Skip to main content Accessibility help
×
Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-30T15:10:34.501Z Has data issue: false hasContentIssue false

15 - From global climate change to local impact in Wadi Faynan, southern Jordan: ten millennia of human settlement in its hydrological context

from Part IV - Human settlement, climate change, hydrology and water management

Published online by Cambridge University Press:  26 April 2011

Sam Smith
Affiliation:
Oxford Brookes University
Andrew Wade
Affiliation:
University of Reading
Emily Black
Affiliation:
University of Reading
David Brayshaw
Affiliation:
University of Reading
Claire Rambeau
Affiliation:
University of Reading
Steven Mithen
Affiliation:
University of Reading
Steven Mithen
Affiliation:
University of Reading
Emily Black
Affiliation:
University of Reading
Get access

Summary

ABSTRACT

Wadi Faynan, southern Jordan, provides an archaeological record of human settlement from the Lower Palaeolithic to the Islamic period, and indeed into the present day. As for any long-term record of settlement, an understanding of the changes in economy and society requires knowledge about the impacts of climate and environment change on human communities, especially when dealing with settlement in arid landscapes. This chapter attempts to place the 10,000 years of Holocene settlement in Wadi Faynan between c. 12,000 and 2,000 years ago into its hydrological context. A rainfall-runoff model is used to examine the potential impacts of both Holocene climatic change and human behaviour on the hydrological behaviour of the wadi and then on human settlement. Wade et al. (this volume, Chapter 12) have shown that rainfall-runoff models can successfully simulate the behaviour of the present-day wadi system, demonstrating how such behaviour is sensitive to variability in rainfall and infiltration rates. Here we use the results of regional climate modelling to determine statistical properties of palaeo-rainfall for the Wadi Faynan and then use a stochastic weather generator (this volume, Chapter 5) to create a rainfall series which is used to drive the hydrological model. Results are used to explore the potential impacts of climatic variability on human communities from 12,000 to 2,000 years ago, demonstrating that palaeohydrology may provide a bridge between regional-scale climate data and local-scale cultural developments.

Type
Chapter
Information
Water, Life and Civilisation
Climate, Environment and Society in the Jordan Valley
, pp. 218 - 244
Publisher: Cambridge University Press
Print publication year: 2011

