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9 - What Is the Meaning of the Extreme Variability of Ancient Ironworking in West Africa?

A Comparison between Four Case Studies

from Part III - Metallurgy

Published online by Cambridge University Press:  18 September 2020

C. N. Duckworth
Affiliation:
University of Newcastle upon Tyne
A. Cuénod
Affiliation:
University of Leicester
D. J. Mattingly
Affiliation:
University of Leicester
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Summary

Iron production has played a part in the history of Africa for more than 2,500 years. The study of this specific human activity has demonstrated its exceptional significance, its historical continuity and an astonishing variability of practice. In Sub-Saharan Africa, metallurgists developed different ways to produce the same material: iron. They multiplied the technical choices to a degree unequalled on other continents. But what is the significance of such extreme diversity? In this chapter, four case studies representing different situations are detailed: in Dendi Country/Benin, where the question of the nature of the raw materials is considered; in Dogon Country/Mali, seven contemporaneous smelting traditions in a limited geographical area; at the Korsimoro site/Burkina Faso, five successive smelting traditions in the same place; and in the Bassar region/Togo, the impact of ancient and intensive iron production on the environment and on the technology. Based on these examples the chapter discusses the interpretation of diversity in terms of the history of technology and population dynamics.

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Publisher: Cambridge University Press
Print publication year: 2020

