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Water table decline, springline desiccation and the early development of irrigated agriculture in the Wādi al-Ajāl, Libyan Fazzān

Published online by Cambridge University Press:  03 March 2015

Nick Drake ,
Andrew Wilson ,
Ruth Peiling ,
Kevin White ,
David Mattingly  and
Stuart Black
Nick Drake
Affiliation:
Department of Geography, King's College, London
Andrew Wilson
Affiliation:
Institute of Archaeology, University of Oxford
Ruth Peiling
Affiliation:
Institute of Archaeology, University College London
Kevin White
Affiliation:
Department of Geography, University of Reading
David Mattingly
Affiliation:
School of Archaeology and Ancient History, University of Leicester
Stuart Black
Affiliation:
Department of Archaeology, University of Reading
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Abstract

Uranium/Thorium (U/Th) and 226Ra dating has been applied to spring deposits in order to determine the timing of the drying up of springs in the Wādī al-Ajāl, Fazzān, Libya. These dates are compared with results of archaeological surveys of irrigation structures and archaeobotanical studies of plant remains to further our understanding of the factors that controlled the introduction of irrigated agriculture, its nature and timing.

Though there are still important gaps in our understanding, the results suggest that by 3,100 ±125 BP surface water was either very scarce or nonexistent at the base of the escarpment, although the water table was probably very near the surface at the base of the Wādī in the vicinity of Jarma. Archaeobotanical evidence indicates that irrigated agriculture was introduced in the early part of the first millennium BC, soon after the desiccation of the springs and presumably in response to the fall in the water table and the increasingly scarce availability of surface water. No irrigation structures have been found that relate to this period, but the most likely scenario involves wells tapping the near surface water in the vicinity of Jarma. The earliest irrigation systems are foggaras which archaeological evidence suggests were probably introduced by the final few centuries BC, and definitely before the fourth century AD. The extensification of agriculture associated with extensive foggara development broadly corresponds with archaeobotanical evidence for an intensification and diversification of agriculture involving the introduction of a farming system utilising both winter and summer crops. There are likely to be strong connections between these two developments and that of the rise of the Garamantes.

Type
Articles
Information
Libyan Studies , Volume 35 , 2004 , pp. 95 - 112
Copyright
Copyright © Society for Libyan Studies 2004

