–81. In Hebrew.Google Scholar
Avner, U, Carmi, I. 2001. Settlement patterns in the southern Levant deserts during the 6th-3rd millennia BC: a revision based on 14C dating. Radiocarbon 43(3):1203–16.Google Scholar
Avni, Y, Porat, N, Plakht, J, Avni, G. 2006. Geomorphic changes leading to natural desertification versus anthropogenic land conservation in an arid environment, the Negev Highlands, Israel. Geomorphology 82(3–4):177200.Google Scholar
Avni, G, Avni, Y, Porat, N. 2009. A new look at ancient agriculture in the Negev. Cathedra 133:1344. In Hebrew.Google Scholar
Avni, Y, Porat, N, Avni, G. 2012. Pre-farming environment and OSL chronology in the Negev Highlands, Israel. Journal of Arid Environments 86:1227.CrossRefGoogle Scholar
Ben-Yosef, E. 2010. Technology and social process: oscillations in Iron Age copper production and power in southern Jordan [PhD dissertation]. University of California, San Diego.Google Scholar
Bietak, M. 2002. Relative and absolute chronology of the Middle Bronze Age: comments on the present state of research. In: Bietak, M, editor. The Middle Bronze Age in the Levant. Vienna: Verlag der Osterreichischen Akademie der Wissenschaften. p 2942.Google Scholar
Boaretto, E, Finkelstein, I, Shahack-Gross, R. 2010. Radiocarbon results from the Iron IIA site of Atar Haroa in the Negev Highlands and their archaeological and historical implications. Radiocarbon 52(1):112.Google Scholar
Bruins, HJ. 1986. Desert environment and agriculture in the Central Negev and Kadesh-Barnea during historical times [PhD dissertation]. University of Wageningen.Google Scholar
Bruins, HJ, van der Plicht, J. 2005. Desert settlement through the Iron Age. In: Levy, T, editor. The Bible and Radiocarbon Dating. London: Equinox. p 349–66.Google Scholar
Bruins, HJ, van der Plicht, J. 2007. Radiocarbon dating the “Wilderness of Zin.” Radiocarbon 49(2):481–97.Google Scholar
Cabanes, D, Shahack-Gross, R. Forthcoming. Understanding fossil phytolith preservation: the role of partial dissolution in paleoecology and archaeology. PLoS ONE. Google Scholar
Cabanes, D, Weiner, S, Shahack-Gross, R. 2011. Stability of phytoliths in the archaeological record: a dissolution study of modern and fossil phytoliths. Journal of Archaeological Science 38(9):2480–90.Google Scholar
Cabanes, D, Gadot, Y, Cabanes, M, Finkelstein, I, Weiner, S, Shahack-Gross, R. 2012. Human impact around settlement sites: a phytolith and mineralogical study for assessing site boundaries, phytolith preservation, and implications for spatial reconstructions using plant remains. Journal of Archaeological Science 39(8):2697–705.Google Scholar
Cohen, R. 1979. The Iron Age fortresses in the Central Negev. Bulletin of the American Schools for Oriental Research 236:6375.Google Scholar
Cohen, R. 1999. Ancient Settlement of the Central Negev. Volume 1: The Chalcolithic Period, The Early Bronze Age and the Middle Bronze Age I. Jerusalem: Israel Antiquities Authority.Google Scholar
Cohen, R, Cohen-Amin, R. 2004. Ancient Settlement of the Negev Highlands. Volume II: The Iron Age and the Persian Period. Jerusalem: Israel Antiquities Authority.Google Scholar
Cribb, R. 1991. Nomads in Archaeology. Cambridge: Cambridge University Press.Google Scholar
Dunseth, Z. 2013. Subsistence practices in the Negev Highlands during the Intermediate Bronze Age: a microarchaeological investigation at Mashabe Sade . Tel Aviv University.Google Scholar
Evenari, M, Shanan, L, Tadmor, N. 1982. The Negev: The Challenge of a Desert. Cambridge: Harvard University Press.CrossRefGoogle Scholar
Finkelstein, I. 1988. Arabian trade and socio-political conditions in the Negev in the twelfth-eleventh centuries B.C.E. Journal of Near Eastern Studies 47(4):241–52.Google Scholar
Finkelstein, I. 1995. Living on the Fringe: The Archaeology and History of the Negev, Sinai and Neighbouring Regions in the Bronze and Iron Ages. Sheffield: Academic Press.Google Scholar
Frachetti, M. 2009. Pastoralist Landscapes and Social Interaction in Bronze Age Eurasia. Berkeley: University of California Press.Google Scholar
Goldberg, P. 1984. Late Quaternary history of Qadesh Barnea, northeastern Sinai. Zeitschrift fur Geomorphologie N.F. 28:193217.Google Scholar
Haiman, M. 1989. Preliminary report on the Western Negev Highlands emergency survey. Israel Exploration Journal 39:173–91.Google Scholar
Haiman, M. 1994. The Iron Age II sites of the Negev Highlands. Israel Exploration Journal 44:3661.Google Scholar
Haiman, M. 1996. Early Bronze Age IV settlement pattern of the Negev and Sinai deserts: view from small marginal temporary sites. Bulletin of the American Schools for Oriental Research 303:131.Google Scholar
