Hostname: page-component-7bb8b95d7b-nptnm Total loading time: 0 Render date: 2024-09-27T21:18:14.472Z Has data issue: false hasContentIssue false
  • English
  • Français

Treating an Interdisciplinary Allergy: Methodological Approaches to Pollen Studies for the Historian of Early Africa1

Published online by Cambridge University Press:  13 May 2014

David Schoenbrun
David Schoenbrun*
Affiliation:
University of Georgia
Get access Rights & Permissions [Opens in a new window]

Extract

The interdisciplinary task of reconstructing early African history demands more than a passing familiarity with many fields of knowledge. Not least among these is geography, in its broader conception as the pursuit of an understanding of physiographic processes and the role(s) played by people in shaping and responding to these processes. A standard beginning in many a history book takes the reader through annual rainfall figures, topographic generalities, and, perhaps a cursory pedological overview of the region in which the people(s) under study live. Rarely are these introductory remarks integrated into the historical narrative. We are too often left to ourselves in determining the relevance, for example, of a bi-modal rainfall to the local agriculture in a subregion of open grasslands and woody savanna ecotones on black clay valley bottoms. We trust these are data relevant to our understanding of the region's agriculturalists.

Many readers may know that such an area will be subject to heavy soil waterlogging during the wetter months. They may also realize that mound and ridge construction are excellent responses to the risks of root-drowning such waterlogging poses to crops such as beans, and as well, that the indigenous African grain crops Sorghum spp. and Pennisetum spp. can withstand waterlogged soils for brief periods without suffering significant loss of yield (Purseglove 1972:269-71). What is likely to be poorly understood are the forces of ecological and cultural change that have been at work in such an environment transforming the very nature of its vegetational cover and soil profile. In short, a historical perspective is necessary so that we do not run the risk of presenting Africa's ecological background in the same unchanging light as colonial ethnographers did Africa's past.

Type
Research Article
Information
History in Africa , Volume 18 , 1991 , pp. 323 - 348
Copyright
Copyright © African Studies Association 1991

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.)

Footnotes

1.

I would like to thank Edward Alpers for providing the original stimulus to delve into this non-traditional source for Africa's history. I must also thank Emile Roche of the Palynology Unit at the Musee royal de l'Afrique centrale, Tervuren, for moral and intellectual support. Also, a special thanks go to la famille DE MARET for hospitality, friendship, and criticism, all given freely and kindly. None of these people is directly responsible for what follows. This article is part of a larger study carried out under a fellowship granted by the Social Science Research Council and the American Council of Learned Societies and under a grant from Fulbright Hays. I am grateful to those organizations for their material support. However, the conclusions, opinions, and other statements in this publication are my own.