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References

Amblard, S. 1996. Agricultural evidence and its interpretation on the Dhars Tichitt and Oualata, south-eastern Mauritania. In Aspects of African Archaeology. Papers from the 10th Congress of the Pan African Association for Prehistory and Related Studies. Edited by Pwitit, G. and Soper, R.. Harare: 421–27.Google Scholar
Amblard, S. and Pernès, J. 1989. The identification of the cultivated pearl millet (Pennisetum) amongst plant impressions on pottery from Oued Chebbi (Dhar Oualata, Mauritania). African Archaeological Review 7: 117–26.CrossRefGoogle Scholar
Board on Scientific and Technology for International Development. 1996. Lost Crops of Africa, vol. 1, Grains. Washington D.C.Google Scholar
Brooks, N., Drake, N., MacLaren, S. and White, K. 2003. Studies in Geography, Geomorphology, Environment and Climate. In The Archaeology of Favgān: vol. 1, Synthesis. Edited by Mattingly, D.J.. London: 3774.CrossRefGoogle Scholar
Casson, L. 1989. The Periplus Maris Erythraei. Princeton.Google Scholar
Castelletti, L.Castiglioni, E., Cottinis, M. and Rottoli, M. 1999. Archaeobotanical analysis of charcoal, wood and seeds. In The Van Afuda Cave: Hunter-Gatherer Societies of Central Sahara. Edited by Lernia, S. Di. Firenze: 131–48.Google Scholar
Clapham, A. in press. New discoveries at Qasr Ibrim, Lower Nubia. Paper presented at the 4th International Workshop of African Archaeobotany (IWAA).Google Scholar
Clark, J. D. and Stemler, A. 1975. Early domesticated sorghum from Central Sudan. Nature 257: 588–91.CrossRefGoogle Scholar
Cottini, M. and Rottoli, M. 2002. Some information on archaeobotanical remains. In Sands, Stones and Bones. The archaeology of death in the Wadi Tanezzuft valley (5000-2000 BP). Edited by Di Lernia, S. and Manzi, G.. Firenze: 169–80.Google Scholar
Cremaschi, M. 2001. Holocene climatic changes in an archaeological landscape. The case-study of the Wādī Tanezzuft and its drainage basin (SW Fezzan, Libyan Sahara). Libyan Studies 32: 528.CrossRefGoogle Scholar
Cremaschi, M. and Di Lernia, S. (eds). 1998a. Wadi Teshuinat. Palaeoenvironment and Prehistory in south-western Fevern (Libyan Sahara). Survey and Excavations in the Tadrart Acacus, Erg Uan Kasa, Messak Sattafet and Edeyen of Murzuq, 1990-1995. Milan.Google Scholar
Cremaschi, M. and Di Lernia, S. 1998b. The geoarchaeological survey in central Tadrart Acacus and surroundings (Libyan Sahara): Environment and culture. In Wadi Teshuinat: Palaeoenvironment and prehistory in south-western Fezzan (Libyan Sahara). Edited by Cremaschi, M., and Lernia, S. Di. Milano: 243–96.Google Scholar
Cremaschi, M. and Di Lernia, S. 1999. Holocene climate change and cultural dynamics in the Libyan Sahara. African Archaeological Review 16: 211–38.CrossRefGoogle Scholar
Daniels, C. M. 1970a. The Garamantes of Southern Libya. Wisconsin and North Harrow.Google Scholar
Daniels, C. M. 1970b. The Garamantes of Fezzan, excavations on Zinchecra 1965-1967. Antiquaries Journal 50: 3766.CrossRefGoogle Scholar
Despois, J. 1946. Mission scientifique du Fezzan (1944-1945), vol. 3. Géographie humaine. Algiers.Google Scholar
Di Lernia, S. and Manzi, G. 2002. Sands, Stones and Bones. The archaeology of death in the Wadi Tanezzuft valley (5000-2000 BP). Firenze.Google Scholar
Di Lernia, S., Manzi, G. and Merighi, F. 2002. Cultural variability and human trajectories in later prehistory of the Wadi Tanezzuft. In Sands, Stones and Bones. The archaeology of death oin the Wadi Tanezzuft valley (5000-2000 BP). Edited by Lernia, S. Di, and Manzi, G.. Firenze: 281302.Google Scholar
Drake, N. A., White, K. H., and McLaren, S. in press. Quaternary Climate Change in the Germa Region of the Fazzān, Libya. Quaternary Research.Google Scholar
Fuller, D. and Edwards, D. 2001. Medieval plant Economy in Middle Nubia: Preliminary Archaeobotanical Evidence from Nauri. Sudan and Nubia 5: 97103.Google Scholar
Fuller, D. and Peiling, R. forthcoming. Before Qasr Ibrim: Current evidence for the spread of sorghum cultivation in Northern Africa.Google Scholar
Grandi, G. T., Lippi, M. M. and Mercuri, A. M., 1998. Pollen in dung layers from rockshelters and caves of Wadi Teshuinat (Libyan Sahara). In Wadi Teshuinat: Palaeoenvironment and prehistory in south-western Fezzan (Libyan Sahara). Edited by Cremaschi, M., and Lernia, S. Di. Milano: 243–96.Google Scholar
Harlan, J. R. and Stemler, A. B. 1976. The Races of Sorghum in Africa. In The Origins of African Plant Domestication. Edited by Harlan, J. R., De Wet, J. M. J. and Stemler, A. B.. The Hague: 465–78.CrossRefGoogle Scholar
Klee, M., Zach, B. and Neumann, K. 2000. Four thousand years of plant exploitation in the Chad Basin of northeast Nigeria 1: The archaeobotany of Kursakata. Vegetation History and Archaeobotany 9: 223–37.CrossRefGoogle Scholar
Langer, R. H. M. and Hill, G. D. 1982. Agricultural plants. Cambridge.Google Scholar