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

Al-Najjar, M., Abu-Dayya, A., Suleiman, E., Weisgerber, G. and Hauptmann, A. (1990) Tell Wadi Faynan: the first Pottery Neolithic Tell in the South of Jordan. Annual of the Department of Antiquities of Jordan 34: 27–56.Google Scholar
Arz, H. W., Lamy, F. and Patzold, J. (2006) A pronounced dry event recorded around 4.2 ka in brine sediments from the northern Red Sea. Quaternary Research 66: 432–441.CrossRefGoogle Scholar
Ashbel, D. (1938) Great floods in Sinai Peninsula, Palestine Syria and the Syrian Desert, and the influence of the Red Sea on their formation. Quarterly Journal of the Royal Meteorological Society 64: 635–639.CrossRefGoogle Scholar
Bar-Matthews, M., Ayalon, A., Gilmour, M., Matthews, A. and Hawkesworth, C. J. (2003) Sea–land oxygen isotopic relationships from planktonic foraminifera and speleothems in the Eastern Mediterranean region and their implication for paleorainfall during interglacial intervals. Geochimica et Cosmochimica Acta 67: 3181–3199.CrossRefGoogle Scholar
Bar-Matthews, M., Ayalon, A. and Kaufman, A. (1997) Late quaternary paleoclimate in the eastern Mediterranean region from stable isotope analysis of speleothems at Soreq Cave, Israel. Quaternary Research 47: 155–168.CrossRefGoogle Scholar
Bar-Yosef, O. and Belfer-Cohen, A. (1989) The origins of sedentism and farming communities in the Levant. Journal of World Prehistory 3: 447–498.CrossRefGoogle Scholar
Barker, G., Adams, R., Creighton, O.et al. (2007a) Chalcolithic (c. 5000–3600 cal. BC) and Bronze Age (c. 3600–1200 cal. BC) settlement in Wadi Faynan: metallurgy and social complexity. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 227–270.Google Scholar
Barker, G., Gilbertson, D. and Mattingly, D., eds. (2007b) Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books.Google Scholar
Barker, G., Gilbertson, D. and Mattingly, D. (2007c) The Wadi Faynan landscape survey: research themes and project development. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 3–23.Google Scholar
Bookman, R., Enzel, Y., Agnon, A. and Stein, M. (2004) Late Holocene lake levels of the Dead Sea. Geological Society of America Bulletin 116: 555–571.CrossRefGoogle Scholar
Braconnot, P., Otto-Bliesner, B., Harrison, S.et al. (2007) Results of PMIP2 coupled simulations of the Mid-Holocene and Last Glacial Maximum – Part 1: experiments and large-scale features. Climate of the Past 3: 261–277.CrossRefGoogle Scholar
Byrd, B. F. (2005) Reassessing the emergence of village life in the Near East. Journal of Archaeological Research 13: 231–290.CrossRefGoogle Scholar
Carlson, A. E., Clark, P. U., Haley, B. A.et al. (2007) Geochemical proxies of North American freshwater routing during the Younger Dryas cold event. Proceedings of the National Academy of Sciences of the United States of America 104: 6556–6561.CrossRefGoogle ScholarPubMed
Cauvin, J. (1994) Naissance des divinites, Naissance de l'agriculture. Paris: CNRS.Google Scholar
Cerda, A. (1997) Seasonal changes of the infiltration rates in a Mediterranean scrubland on limestone. Journal of Hydrology 198: 209–225.CrossRefGoogle Scholar
,COHMAP members (1988) Climatic changes of the last 18,000 years: observations and model simulations. Science 241: 1043–1052.CrossRefGoogle Scholar
Cordova, C. (2007) Millennial Landscape Change in Jordan: Geoarchaeology and Cultural Ecology. Tucson: University of Arizona Press.Google Scholar
Crook, D. (2009) Hydrology of the combination irrigation system in the Wadi Faynan, Jordan. Journal of Archaeological Science 36: 2427–2436.CrossRefGoogle Scholar
Eadie, J. W. and Oleson, J. P. (1986) The water-supply systems of Nabataean and Roman Humayma. Bulletin of the American Schools of Oriental Research 262: 49–76.CrossRefGoogle Scholar
el-Rishi, H., Hunt, C., Gilbertson, D.et al. (2007) The past and present landscapes of the Wadi Faynan: geoarchaeological approaches and frameworks. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 59–96.Google Scholar
Enzel, Y., Arnit, R., Dayan, U.et al. (2008) The climatic and physiographic controls of the eastern Mediterranean over the late Pleistocene climates in the southern Levant and its neighboring deserts. Global and Planetary Change 60: 165–192.CrossRefGoogle Scholar
Finlayson, B. L. and Mithen, S. (2007a) Excavations at WF16. In The Early Prehistory of Wadi Faynan, Southern Jordan: Archaeological Survey of Wadis Faynan, Ghuwayr and Al Bustan and Evaluation of the Pre-Pottery Neolithic A Site of WF16. Wadi Faynan Series 1, Levant Supplementary Series 4, ed. Finlayson, B. and Mithen, S.. Oxford and Amman, Jordan: Oxbow Books and the Council for British Research in the Levant pp. 145–202.Google Scholar