References

Beadle, L.C. 1974. The Inland Waters of Tropical Africa. London.Google Scholar
Bonnefille, R. 1979. “Méthode palynologique et reconstructions paléoclimatiques au cénozoique dans le Rift Est Africain.” Bulletin de société géologique française 21:331–42.Google Scholar
Bonnefille, R., and Riollet, G. 1984. “L'histoire forestière du Burundi d'après l'étude des tourbières,” Histoire Rurale 2:7183. [Cahiers d'Histoire, Departement d'Histoire de l'université du Burundi].Google Scholar
Cazenave-Piarrot, F., Cazenave-Piarrot, A., and Lopez, A. 1979. Géographie du Burundi. Le pays, les hommes. Paris.Google Scholar
Clist, B. 1987. “A Critical Reappraisal of the Chronological Framework of the Early Urewe Iron Age Industry.” Muntu 6:3562.Google Scholar
Coetzee, J.A. 1967. “Pollen Analytical Studies in East and Southern AfricaPalaeoecology of Africa 3:1146.Google Scholar
Combe, J. 1977. Guide des principales essences de la forêt de montagne du Rwanda. Kibuye.Google Scholar
Dale, I.R. and Greenway, P.J. 1961. Kenya Trees and Shrubs. Nairobi.Google Scholar
Eggeling, W.J. 1952. The Indigenous Trees of the Uganda Protectorate. Entebbe.Google Scholar
Ehret, C. 1973. “Patterns of Bantu and Central Sudanic Settlement in Central and Southern Africa (ca. 1000 B.C.-500 A.D.).” Transafrican Journal of History 3:171.Google Scholar
Ehret, C. 1974. “Agricultural History in Central and Southern Africa, ca. 1000 B.C. to A.D. 500.” Transqfrican Journal of History 4:125.Google Scholar
Ehret, C. 1976. “Aspects of Social and Economic Change in Western Kenya, ca. A.D. 500-1800.” In Ogot, B.A. ed. Kenya Before 1900. Nairobi, 120.Google Scholar
Ehret, C. 1984. “Between the Coast and the Great Lakes.” In Niane, D. T. ed. Africa from the Twelfth to the Sixteenth Century. Paris. 481–97.Google Scholar
Ehret, C. 1988. “The East African Interior.” In El Fasi, M. ed. Africa from the Seventh to the Eleventh Century. Paris, 616–42.Google Scholar
Erdtman, E. 1969. Handbook ofPalynology. Copenhagen.CrossRefGoogle Scholar
Faegri, K. and Iversen, J. 1964. Textbook of Pollen Analysis. Oxford.Google Scholar
Flenley, J.R. 1972. “The Use of Modern Pollen Rain Samples in the Study of the Vegetational History of Tropical Regions.” In Birks, and West, eds. Quaternary Plant Ecology. Oxford, 131–41.Google Scholar
Flenley, J.R. 1979. The Equatorial Rainforest: a Geological History. London.Google Scholar
Fournier, F., and Sasson, A. eds. 1983. Ecosystèmes forestiers tropicaux d'Afrique. Paris.Google Scholar
Gasse, F. 1975. “L'évolution des lacs de l'Afar central (Ethiopie et T.F.A.I.) du Plio-Pléistocène à l'actuel.” Thèse, Université de Paris VI.Google Scholar
Gillman, C. 1949. “A Vegetation-Types Map of Tanganyika Territory.” Geographical Review 39:737.CrossRefGoogle Scholar
Glover, P.E., Glover, J., and Gwynne, M.D. 1962. “Light Rainfall and Plant Survival in East Africa, II. Dry Grassland.” Journal of Ecology 50:199206.Google Scholar
Green, S.W. 1988. “Palynology and Human Ecology: Theory and Method for the Study of Prehistorical Agriculture.” In Bintliff, et al. eds. Conceptual Issues in Environmental Archaeology. Edinburgh, 246–72.Google Scholar
Grove, A.T., Street, F.A., and Goudie, A.S. 1975. “Former Lake Levels and Climatic Change in the Rift Valley of Southern Ethiopia.” Geographical Journal 141:177202.Google Scholar
Grunderbeek, M.-C. van 1988. “Essai d'étude typologique de céramique urewe de la région des collines au Burundi et RwandaAzania 22:1155.Google Scholar
Grunderbeek, M.-C. van, Doutrelepont, H., and Roche, E. 1984. “Influence humaine sur le milieu au Rwanda et au Burundi a l'âge du fer ancien (220-665 A.D.). Apports de la palynologie et de l'étude des charbons de bois.” Rèvue de Paléobiologie (Avril), 221229. Numéro spécial.Google Scholar
