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A Pollen Record from Birket Qarun and the Recent History of the Fayum, Egypt

Published online by Cambridge University Press:  20 January 2017

Peter J. Mehringer Jr. ,
Kenneth L. Petersen  and
Fekri A. Hassan
Peter J. Mehringer Jr.
Affiliation:
Departments of Anthropology and Geology, Washington State University, Pullman, Washington 99164
Kenneth L. Petersen
Affiliation:
Departments of Anthropology and Geology, Washington State University, Pullman, Washington 99164
Fekri A. Hassan
Affiliation:
Departments of Anthropology and Geology, Washington State University, Pullman, Washington 99164
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Abstract

Sediments and fossil pollen of two short cores from Birket Qarun, Egypt, reflect Nile floods, lake levels, and agricultural developments of the last 325 yr, and demonstrate the potential of a long and detailed record from the Fayum Depression. The chronology of these cores is inferred by correlation of historic events with changes in the fossil and sedimentary records.

Subangular clay clasts and blocky structure resulting from occasional exposure, drying, and reworking of lake sediments reflect low Nile floods of the mid-1600s. Abundant pollen of shallowwater, rooted aquatic plants provides evidence for continued low lake levels through the 1700s. A high lake level, resulting from the extreme Nile flood of 1817–1818, is recorded by hystrichospheres, reworked by wave action, from Eocene marine sediments exposed on the north shore of Birket Qarun.

Political administration, as reflected in agricultural policy, is also recorded in lake history. Changing lake levels are, in part, correlated with canal neglect during Mamluk and Ottoman control, and renewed canal maintenance under the agricultural policy of Mohammed Ali. Increased cattail (Typha) pollen dates from perenial irrigation after 1873. Olive and date pollen, and pollen of newly introduced exotic trees, are abundant after 1930 as a result of accelerated introduction and cultivation of fruit, lumber, fuel, and windbreak trees following World War I. The sequence of introduction of exotic plants is reflected in the pollen of Zea mays, from the New World, followed by Casuarina from Southeast Asia and Australia, and Eucalyptus from Australia.

Type
Original Articles
Information
Quaternary Research , Volume 11 , Issue 2 , March 1979 , pp. 238 - 256
Copyright
University of Washington

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References

Andersen, S.T., Bertelsen, F., (1972). Scanning electron microscope studies of pollen of cereals and other grasses. Grana. 12, 79-86.Google Scholar
Ball, J., (1939) Contributions to the Geography of Egypt. Government Press, Cairo, (reprinted 1952 by Survey of Egypt, Cairo).Google Scholar
Bartlett, A.S., Barghoorn, E.S., Berger, R., (1969). Fossil maize from Panama. Science. 165, 389-390.Google Scholar
Baum, B.R., Bassett, I.J., Crompton, C.W., (1971). Pollen morphology of Tamarix species and its relationship to the taxonomy of the genus. Pollen et Spores. 13, 495-521.Google Scholar
Beadnell, H.J.L., (1905) The Topography and Geology of the Fayum Province of Egypt. Egyptian Survey Department, Cairo. Google Scholar
Bell, B., (1971). The dark ages in ancient history: I. The first dark age in Egypt. American Journal of Archaeology. 75, 1-26.Google Scholar
Bell, B., (1975). Climate and the history of Egypt: The Middle Kingdom. American Journal of Archaeology. 79, 223-269.Google Scholar