Lyon, G. F. 1821. A Narrative of Travels in Northern Africa in the Years 1818-1819 and 1820. London (1982 Reprint).Google Scholar
McIntosh, S. K. 1995. Paleobotanical and Human Osteological Remains. In Excavations at Jenné-Jeno, Hambarketolo, and Kaniana (Inland Niger Delta, Mali): the 1981 Season. Edited by McIntosh, S. K., Berkeley: 348–59.Google Scholar
Magnavita, C. in press. Recent archaeological finds of domesticated Sorghum bicolour in the Lake Chad region. Nyame Akuma.Google Scholar
Mattingly, D. J. 2000. Twelve thousand years of human adaptation in Fazzān (Libyan Sahara). In The Archaeology of Drylands. Living at the margin. Edited by Barker, G. and Gilbertson, D. (One World Archaeology 39). London: 160–79.Google Scholar
Mattingly, D. J. and Wilson, A. I. 2003. Farming the Sahara: the Garamantian contribution in southern Libya. In Arid Lands in Roman Times. Papers from the international conference (Rome July 9th-10th 2001). Edited by Liverani, M.. Firenze: 3750.Google Scholar
Mattingly, D. J., al-Mashai, M., Aburgheba, H., Balcombe, P., Eastaugh, E., Gillings, M., Leone, A., McLaren, S., Owen, P., Peiling, R., Reynolds, T., Stirling, L., Thomas, D., Watson, D., Wilson, A. I. and White, K. 2000. The Fezzan Project II: preliminary report on the 1998 season. Libya Antiqua n.s. 4 (1998) [2000]: 219–49.Google Scholar
Mattingly, D. J., Dore, J. N. and Edwards, D. 2002. Radiocarbon dates from Fazzan, southern Libya. Libyan Studies 33: 919.CrossRefGoogle Scholar
Mattingly, D. J., Daniels, C. M., Dore, J. N., Edwards, D. and Hawthorne, J. (2003) The Archaeology of Fazzān, vol. 1, Synthesis. Edited by Mattingly, D. J.. London.CrossRefGoogle Scholar
Mercuri, A. M. 2001. Preliminary analyses of fruits, seeds and other few plant macrofossils from the Early Holocene sequence. In Uan Tabu in the Settlement History of the Libyan Sahara. Edited by Garcea, E. A. A. (Arid Zone Archaeology Monographs 2). Firenze: 189210.Google Scholar
Neumann, K. 2003. The late emergence of agriculture in Sub-Saharan Africa: archaeobotanical evidence and ecological considerations. In Food, Fuel and Fields: Progress in African Archaebotany. Edited by Neumann, K., Butler, A. and Kahlheber, S. (Monographs on African Archaeology and Environment no. 15). Köln: 7192.Google Scholar
Pallas, P. 1978. Water resources in the Socialist People's Libyan Arab Jamahiriya. Proceedings of the 2nd Symposium on the Geology of Libya: 539–91.Google Scholar
Peiling, R. 2003. Medieval and early modern agriculture and crop dispersal in the Wadi el-Agial, Fezzan, Libya. In Food, Fuel and Fields: Progress in African Archaebotany. Edited by Neumann, K., Buder, A. and Kahlheber, S. (Monographs on African Archaeology and Environment no. 15). Köln: 129–38.Google Scholar
Pelling, R. forthcoming. The archaeobotanical evidence. In The Archaeology of Fazzan, Vol. 4, Survey and Excavations at Old Jarma (Ancient Garama) carried out by C. M. Daniels (1962-69) and the Fastan Project (1997-2001). Edited by Mattingly, D.J.. London.Google Scholar
Rowley-Conwy, P. 1991. The sorghum from Qasr Ibrim, Egyptian Nubia, c. 800 BC- AD 1811: a preliminary view. In New Light on Early Farming. Edited by Renfrew, J.. Edinburgh: 191212.Google Scholar
Thanheiser, U. 1999. Plant Remains from Kellis: First Results. In Dakhleh Oasis Project: Preliminary Report on the 1992-1993 and 1993-1994 Field Seasons. Edited by Hope, C. A. and Mills, A. J.. Oxford: 8993.Google Scholar
Thiedig, F. M., Oezen, D., El-Chair, M. and Geyh, M. A. 2000. The absolute age of the Quaternary lacustrine limestone of the Al Mahruqah formation—Murzuq Basin, Libya. In Geological Exploration in the Murzuq Basin. Edited by Sola, M. A. and Worsley, D., Amsterdam: 89116.CrossRefGoogle Scholar
van der Veen, M. 1992. Garamantian agriculture: the plant remains from Zinchecra, Fezzan. Libyan Studies 23: 739.CrossRefGoogle Scholar
van der Veen, M. 1995. Ancient Agriculture in Libya: A Review of the Evidence. Acta Palaeohotanica 35: 8598.Google Scholar
Wasylikowa, K. 1992. Holocene Flora of the Tadrart Acacus Area, SW Libya, based on Plant Macrofossils from Uan Muhuggiag and Ti-n-Torha/Two Caves archaeological sites. Origini 16: 125–52.Google Scholar
Wasylikowa, K. 1993. Plant macrofossils from the archaeological sites of Uan Muhuggiag and Ti-n-Torha, Southwestern Libya. In Environmental Change and Human Culture in the Nile Basin and Northern African Until the Second Millennium BC. Edited by Krzyzaniak, L., Kobusiewicz, M., and Alexander, J.. Poznan: 2541.Google Scholar
Wilson, A. I. and Mattingly, D. J. 2003. Irrigation technologies: foggaras, wells and field systems. In The Archaeology of Fazzān vol. 1, Synthesis. Edited by Mattingly, D.J.. London: 235–78.CrossRefGoogle Scholar
Wuttmann, M. (2001). Les qanats de ʿAyn-Manâwîr. In Irrigation et drainage dans l'antiquité. Qanâts et canalisations souterraines en Iran, en Egypte et en Grèce. Edited by Briant, P.. Paris: 109–35.Google Scholar