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Garamantian Agriculture: The Plant Remains from Zinchecra, Fezzan

Published online by Cambridge University Press:  03 March 2015

Marijke van der Veen*
Affiliation:
School of Archaeological Studies, University of Leicester

Abstract

Excavations at Zinchecra, a hill fort settlement of the Garamantes in Fezzan, southern Libya, have recovered a rich assemblage of desiccated and carbonised plant remains. The archaeobotanical analysis of this assemblage has produced a unique insight into the state of agriculture in the Sahara during the first half of the first millennium BC. Three cereal crops and three fruit crops have been identified, as well as salad plants and aromatic herbs. The use of wild plant resources has also been attested. The assemblage is dated by eleven radiocarbon dates to 900–400 cal BC. A well-developed agricultural regime was present, despite the harsh climatic conditions.

Type
Articles
Copyright
Copyright © Society for Libyan Studies 1992

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References

Ali, S.I. and Jafri, S.M.H. 1976–. eds. Flora of Libya. Tripoli, Al Faateh University.Google Scholar
Allan, J. A., McLachlan, K. S. and Penrose, E. T. 1973. Libya: Agriculture and Economic Development. London, Frank Cass.Google Scholar
Barich, B. E. 1987. Archaeology and Environment in the Libyan Sahara. British Archaeological Reports, International Series 368, Oxford.Google Scholar
Barker, G. W. W. and Jones, G. D. B. 1984. The Unesco Libyan Valleys Survey VI: Investigations of a Romano-Libyan Farm, Part 1. Libyan Studies 15:144.CrossRefGoogle Scholar
Barth, H. 1857. Travels and Discoveries in North and Central Africa in the Years 1849–1855, Volume 1. Reprint 1965. London, Frank Cass.Google Scholar
Bottema, S. 1984. The composition of modern charred seed assemblages. In van Zeist, W. and Casparie, W. A. (eds.) Plants and Ancient Man, Studies in Palaeoethnobotany. Rotterdam, Balkema Publishers: 207212.Google Scholar
Brogan, O. and Smith, D.J. 1984. Ghirza: A Libyan Settlement in the Roman Period. Tripoli, Department of Antiquities.Google Scholar
Clark, J.D. 1978. The legacy of prehistory: an essay on the background to the individuality of African cultures. In Fage, J. D. (ed.) The Cambridge History of Africa, Volume 2, Cambridge, University Press: 1186.Google Scholar
Daniels, C. M. 1968. Garamantian excavations: Zinchecra 1965–67. Libya Antiqua 5:113194.Google Scholar
Daniels, C.M. 1969. The Garamantes. In Kanes, W. H. (ed.) Geology, Archaeology and Prehistory of the Fezzan, Libya. Tripoli, Petroleum Exploration Society of Libya, Eleventh Annual Field Conference: 3152.Google Scholar
Daniels, C.M. 1970a. The Garamantes of Fezzan: excavations on Zinchecra 1965–67. The Antiquaries Journal 50: 3766.CrossRefGoogle Scholar
Daniels, C.M. 1970b. The Garamantes of Southern Libya. Wisconsin/Middlesex, Oleander Press.Google Scholar
Daniels, C.M. 1973. The Garamantes of Fezzan – an interim report of research, 1965–1973. Libyan Studies 4:3540.CrossRefGoogle Scholar
Daniels, C.M. 1977. Garamantian excavations (Germa) 1977. Libyan Studies 8: 57.CrossRefGoogle Scholar
Daniels, C.M. 1989. Excavation and fieldwork amongst the Garamantes. Libyan Studies 20:4561.CrossRefGoogle Scholar
Dore, J.N. and van der Veen, M., 1986. Radio-carbon dates from the Libyan Valleys Survey. Libyan Studies 17:6568.CrossRefGoogle Scholar
Durand, E. and Baratte, G. 1910. Florae Libycae Prodromus. Catalogue raisonné des plantes de Tripolitaine. Genève, Romet.Google Scholar
Harrison, S.G., Masefield, G.B. and Wallis, M. 1985. The Illustrated Book of Food Plants. London, Peerage Books.Google Scholar
Herodotus, , The Histories. Translated by de Sélincourt, A.. Penguin Classics 1963.Google Scholar
Hillman, G. 1981. Reconstructing crop husbandry practices from charred remains of crops. In Mercer, R. (ed.) Farming Practice in British Prehistory. Edinburgh, University Press: 123162.Google Scholar
Hillman, G. 1984. Interpretation of archaeological plant remains: the application of ethnographic models from Turkey. In van Zeist, W. and Casparie, W. A. (eds.) Plants and Ancient Man. Rotterdam, Balkema Publishers: 141.Google Scholar
Hunt, C. O., Gilbertson, D. D., Jenkinson, R. D. S., der Veen, M. van, Yates, G. and Buckland, P.C. 1987. ULVS XVII: Palaeoecology and agriculture of an abandonment phase at Gasr Mm 10, Wadi Mimoun, Tripolitania. Libyan Studies 18:113.CrossRefGoogle Scholar