Belzoni, G., (1820) Narrative of the Operations and Recent Discoveries Within the Pyramids, Temples, Tombs, and Excavations in Egypt and Nubia. John Murray, London, (republished in 1971, Gregg International Publishers Limited, Westmead, England).Google Scholar
Berlin, G.L., Ambler, J.R., Hevly, R.H., Schaber, G.G., (1977). Identification of Sinagua agriculture fields by areal thermography, soil chemistry, plant/pollen analysis, and archaeology. American Antiquity. 42, 588-600.Google Scholar
Birks, H.H., Whiteside, M.C., Stark, D.M., Bright, R.C., (1976). Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research. 6, 249-272.Google Scholar
Bonatti, E., (1970). Pollen sequence in the lake sediments. Hutchinson, G.E., Inaula: An Account of the History and Development of Lago di Monterosi, Latium, Italy. American Philosophical Society Transactions n.s. 60. 26-31 (part 4), Philadelphia.Google Scholar
Bonnefille, R., (1971). Atlas des pollens d'Éthiopie principales espèces des forêts de montagne. Pollen et Spores. 13, 15-72.Google Scholar
Bradbury, J.P., (1975) Diatom Stratigraphy and Human Settlement in Minnesota. Geological Society of America Special Paper 171, Boulder.Google Scholar
Bradbury, J.P., Waddington, J.C.B., (1973). The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A.. Birks, H.J.B., West, R.G., Quaternary Plant Ecology. Wiley, New York, 289-307.Google Scholar
Brown, R.H., (1892) The Fayum and Lake Moeris. Edward Standford, London. Google Scholar
Butzer, K.W., (1976) Early Hydraulic Civilization in Egypt. Univ. of Chicago Press, Chicago. Google Scholar
Carter, H., (1958) The Histories of Herodotus. Vols. 1,2, Heritage Press, New York, (Translator).Google Scholar
Caton-Thompson, G., Gardner, E.W., (1934) The Desert Fayum. Royal Anthropological Institute, London. Google Scholar
Davis, M.B., (1969). Palynology and environmental history during the Quaternary period. American Scientist. 57, 317-332.Google Scholar
Davis, M.B., (1973). Pollen evidence of changing land use around the shores of Lake Washington. Northwest Science. 47, 133-148.Google Scholar
Davis, M.B., Brubaker, L.B., Beiswenger, J.M., (1971). Pollen grains in lake sediments: Pollen percentages in surface sediments from southern Michigan. Quaternary Research. 1, 450-467.Google Scholar
Davis, O.K., Kolva, D.A., Mehringer, P.J. Jr., (1977). Pollen analysis of Wildcat Lake, Whitman County, Washington: The last 1000 years. Northwest Science. 51, 13-30.Google Scholar
Davis, R., (1967). Pollen studies of near-surface sediments in Maine lakes. Cushing, E.J., Wright, H.E. Jr., Quaternary Paleoecology. Yale Univ. Press, New Haven, Conn, 143-173.Google Scholar
Dols, M.W., (1977) The Black Death in the Middle East. Princeton Univ. Press, Princeton, N.J. Google Scholar
El-Hadidy, M.N., (1955). The pollen morphology of some Egyptian xerophytes. Cairo University, Bulletin of the Faculty of Science. 34, 67-71.Google Scholar
El Hadidi, M.N., Kosinova, J., (1971). Studies on the weed flora of cultivated land in Egypt. Mitteilung Botanischen Staatssammlung, München. 10, 354-367.Google Scholar
El-Tobgy, H.A., (1976) 2nd ed Contemporary Egyptian Agriculture. The Ford Foundation, New York. Google Scholar
Fletcher, M.R., Clapham, W.B. Jr., (1974). Sediment density and the limits to the repeatability of absolute pollen frequency determinations. Geoscience and Man. 9, 27-35.Google Scholar