Finlayson, B. L. and Mithen, S. (2007b) The Early Prehistory of Wadi Faynan, Southern Jordan: Archaeological Survey of Wadis Faynan, Ghuwayr and Al Bustan and Evaluation of the Pre-Pottery Neolithic A Site of WF16. Wadi Faynan Series 1, Levant Supplementary Series 4, ed. Finlayson, B. and Mithen, S.. Oxford and Amman, Jordan: Oxbow Books and the Council for British Research in the Levant.Google Scholar
Frumkin, A., Ford, D. C. and Schwarcz, H. P. (1999) Continental oxygen isotopic record of the last 170,000 years in Jerusalem. Quaternary Research 51: 317–327.CrossRefGoogle Scholar
Frumkin, A., Ford, D. C. and Schwarcz, H. P. (2000) Paleoclimate and vegetation of the last glacial cycles in Jerusalem from a speleothem record. Global Biogeochemical Cycles 14: 863–870.CrossRefGoogle Scholar
Fujii, S. (2007) Wadi Badda: A PPNB settlement below Fjaje escarpment near Shawbak. Neolithics 1/07: 19–24.Google Scholar
Fujii, S. (in prep) Domestication of runoff water: current evidence and new perspectives from the Jafr Pastoral Neolithic.
Garfinkel, Y., Vered, A. and Bar-Yosef, O. (2006) The domestication of water: the Neolithic well at Sha'ar Hagolan, Jordan Valley, Israel. Antiquity 80: 686–696.CrossRefGoogle Scholar
Gebel, H. G. K. (2004) The domestication of water. Evidence from early Neolithic Ba'ja. In Men of Dikes and Canals. The Archaeology of Water in the Middle East, ed. Bienert, H.-D. and Häser, J.. Rahden: Marie Leidorf pp. 25–36.Google Scholar
Hauptmann, A. (2007) The Archaeometallurgy of Copper: Evidence from Faynan. New York: Springer.CrossRefGoogle Scholar
Hunt, C. O., Elrishi, H. A., Gilbertson, D. D.et al. (2004) Early-Holocene environments in the Wadi Faynan, Jordan. The Holocene 14: 921–930.CrossRefGoogle Scholar
Hunt, C. O., Gilbertson, D. D. and El-Rishi, H. A. (2007) An 8000-year history of landscape, climate, and copper exploitation in the Middle East: the Wadi Faynan and the Wadi Dana National Reserve in southern Jordan. Journal of Archaeological Science 34: 1306–1338.CrossRefGoogle Scholar
Isaar, A. and Yakir, D. (1997) Isotopes from wood buried in the roman siege ramp of Masada: the Roman period colder climate. Biblical Archaeologists 60: 101–106.CrossRefGoogle Scholar
Kuijt, I. (1994). Pre-Pottery Neolithic A settlement variability: evidence for socio-political developments in the Neolithic Levant. Journal of Mediterranean Archaeology 7/2: 165–192.CrossRefGoogle Scholar
Kuijt, I. (2000) People and space in early agricultural villages: exploring daily lives, community size, and architecture in the late pre-pottery neolithic. Journal of Anthropological Archaeology 19: 75–102.CrossRefGoogle Scholar
Kuijt, I. and Finlayson, B. L. (2009) New evidence for food storage and pre-domestication granaries 11,000 years ago in the Jordan Valley. Proceedings of the National Academy of Science 106: 10966–10970.CrossRefGoogle Scholar
Kuijt, I. and Goring-Morris, A. N. (2002) Foraging, farming and social complexity in the Pre-Pottery Neolithic of the South-Central Levant: a review and synthesis. Journal of World Prehistory 16: 361–439.CrossRefGoogle Scholar
Lancaster, W. and Lancaster, F. (1991) Limitations on sheep and goat herding in the Eastern Badia of Jordan: an ethno-archaeological enquiry. Levant 28: 125–138.Google Scholar
Lancaster, W. and Lancaster, F. (1999) People, Land and Water in the Arab Middle East. Environments and Landscapes in the Bilad ash-Sham. Amsterdam: Harwood Academic Publishers.Google Scholar
Lavee, H., Poesen, J. and Yair, A. (1997) Evidence of high efficiency water-harvesting by ancient farmers in the Negev desert, Israel. Journal of Arid Environments 35: 341–348.CrossRefGoogle Scholar
Leonard, J. and Andrieux, P. (1998) Infiltration characteristics of soils in Mediterranean vineyards in southern France. Catena 32: 209–223.CrossRefGoogle Scholar
Mattingly, D., Newson, P., Creighton, O.et al. (2007a) A landscape of Imperial Power: Roman and Byzantine Phaino. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 305–348.Google Scholar
Mattingly, D., Newson, P., Grattan, J.et al. (2007b) The making of early states: the Iron Age and Nabatean periods. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 271–303.Google Scholar
McLaren, S. J., Gilbertson, D. D., Grattan, J. P.et al. (2004) Quaternary palaeogeomorphologic evolution of the Wadi Faynan area, southern Jordan. Palaeogeography Palaeoclimatology Palaeoecology 205: 131–154.CrossRefGoogle Scholar
Mithen, S., Austen, P., Kennedy, A.et al. (2007a) Early Neolithic woodland composition and exploitation in the southern Levant: a comparison between archaeobotanical remains from WF16 and present-day woodland at Hammam Adethni. Environmental Archaeology 12: 49–70.CrossRefGoogle Scholar