Grunderbeek, M.-C. van, Roche, E., and Doutrelepont, H. 1983. Le premier âge du fer au Rwanda et au Burundi. Archéologie et environnement. Brussels.Google Scholar
Hamilton, A.C. 1969. “The Vegetation of South-West Kigezi.” Uganda Journal 33:175–99.Google Scholar
Hamilton, A.C. 1972. “The Interpretation of Pollen Diagrams From Highland Uganda.” Palaeoecology of Africa 7:45149.Google Scholar
Hamilton, A.C. 1974. “The History of the Vegetation.” In Lind, E. M. and Morrison, M. E. S. eds. East African Vegetation. London, 188209.Google Scholar
Hamilton, A.C. 1981. A Field Guide to Uganda Forest Trees. Kampala.Google Scholar
Hamilton, A.C. 1982. Environmental History of East Africa. New York.Google Scholar
Hamilton, A.C., and Perrott, R.A. 1980. “Modern Pollen Deposition on a Tropical African Mountian.” Pollen et Spores 22:437–68.Google Scholar
Hamilton, A.C., Taylor, D., and Vogel, J.C. 1986. “Early Forest Clearance and Environmental Degradation in South-West Uganda.” Nature 320:164–67.Google Scholar
Harvey, T.J. 1977. “The Paleolimnology of Lake Mobutu Sese Seko, Uganda/Zaire: the last 28,000 years.” Ph.D., Duke University.Google Scholar
Hecky, R.E. 1978. “The Kivu-Tanganyika Basin: the last 14,000 Years.” Polskie Archiwum Hydrobiologii 25:159–65.Google Scholar
Hecky, R.E., and Degens, E.T. 1973. Late Pleistocene-Holocene Chemical Stratigraphy and Paleolimnology of the Rift Valley Lakes of Central Africa. Woods Hole, Mass.Google Scholar
Heinzelin de Braucourt, J. de 19571961. Exploration du Parc National Albert. Brussels.Google Scholar
Holdship, S. A. 1976. “The Paleolimnology of Late Manyara, Tanzania: A Diatom Analysis of 56 Meter Sediment Core.” PhD., Duke University.Google Scholar
Kendall, R.L. 1968. “An Ecological History of the Lake Victoria Basin” Ph.D. Duke University.Google Scholar
Kendall, R.L. 1969. “An Ecological History of the Lake Victoria Basin.” Ecological Monographs 39:121–76.Google Scholar
Kummel, B., and Raup, D. eds. 1965. Handbook of Paleontological Techniques. San Francisco.Google Scholar
Langdale-Brown, I., Osmaston, H.A., and Wilson, J.G. 1964. The Vegetation of Uganda and its Bearing on Land Use. Entebbe.Google Scholar
Langford, A.N., and Buell, M.H. 1969. “Integration, Identity and Stability in the Plant Association.” In Cragg, , ed. Advances in Ecological Research 6: 84135.Google Scholar
Lewalle, J. 1970. Les étages de la végétation de Burundi occidental. Brussels.Google Scholar
Liben, L. 1962. “Nature et origine du peuplement végétal des contrées montagneuses du Congo oriental.” Mémoire de l'Académie Royale Belge, classe des sciences, 2ème série 15/3:1195.Google Scholar
Lind, E.M. and Morrison, M.E.S. 1974. The Vegetation of East Africa. Nairobi.Google Scholar
Livingstone, D.A. 1965. “Sedimentation and the History of Water Level Change in Lake Tanganyika.” Limnology and Oceanography 10:607–10.Google Scholar
Livingstone, D.A. 1967. “Postglacial Vegetation of the Ruwenzori Mountains in Equatorial Africa.” Ecological Monographs 37:2532.Google Scholar
Livingston, D.A. 1971. “A 22,000-Year Pollen Record From the Plateau of Zambia.” Limnology and Oceanography 16:349–56.CrossRefGoogle Scholar
Livingstone, D.A. and Kendall, R.L. 1969. “Stratigraphie Studies of East African Lakes.” Mitt. Internat. Verein. Limnol. 17:147–53.Google Scholar
Markgraf, V. 1980. “Pollen Dispersal in a Mountain Area.” Grana 19:127–46.Google Scholar
M'benza Muaka, E. Roche, and Doutrelepont, H. 1984. “Notes sur les apports de la palynologie et de l'étude des bois fossiles aux recherches géomorphologiques sur la vallée de la lupembashi (shaba-zaire).” Rèvue de Paléobiologie (Avril): 149–54. (Numéro spécial).Google Scholar
Moore, P.D. and Webb, J.A. 1978. An Illustrated Guide to Pollen Analysis. New York.Google Scholar
Morrison, M.E.S. 1961. “Pollen Analysis in Uganda.” Nature 190:483–86.Google Scholar