Jacomet, S. 1987. Prähistorische Getreidefunde. Eine Anleitung zur Bestimmung prähistorischer Gersten-und Weizen-Funde. Basel, Botanisches Institut der Universität.Google Scholar
Jones, G.D.B. and Barker, G.W.W. 1980. Libyan Valleys Survey. Libyan Studies 11:1136.CrossRefGoogle Scholar
Jones, G.E.M. 1984. Interpretation of archaeological plant remains: ethnographic models from Greece. In van Zeist, W. and Casparie, W. A. (eds.) Plants and Ancient Man. Rotterdam, Balkema Publishers: 4361.Google Scholar
Keith, H.G. 1965. A Preliminary Check List of Libyan Flora. Tripoli, Ministry of Agriculture and Agrarian Reform.Google Scholar
Klitzsch, E. and Baird, D.W. 1969. Stratigraphy and paleohydrology of the Germa (Jarma) Area Southwest Libya. In Kanes, W. H. (ed.) Geology, Archaeology and Prehistory of the Southwestern Fezzan, Libya. Tripoli, Petroleum Exploration Society of Libya, Eleventh Annual Field Conference: 6780.Google Scholar
Le Quellec, J.L. 1987. L'Art Rupestre du Fezzan Septentrional (Libye). British Archaeological Reports, International Series 365, Oxford.CrossRefGoogle Scholar
Lötschert, W. and Beese, G. 1983. Collins Guide to Tropical Plants. London, Collins.Google Scholar
Lyon, G.F. 1821. A Narrative of Travels in Northern Africa in the Years 1818-1819 and 1820. Reprint. London, Frank Cass and Co Ltd, 1966.Google Scholar
Mauny, R. 1978. Trans-Saharan contacts and the Iron Age in West Africa. In Fage, J. D. (ed.) The Cambridge History of Africa, Volume 2, Cambridge, University Press: 272341.Google Scholar
Miller, N.F. and Smart, T.L. 1984. Intentional burning of dung as fuel: a mechanism for the incorporation of charred seeds into the archaeological record. Journal of Ethnobiology 4, part 1:1528.Google Scholar
Muzzolini, A. 1989. La Néolithisation du Nord de L'Afrique et ses causes. In Aurenche, O. and Cauvin, J. (eds.) Néolithisation. British Archaeological Reports, International Series 516, Oxford: 145175.Google Scholar
van der Plicht, J. and Mook, W.G. 1987. Automatic radiocarbon calibration: illustrative examples. Palaeohistoria 29:173182.Google Scholar
Richardson, J. 1848. Travels in the Great Desert of the Sahara in the Years of 1845 and 1846, Volumes 1 and 2. Reprint 1970. London, Frank Cass.Google Scholar
Rowley-Conwy, P. 1989. Nubia AD 0–550 and the ‘Islamic’ agricultural revolution: preliminary botanical evidence from Qasr Ibrim, Egyptian Nubia. Archéologie du Nil Moyen 3:131138.Google Scholar
El-Sharkawy, M.A. and Sgaier, K. 1975a. Yield trial of sixteen tall and dwarf wheat varieties (Triticum aestivum L.) grown in the Libyan desert. In El-Sharkawy, M. A. (ed.) Crop Research in Kufra Oasis, Libya. Tripoli, The Agricultural Department Council: 111117.Google Scholar
El-Sharkawy, M.A. and Sgaier, K. 1975b. Yield trial of sixteen barley varieties (Hordeum vulgare L. and H. distichum L.) grown in the Libyan desert. In El-Sharkawy, M. A. (ed.) Crop Research in Kufra Oasis, Libya. Tripoli, The Agricultural Development Council: 121127.Google Scholar
Stuiver, M. and Kra, R. 1986. Proceedings of the 12th International Radiocarbon Conference, Trondheim, Norway. Radiocarbon 28, No. 2B: 8051030.Google Scholar
Townsend, C. C. and Guest, E. 1966–. (eds.) Flora of Iraq. Baghdad, Ministry of Agriculture and Agrarian Reform.Google Scholar
der Veen, M. van, 1981. Appendix III. The Ghirza plant remains: Romano-Libyan agriculture in the Tripolitanian pre-desert. Libyan Studies 12:4548.Google Scholar
van der Veen, M., 1984. Botanical remains (Appendix 15). In Brogan, O. and Smith, D. J.Ghirza: A Libyan Settlement in the Roman Period. Tripoli, Department of Antiquities: 308311.Google Scholar
van der Veen, M., 1985. The Unesco Libyan Valleys Survey X: Botanical evidence for ancient farming in the pre-desert. Libyan Studies 16:1528.CrossRefGoogle Scholar
van der Veen, M., 1992. Botanical evidence for Garamantian agriculture in Fezzan, southern Libya. In Pals, J. P. (ed.) Festschrift for Prof.van Zeist, W.. Review of Paleobotany and Palynology.Google Scholar
Watson, A.M. 1983. Agricultural Innovation in the Early Islamic World. Cambridge, University Press.Google Scholar
Wendorf, F. and Schild, R. (eds.) 1980. Prehistory in the Eastern Sahara. New York, Academic Press.Google Scholar
van, Zeist W. 1976. On macroscopic traces of food plants in southwestern Asia (with some reference to pollen data). Philosophical Transactions of the Royal Society London B, 275: 2741.Google Scholar
Zohary, D. and Hopf, M. 1988. Domestication of Plants in the Old World. Oxford, Clarendon Press.Google Scholar
Zohary, M. 1982. Plants of the Bible. Cambridge, University Press.Google Scholar