Mithen, S., Finlayson, B., Pirie, A.et al. (2007b) Archaeological survey of Wadis Faynan, Ghuwayr, Dana and al-Bustan. In The Early Prehistory of Wadi Faynan, Southern Jordan: Archaeological Survey of Wadis Faynan, Ghuwayr and al-Bustan and Evaluation of the Pre-Pottery Neolithic A Site of WF16, ed. Finlayson, B. L. and Mithen, S.. Oxford: Oxbow Books pp. 115–133.Google Scholar
Mithen, S. J. (2003) After the Ice: A Global Human History, 20,000–5000 BC. London: Weidenfeld and Nicolson.Google Scholar
Newson, P., Barker, G., Daly, P., Mattingly, D. and Gilbertson, D. (2007a) The Wadi Faynan field system. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 141–176.Google Scholar
Newson, P., Mattingly, D., Daly, P.et al. (2007b) The Islamic and Ottoman Periods. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 349–368.Google Scholar
Palmer, C., Gilbertson, D., el-Rishi, H.et al. (2007) The Wadi Faynan today: landscape, environment, people. In Archaeology and Desertification: The Wadi Faynan Landscape Survey, Southern Jordan. Wadi Faynan Series Volume 2, Levant Supplementary Series, ed. Barker, G., Gilbertson, D. and Mattingly, D.. Oxford, UK and Amman, Jordan: Council for British Research in the Levant in Association with Oxbow Books pp. 22–57.Google Scholar
Raikes, R. (1967) Water, Weather and Prehistory. London: John Baker.Google Scholar
Roberts, N. (2002) Did prehistoric landscape management retard the post-glacial spread of woodland in Southwest Asia?Antiquity 76: 1002–1010.CrossRefGoogle Scholar
Roberts, N. and Wright, H. E. (1993) Vegetation, lake-level and climatic history of the Near East and Southwest Asia. In Global Climates since the Last Glacial Maximum, ed. Wright, H. E., Kutzbach, J. E., Webb, T.et al. University of Minnesota Press pp. 194–220.Google Scholar
Robinson, S. A., Black, S., Sellwood, B. and Valdes, P. J. (2006) A review of palaeoclimates and palaeoenvironments in the Levant and Eastern Mediterranean from 25,000 to 5000 years BP: setting the environmental background for the evolution of human civilisation. Quaternary Science Reviews 25: 1517–1541.CrossRefGoogle Scholar
Rodwell, M. J. and Hoskins, B. J. (2001) Subtropical anticyclones and summer monsoons. Journal of Climate 14: 3192–3211.2.0.CO;2>CrossRefGoogle Scholar
Rollefson, G. (2008) The Neolithic Period in Jordan: An Archaeological Reader, ed. R. Adams. London: Equinox pp. 71–108.Google Scholar
Rosen, A. (2007) Civilizing Climate: Social Responses to Climate Change in the Ancient Near East. Plymouth: AltaMira Press.Google Scholar
Rossignol-Strick, M. (1999) The Holocene climatic optimum and pollen records of sapropel 1 in the eastern Mediterranean, 9000–6000 BP. Quaternary Science Reviews 18: 515–530.CrossRefGoogle Scholar
Sheratt, A. (1980) Water, soil and seasonality in early cereal cultivation. World Archaeology 11: 313–330.CrossRefGoogle Scholar
Simmons, A. J. and Najjar, M. (1997) Ecological changes in Jordan during the Late Neolithic in Jordan: a case study. In The Prehistory of Jordan II: Perspectives from 1997, ed. Gebel, H. G. K., Kafafai, Z. and Rollefson, G.. Berlin: ex Oriente pp. 309–318.Google Scholar
Simmons, A. J. and Najjar, M. (1998) Al-Ghuwayr I. A pre-pottery Neolithic village in Wadi Faynan, southern Jordan: a preliminary report on the 1996 and 1997/98 seasons. Annual Report of the Department of Antiquities of Jordan42:91–101.
Steffensen, J. P., Andersen, K. K., Bigler, M.et al. (2008) High-resolution Greenland ice core data show abrupt climate change happens in few years. Science 321: 680–684.CrossRefGoogle ScholarPubMed
Stein, M., Torfstein, A., Gavrieli, I. and Yechieli, Y. (2010) Abrupt aridities and salt deposition in the post-glacial Dead Sea and their North Atlantic connection. Quaternary Science Reviews 29: 567–575.CrossRefGoogle Scholar
Tchernov, E. (1994) An Early Neolithic Village in the Jordan Valley, II: The Fauna of Netiv Hagdud. Cambridge, MA: Peabody Museum of Archaeology and Ethnography, Harvard University.Google Scholar
Whitehead, P. G., Smith, S. J., Wade, A. J.et al. (2008) Modelling of hydrology and potential population levels at Bronze Age Jawa, Northern Jordan: a Monte Carlo approach to cope with uncertainty. Journal of Archaeological Science 35: 517–529.CrossRefGoogle Scholar
Yair, A. and Kossovsky, A. (2002) Climate and surface properties: hydrological response of small and semi-arid watersheds. Geomorphology 42: 43–57.CrossRefGoogle Scholar
Yakir, D., Issar, A., Gat, J.et al. (1994) 13C and 18O of wood from the Roman siege rampart in Masada, Israel (AD 70–73): evidence for a less arid climate of the region. Geochimica et Cosmochimica Acta 58: 3535–3539.CrossRefGoogle Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×