Morrison, M.E.S. 1968. “Vegetation and Climate in the Uplands of South-western Uganda During the Later Pleistocene Period I. Muchoya Swamp, Kigezi District.” Journal of Ecology 56:363–84.Google Scholar
Morrison, M.E.S. and Hamilton, A.C. 1974. “Vegetation and Climate in the Uplands of South-western Uganda During the Later Pleistocene Period H. Forest Clearance and Other Vegetational Changes in the Rukiga Highlands During the Last 8000 Years.” Journal of Ecology 62:132.Google Scholar
Noten, F. van 1979. “The Early Iron Age in the Interlacustrine Region: The Diffusion of Iron Technology.” Azania 14:6180.Google Scholar
Palmer, P.G. 1976. “Grass Cuticles: A New Paleoecological Tool for East African Lakes.” Canadian Journal of Botany 54:1725–34.Google Scholar
Pennington, W. 1973. “Absolute Pollen Frequencies in the Sediments of Lakes of Different Morphometry.” In Birks, and West, . eds. Quaternary Plant Ecology. Oxford, 79104Google Scholar
Peters, R.H. and MacIntyre, S. 1976. “Orthophosphate Turnover in East African Lakes.” Oecologia 25:313:19.Google Scholar
Purseglove, J.W. 1972. Tropical Crops: Dicotyledons. London.Google Scholar
Robyns, W. 1924/1934. Flore agrostologique du Congo Belge et du Ruanda-Urundi. 2 vols. Brussels.Google Scholar
Roche, E. 1979. “Végétation ancienne et actuelle de l'Afrique centrale.” African Economie History 7:3037.Google Scholar
Roche, E. and Bikwemu, G. 1986. “Paleoenvironmental Change on the Zaire-Nile Divide in Burundi: The Last 20,000 Years. An Interpretation of Palynological Data From the Kashiru Core, Ijenda, Burundi.” conference paper.Google Scholar
Roche, E., Bikwemu, G., and Ntaganda, C. 1988. “Evolution de paléoenvironnement quaternaire au Rwanda et au Burundi. Analyse des Phénomènes morphotectonique et des données sedimentologiques et palynologiques.” Actes du Xe Symposium de l'Association des palynologues de langue française 25:105–23.Google Scholar
Roche, E. and Van Grunderbeek, M.-C. 1985. “Apports de la palynologie à l'étude du quaternaire supérieur au Rwanda.” IXéme Symposium, Palynologie et Milieux Tropicaux. Montpellier, d1-3 Oct., 1985.Google Scholar
Schmidt, P.R. 1980. “Early Iron Age Settlements and Industrial Locales in West Lake,” Tanzania Notes and Records n. 84/85 (1980) 7794.Google Scholar
Schoenbrun, D.L. 1990. “Early History in Eastern Africa's Great Lakes Region: Linguistic, Ecological, and Archaeological Approaches, ca. 500 B.C. to ca. A.D. 1000.” Ph.D. UCLA.Google Scholar
Schoenbrun, D.L. in preparation. “A History of Early Land Clearance in Great Lakes Eastern Africa.”Google Scholar
Snowden, J.D. 1953. The Grass Communities and Mountain Vegetation of Uganda. London.Google Scholar
Tauber, H. 1967. “Investigations of the Mode of Pollen Transfer in Forested Areas.” Review of Paleobotany and Palynology 3:277–86.Google Scholar
Temple, P.H. 1964. “Evidence of Lake-Level Changes From the Northern Shoreline of Lake Victoria, Uganda.” In Steel, and Prothero, . eds. Geographers and the Tropics: Liverpool Essays. London, 3156.Google Scholar
Temple, P.H. 1966. “Evidence of Changes in the Level of Lake Victoria and Their Significance.” Ph.D. University of London.Google Scholar
Traverse, A. 1988. Paleopalynology. Boston.Google Scholar
Troupin, G. and Donneaux, A. 1982. Plantes ligneuses du rwanda. Lexique des noms kinyarwanda. Butare.Google Scholar
Tschudy, R.H. and Scott, R.A. 1969. Aspects of Palynology. New York.Google Scholar
Van Zinderen Bakker, E.M. 1969. “The Pleistocene Vegetation and Climate of the Basin.” In Clark, , ed. Kalambo Falls Presitoric Site. I. Cambridge, 5784.Google Scholar
Von Post, L. 1944. “The Prospect for Pollen Analysis in the Study of the Earth's Climatic History.” New Phytologist 45:193217. (English translation of the original 1916 article published in Dutch.)Google Scholar