Haiman, M. 2012. Dating the agricultural terraces in the southern Levantine deserts – the spatial-contextual argument. Journal of Arid Environments 86:43–9.Google Scholar
Herzog, Z, Singer-Avitz, L. 2004. Redefining the centre: the emergence of state in Judah. Tel Aviv 31(2):209–44.Google Scholar
Jasmin, M. 2006. The emergence and first development of the Arabian trade across the Wadi Arabah. In: Bienkowski, P, Galor, K, editors. Crossing the Rift: Resources, Routes, Settlement Patterns and Interaction in the Wadi Arabah. Oxford: Oxford University Press. p 143–50.Google Scholar
Kamash, Z. 2012. Irrigation technology, society and environment in the Roman Near East. Journal of Arid Environments 86:6574.Google Scholar
Knauf, EA. 1995. Edom: the social and economic history. In: Edelman, DV, editor. You Shall Not Abhor an Edomite for He is Your Brother: Edom and Seir in History and Tradition. Atlanta: Scholars Press. p 93117.Google Scholar
Levy, T. 2009. Pastoral nomads and Iron Age metal production in Ancient Edom. In: Szuchman, J, editor. Nomads, Tribes and the State in the Ancient Near East: Cross-Disciplinary Perspectives. Chicago: University of Chicago Press. p 147–77.Google Scholar
Levy, TE, Adams, RB, Hauptmann, A, Prange, M, Schmitt-Strecker, S, Najjar, M. 2002. Early Bronze Age metallurgy: a newly discovered copper manufactory in southern Jordan. Antiquity 76(292):425–37.Google Scholar
Martin, MAS, Eliyahu-Behar, A, Anenburg, M, Goren, Y, Finkelstein, I. 2013. Iron IIA slag-tempered pottery in the Negev Highlands, Israel. Journal of Archaeological Science 40(10):3777–92.CrossRefGoogle Scholar
Namdar, D, Gilboa, A, Neumann, R, Finkelstein, I, Weiner, S. 2013. Cinnamaldehyde in early Iron Age Phoenician flasks raises the possibility of Levantine trade with South East Asia. Mediterranean Archaeology and Archaeometry 13(2):119.Google Scholar
Porter, BW, Routledge, BE, Simmons, EM, Lev-Tov, JSE. 2014. Extensification in a Mediterranean semi-arid marginal zone: an archaeological case study from early Iron Age Jordan's eastern Karak Plateau. Journal of Arid Environments 104:132–18.Google Scholar
Regev, J, de Miroschedji, P, Greenberg, R, Braun, E, Greenhut, Z, Boaretto, E. 2012. Chronology of the Early Bronze Age in the southern Levant: new analysis for a high chronology. Radiocarbon 54(3–4):525–66.Google Scholar
Rosen, SA. 1987. Demographic trends in the Negev Highlands: preliminary results of the emergency survey. Bulletin of the American Schools for Oriental Research 266:4558.Google Scholar
Rossel, S, Marshall, F, Peters, J, Pilgram, T, Adams, MD, O'Connor, D. 2008. Domestication of the donkey: timing, processes, and indicators. Proceedings of the National Academy of Sciences of the USA 105(10):3715–20.Google Scholar
Rubin, R. 1990. The Negev as Settled Land: Urbanization and Settlement in the Desert in the Byzantine Period. Jerusalem: Yad Ben Zvi. In Hebrew.Google Scholar
Rubin, R. 1991. Settlement and agriculture on an ancient desert frontier. Geographical Review 81:197205.Google Scholar
Sapir-Hen, L, Ben-Yosef, E. 2013. The introduction of domestic camels to the southern Levant: evidence from the Aravah Valley. Tel Aviv 40(2):277–85.Google Scholar
Sebbane, M, Ilan, O, Avner, U, Ilan, D. 1993. The dating of Early Bronze Age settlements in the Negev and Sinai. Tel Aviv 20:4154.Google Scholar
Segal, I, Roman, I, Cohen, R, Brenner, IB. 1996–1997. Chemical and metallurgical study of 'Ein Ziq and Be'er Resisim ingots. Arx: World Journal of Prehistoric and Ancient Studies 2–3:4351.Google Scholar
Shahack-Gross, R. 2011. Herbivorous livestock dung: formation, taphonomy, methods for identification, and archaeological implications. Journal of Archaeological Science 38(2):205–18.Google Scholar
Shahack-Gross, R, Finkelstein, I. 2008. Subsistence practices in an arid environment: a geoarchaeological investigation in an Iron Age site, the Negev Highlands, Israel. Journal of Archaeological Science 35(4):965–82.Google Scholar
Shahack-Gross, R, Marshall, F, Weiner, S. 2003. Geoethnoarchaeology of pastoral sites: the identification of livestock enclosures in abandoned Maasai settlements. Journal of Archaeological Science 30(4):439–59.Google Scholar
Shahack-Gross, R, Boaretto, E, Cabanes, D, Katz, O, Finkelstein, I. 2014. Subsistence economy in the Negev Highlands: the Iron Age and the Byzantine/Early Islamic period. Levant 46(1):98117.Google Scholar
Tengberg, M. 2012. Beginnings and early history of date palm garden cultivation in the Middle East. Journal of Arid Environments 86:139–47.Google Scholar
Watson, AM. 1974. The Arab agricultural revolution and its diffusion, 700–1100. Journal of Economic History 34(1):835.Google Scholar
Weiner, S. 2010. Microarchaeology: Beyond the Visible Archaeological Record. Cambridge: Cambridge University Press.Google Scholar