Gardner, E.W., (1929). The origin of the Faiyum Depression: A critical commentary on a new view of its origin. The Geographical Journal. 74, 371-383.Google Scholar
Haddad, M., (1969). Quelques pollens de la flore Libanaise. Pollen et Spores. 11, 39-63.Google Scholar
Hamilton, H.C., Falconer, W., (1906) The Geography of Strabo. Vols 1–3, George Bell and Sons, London, The Geography of Strabo. Vols 1–3, George Bell and Sons, London, (Translators).Google Scholar
Hassib, M., (1951). Distribution of plant communities in Egypt. Cairo University, Bulletin of the Faculty of Science. 29, 59-261.Google Scholar
Horowitz, A., (1969). Recent pollen sedimentation in Lake Kinneret, Israel. Pollen et Spores. 11, 353-384.Google Scholar
Horowitz, A., Baum, B., (1967). The aboreal pollen flora of Israel. Pollen et Spores. 9, 71-93.Google Scholar
Issawi, B., (1976). Geology of the Fayum Depression. Wendorf, F., Schild, R., Prehistory of the Nile Valley. Academic Press, New York, 151-153.CrossRefGoogle Scholar
Iversen, J., (1973) The Development of Denmark's Nature since the Last Glacial. Geological Survey of Denmark, 190. Series, No. 7-C, Copenhagen.Google Scholar
Jarvis, C.S., (1935). Flood-stage records of the River Nile. Proceedings of the American Society of Civil Engineers. 61, 803-821.Google Scholar
Kershaw, A.P., (1970). Pollen morphological variation within the Casuarinaceae. Pollen et Spores. 12, 146-161.Google Scholar
Le Père, M., ère, 1826. Mémoire sur la Vallée du Nil et le nilomètere de L'Ile de Roudah. Description de l'Égypte, Recueil des Observations et des Recherches qui ont été Faites en Égypte Pendant L'Expédition de L'Armée Française. Tome Dix-Huitième, État Moderne. 2nd ed. C. L. F. Panckoucke, Paris, 555-645 Part 1.Google Scholar
1872–1873. Linant de Bellefonds bey. Mémories sur les Principaux Travaux d'Utilité Publique Exécutés en Égypte. Arthus Bertrand Editeur, Paris. Google Scholar
McAndrews, J.H., (1967). Pollen analysis and vegetational history of the Itasca region, Minnesota. Cushing, E.J., Wright, H.E. Jr., Quaternary Paleoecology. Yale Univ. Press, New Haven, Conn, 219-248.Google Scholar
McAndrews, J.H., (1976). Fossil history of man's impact on the Canadian flora: An example from southern Ontario. Canadian Botanical Association Bulletin. 9, No. 1 1-6 Supplement.Google Scholar
McAndrews, J.H., Power, D.M., (1973). Palynology of the Great Lakes: The surface sediments of Lake Ontario. Canadian Journal of Earth Sciences. 10, 777-792.Google Scholar
Mahmoud, Abdul-Monsef, (1947) On the Shores of Buheiret Qarun. Matb'et Ramsess, Alexandria, [in Arabic].Google Scholar
Mar'i, S., (1970) Egyptian Agriculture. Wizaret Ez-Zira'a Wa-l-EsSlah ez-Zira'i, Cairo, [in Arabic].Google Scholar
Martin, P.S., Byers, W., (1965). Pollen and archaeology at Wetherill Mesa. Osborne, D., Assembler Contributions of the Wetherill Mesa Archeological Project. Society for American Archaeology Memoirs 19. 122-135 Salt Lake City.Google Scholar
Mehringer, P.J. Jr., (1967). Pollen analysis of the Tule Springs area, Nevada. Wormington, H.M., Ellis, D., Pleistocene Studies in Southern Nevada. Nevada State Museum Anthropological Papers 13. 129-200 Carson City.Google Scholar
Mehringer, P.J. Jr., Blinman, E., Petersen, K.L., (1977). Pollen influx and volcanic ash. Science. 198, 257-261.Google Scholar
Mehringer, P.J. Jr., Sheppard, J.C., (1978). Holocene history of Little Lake, Mojave Desert, California. Davis, E.L., The Ancient Californians: Rancholabrean Hunters of the Mojave Lakes Country. Natural History Museum of Los Angeles County, Science Series 29. 153-166.Google Scholar
Minnawi, M.H., (1966) The Nile River in Arabic Literature. Al-Dar Al-Qaomiya Lil-Tiba'ah wan-Nashr, Cairo, [in Arabic].Google Scholar
Mitchell, G.F., (1965) Littleton Bog, Tipperary: An Irish Vegetational Record. 1-16 Geological Society of America Special Paper 84, New York.Google Scholar
Muller, J., (1959). Palynology of recent Orinoco delta and shelf sediments. Micropaleontology. 5, 1-32.Google Scholar
Nazir, W., (1969) Agriculture in Islamic Egypt. Morakabet Et-Tahrir Wan-Nashr Wa-1-Maktabat, Cairo, [in Arabic].Google Scholar
O'Sullivan, P.E., Oldfield, F., Battarbee, R.W., 'Sullivan et al., 1971. Preliminary studies of Lough Neagh sediments. I. Stratigraphy, chronology and pollen analysis. Birks, H.J.B., West, R.G., Quaternary Plant Ecology. Wiley, New York, 267-288.Google Scholar
Pilcher, J.R., Smith, A.G., Pearson, G.W., Crowder, A., (1971). Land clearance in the Irish Neolithic: New evidence and interpretation. Science. 172, 560-562.Google Scholar
Popper, W., (1951) The Cairo Nilometer. University of California Publications in Semitic Philology 12, Berkeley.Google Scholar
Renault-Miskovsky, J., Giard, M., Trouin, M., (1976). Observations de quelques pollen d'Oléacées au microscope électronique a balayage. Bulletin de l'Association française pour l'Etude du Quaternaire. 13, 71-86.Google Scholar
Rivlin, H.A.B., (1961) The Agricultural Policy of Muhammad' Ali in Egypt. Harvard Middle Eastern Studies 4, Cambridge.Google Scholar
Roberts, B.K., Turner, J., Ward, P.F., (1973). Recent forest history and land uses in Weardale northern England. Birks, H.J.B., West, R.G., Quaternary Plant Ecology. Wiley, New York, 207-221.Google Scholar
Russell, J.C., (1966). The population of medieval Egypt. Journal of the American Research Center in Egypt. 5, 69-82.Google Scholar
Saad, S.I., Sami, S., (1967). Studies of pollen and spores content of Nile Delta deposits (Berenbal region). Pollen et Spores. 9, 467-503.Google Scholar
Said, R., (1962) The Geology of Egypt. Elsevier, Amsterdam. Google Scholar
Said, R., Albritton, C., Wendorf, F., Schild, R., Kobusiewicz, M., (1972). A preliminary report on the Holocene geology and archaeology of the northern Fayum Desert. Playa Lake Symposium. ICALS Publ. 4. Texas Technological University, Lubbock, Texas, 41-61.Google Scholar
Sandford, K.S., (1929) Arkell, W.J., Paleolithic Man and the Nile-Faiyum Divide. The University of Chicago Oriental Institute Publications 10.Google Scholar
Schulz, E., (1974). Pollenanalytische untersuchungen quartarer sedimente des Nordwest-Tibesti. FU Pressedienst Wissenschaft. 5, 59-69.Google Scholar
Selim, H.K., (1940) Twenty Years of Agricultural Development in Egypt (1919–1939). Government Press, Cairo. Google Scholar
Shafei, A., (1940). Fayum irrigation as described by Nabulsi in 1245 a. d. with a description of the present system of irrigation and a note on Lake Moeris. Bulletin de l'Institut d'Égypte. 20, 283-287.Google Scholar
Shafei, A., (1960). Lake Moeris and Lahun Mi-wer and Ro-hun: The great Nile control project executed by the ancient Egyptians. Société de Geographie d'Égypte Bulletin. 33, 187-215.Google Scholar
Sims, R.E., (1973). The anthropogenic factor in east Anglian vegetational history: An approach using A.P.F. techniques. Birks, H.J.B., West, R.G., Quaternary Plant Ecology. Wiley, New York, 223-236.Google Scholar
étéd'Enereprises Commerciales en Egypte, 1951. Sociétéd'Enereprises Commerciales en Egypte. La Culture du Mais en Egypte. Publié par le Service Agronomique de la Société d'Entreprises Commerciales en Egypte, Le Caire. Google Scholar
1951. Soil Survey Staff. Soil Survey Manual. U.S. Department of Agriculture Handbook 18.Google Scholar
Stevens, J.C., (1936). Discussion on “Flood-Stage Records of the River Nile” by C. S. Jarvis. Transactions of the American Society of Civil Engineers. 101, 1048-1049.Google Scholar
Stockmarr, J., (1971). Tablets with spores used in absolute pollen analysis. Pollen et Spores. 13, 614-621.Google Scholar
Stockmarr, J., (1973). Determination of spore concentration with an electronic particle counter. Danmarks Geologiske Undersgelse Arbog 1972. 87-89.Google Scholar
Strong, W.L., (1977). Pre- and postsettlement palynology of southern Alberta. Review of Paleobotany and Palynology. 23, 373-387.Google Scholar
Tackholm, 191., Tackholm, G., Drar, M., (1941). Flora of Egypt. Cairo University, Bulletin of the Faculty of Science. 17, 3-574 Vol. 1.Google Scholar
Tackholm, 192., Drar, M., (1969). Flora of Egypt. Cairo University, Bulletin of the Faculty of Science. 36, 13-427 Vol. IV.Google Scholar
Tauber, H., (1977). Investigations of aerial pollen transport in a forested area. Dansk Botanisk Arkiv. 32, 1-121.Google Scholar
Toussoun, O., (1925) Mémoire sur l'Histoire du Nil.. L Institut Français d'Archéologie Orientale, Le Caire, Memoires de l'Institut d'Égypte 8–10.Google Scholar
Troels-Smith, J., (1956). Neolithic period in Switzerland and Denmark. Science. 124, 876-879.Google Scholar
Tsukada, M., Deevey, E.S. Jr., (1967). Pollen analyses from four lakes in the southern Maya area of Guatemala and El Salvador. Cushing, E.J., Wright, H.E. Jr., Quaternary Paleocology. Yale Univ. Press, New Haven, Conn, 303-331.Google Scholar
Van Campo, M., (1975). Pollen analyses in the Sahara. Wendorf, F., Marks, A.E., Problems in Prehistory: North Africa and the Levant. Southern Methodist Univ. Press, Dallas, 45-64.Google Scholar
Van Campo, M., (1976). Difficultés et limites de l'utilisation des analyses polliniques dans les régions désertiques. Colloque II: Chronologie et Synchronisme dans la Préhistoire Circum-Méditerranéenne. Union Internationale des Sciences Préhistoriques et Protohistoriques, IX Congres, Nice, September 13–18, 1976. 77-80.Google Scholar
Van der Hammen, T., (1962). Palinologia de la region de “Laguna de los Bobos”: Historia de su clima, vegetación y agricultura durante los ultimos 5.000 anos. Academia de Colombiana de Ciencias Exactas, Fisicas y Naturales, Revista. 11, 359-361.Google Scholar
Webb, T. III, (1973). A comparison of modern and presettlement pollen from southern Michigan. Review of Paleobotany and Palynology. 16, 137-156.Google Scholar
Wendorf, F., Schild, R., (1976) Prehistory of the Nile Valley. Academic Press, New York. Google Scholar
Willcocks, W., Craig, J.I., (1913) 3rd ed. Egyptian Irrigation. Vols. 1, 2, E. & F. N. Spon, Ltd, London. Google Scholar
Wilson, J.A., (1955). Buto and Hierakonpolis in the geography of Egypt. Journal of Near Eastern Studies. 14, 209-236.Google Scholar
Wright, H.E. Jr., (1967). A square-rod piston sampler for lake sediments. Journal of Sedimentary Petrology. 37, 975-976.Google Scholar
Wyckoff, D.G., (1977). Secondary forest succession following abandonment of Mesa Verde. Kiva. 42, 215-231.Google Scholar
Zakry, A., (1926) The Nile in the Pharaonic and Islamic Period. Matb'et Al-Ma'arf, Cairo, [in Arabic].Google Scholar