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References

Alpern, S.B. 2005. Did they or didn’t they invent it? Iron in Sub-Saharan Africa. History in Africa 32: 4194.CrossRefGoogle Scholar
Andrieux, P. 2012. La réduction métallurgique: Des sens aux savoirs transmis. In Robion-Brunner and Martinelli 2012, 227–43.Google Scholar
Balfet, H. 1975. Technologie. In Cresswell, R (ed.), Eléments d’ethnologie. 2, Six approches, Paris: A. Colin, 4479.Google Scholar
Bellamy, C.V. 1904. A West African smelting house. Journal of the Iron and Steel Institute 66: 99126.Google Scholar
Bocoum, H. (ed.) 2004. The Origins of Iron Metallurgy in Africa: New Light on Its Antiquity: West and Central Africa. Paris: UNESCO.Google Scholar
Bril, B. and Roux, V. (eds) 2002. Le geste technique: Réflexions méthodologiques et anthropologiques. Ramonville Saint-Agne: Editions Erès (= Revue d’Anthropologie des connaissances, Technologies/Idéologies/Pratiques 14.2).Google Scholar
Celis, G. 1991. Les fonderies africaines du fer, un grand métier disparu. Frankfurt: Museum für Völkerkunde.Google Scholar
Chamoux, M.-N. 1978. La transmission des savoir-faire: Un objet pour l’ethnologie des techniques? Techniques et Culture 3: 4683.Google Scholar
Childs, S.T. 1991. Style, technology and iron smelting furnaces in Bantu-speaking Africa. Journal of Anthropological Archaeology 10: 332–59.Google Scholar
Childs, S.T. and Killick, D. 1993. Indigenous African metallurgy: Nature and culture. Annual Review of Anthropology 22: 317–37.CrossRefGoogle Scholar
Chirikure, S., Burret, R. and Heimann, R.B. 2009. Beyond furnaces and slags: A review study of bellows and their role in indigenous African metallurgical process. Azania 44.2: 195215.CrossRefGoogle Scholar
Cline, W. 1937. Mining and Metallurgy in Negro Africa. General Series in Anthropology 5. Menasha: George Banta Publishing.Google Scholar
Clist, B. 2012. Vers une réduction des préjugés et la fonte des antagonismes: Un bilan de l’expansion de la métallurgie du fer en Afrique Sub-Saharienne. Journal of African Archaeology 10.1: 7184.Google Scholar
David, N. and Robertson, I.G. 1996. Competition and change in two traditional African iron industries. In Schmidt 1996a, 128–44.Google Scholar
De Barros, P. 1985. The Bassar: Large-scale Iron Producers of the West African Savanna. Unpublished PhD thesis, University of California, Los Angeles.Google Scholar
De Barros, P. 1986. Bassar: A quantified, chronologically controlled, regional approach to a traditional iron production centre in West Africa. Africa: Journal of the international African Institute 56.2: 148–74.CrossRefGoogle Scholar
De Barros, P. 1988. Societal repercussions of the rise of large-scale traditional iron production: A West African example. The African Archaeological Review 6: 91113.CrossRefGoogle Scholar
De Maret, P. 1980. Ceux qui jouent avec le feu: La place du forgeron en Afrique Centrale. Africa: Journal of the International African Institute 50.3: 263–79.Google Scholar
De Maret, P. 1985. The smith’s myth and the origin of leadership in Central Africa. In Haaland and Shinnie 1985, 7387.Google Scholar
Descoeudres, J.-P., Huysecom, E., Serneels, V. and Zimmermann, J.-L. (eds) 2001. Aux origines de la métallurgie du fer. Table ronde internationale d’archéologie: L’Afrique et le bassin méditerranéen (1; 4–7 juin 1999; Genève). Mediterranean Archaeology 14. Sydney: University of Sydney.Google Scholar
Echard, N. 1986. Histoire du peuplement et histoire des techniques: L’exemple de la métallurgie hausa du fer au Niger. Journal des Africanistes 56.1: 2134.Google Scholar
Eichhorn, B. 2012. Woody resource exploitation for iron metallurgy of the Fiko tradition: Implications for the environmental history of Dogon Country, Mali. In Robion-Brunner and Martinelli 2012, 141–52.Google Scholar
Fabre, J.-M. 2009. La métallurgie du fer au Sahel burkinabé à la fin du 1er millénaire AD. In Magnavita, S, Koté, L, Breunig, P and Idé, O.A. (eds), Crossroads, Cultural and Technological Developments in First Millennium BC/AD West Africa, Frankfurt: Africa Magna, 167–78.Google Scholar
Faure, P. and Viennot, M. 1976. Carte Pédologique de Reconnaissance à 1: 200,000. Porga-Karimama. République Populaire du Bénin. Bondy: Office de la recherche scientifique et technique outre-mer.Google Scholar
Faure, P., Viennot, M. and Dubroecq, D. 1976. Carte Pédologique de Reconnaissance à 1: 200,000. Kandi. République Populaire du Bénin. Bondy: Office de la recherche scientifique et technique outre-mer.Google Scholar
Gallay, A. 2000. Cultures, styles, ethnies: Quel choix pour l’archéologue? In De Marinis, R and Biaggio, S (eds), I Leponti: Tra mito e realtà, 1. Cat. di mostra (maggio–dicembre 2000; Locarno, Castello Visconteo – Casorella), Locarno: Gruppo Archeologia Ticino, 7178.Google Scholar
Gallay, A. 2001. Diffusion ou invention: Un faux débat pour l’archéologue? In Descoeudres et al. 2001, 7382.Google Scholar
Gallay, A. 2010. Les mécanismes de diffusion de la céramique traditionnelle dans la boucle du Niger (Mali): Une évaluation des réseaux de distribution. In Manen, C, Convertini, F, Binder, D and Sénépart, I (eds), Premières sociétés paysannes de Méditerranée occidentale: Structure des productions céramiques. Séance de la Société préhistorique française, Paris: Société Préhistorique Française, 265–81.Google Scholar
Gordon, R.B. and Killick, D.J. 1993. Adaptation of technology to culture and environment: Bloomery iron smelting in America and Africa. Technology and Culture 34.2: 243–70.CrossRefGoogle Scholar
Gosselain, O.P. 1995. Identités techniques, le travail de la poterie au Cameroun méridional. Unpublished PhD thesis, Université Libre de Bruxelles.Google Scholar
Guillon, R. 2013. Relation société-milieu en domaine sahélien au sud-ouest du Niger au cours des quatre derniers millénaires: Approche géoarchéologique. Unpublished PhD thesis, Université de Dijon.Google Scholar
Haaland, R. and Shinnie, P. (eds) 1985. African Iron Working: Ancient and Traditional. Oslo: Norwegian University Press.Google Scholar
Haour, A., Banni Guene, O., Gosselain, O., Livingstone Smith, A. and N’Dah, D. 2011. Survey along the Niger River Valley at the Benin-Niger border, winter 2011. Nyame Akuma 76: 2332.Google Scholar
Herbert, E.W. 1993. Iron, Gender and Power: Rituals of Transformation in African Societies. Bloomington: Indiana University Press.Google Scholar
Holl, A.F.C. 2009. Early West African metallurgies: New data and old orthodoxy. Journal of World Prehistory 22: 415–38.Google Scholar
Huysecom, E. 2001. Technique et croyance des forgerons africains: Eléments pour une approche ethnoarchéologique. In Descoeudres et al. 2001, 7382.Google Scholar
Huysecom, E. 2002. Palaeoenvironment and human population in West Africa: An international research project in Mali. Antiquity 292: 335–36.Google Scholar
Huysecom, E. and Agustoni, B. 1996. Inagina, l’ultime maison du fer. Genève: Télévision Suisse Romande.Google Scholar
Kante, N. 1993. Forgerons d’Afrique noire: Transmission des savoirs traditionnels en pays malinké. Paris: Editions de l’Harmattan.Google Scholar
Kense, F.J. 1985. The initial diffusion of iron to Africa. In Haaland and Shinnie 1985, 1127.Google Scholar
Killick, D.J. 1991. The relevance of recent African iron-smelting practice to reconstructions of prehistoric smelting technology. MASCA Research Papers in Science and Archaeology 8.1: 4754.Google Scholar
Killick, D.J. 2004. Review essay: What do we know about African iron working? Journal of African Archaeology 2.1: 97112.Google Scholar
Killick, D.J. 2015. Invention and innovation in African iron-smelting technologies. Cambridge Archaeological Journal 25.1: 307–19.Google Scholar
Killick, D.J. and Miller, D.M. 2014. Smelting of magnetite and magnetite-ilmenite ores in the northern Lowveld, South Africa, ca.1000 CE to ca.1880 CE. Journal of Archaeological Science 43: 230–55.Google Scholar
Langlois, O. 2006. De l’organisation bipartite du travail du fer dans les monts Mandara septentrionaux. Techniques et Culture 4647: 175209.Google Scholar
Lemonnier, P. 2010. L’étude des systèmes techniques. Techniques et Culture 5455.1: 4967.Google Scholar
Leroi-Gourhan, A. 1971. Evolution et techniques: L’homme et la matière. Paris: Albin Michel.Google Scholar
Martinelli, B. 1993. Fonderies ouest-africaines: Classement comparatif et tendances. Techniques et Culture 21: 195221.Google Scholar
Martinelli, B. 1996. Sous le regard de l’apprenti: Paliers de savoir et d’insertion chez les forgerons Moose du Yatenga (Burkina Faso). Techniques et Culture 58: 947.Google Scholar
Martinelli, B. 2004. On the threshold of intensive metallurgy: The choice of slow combustion in the Niger River Bend (Burkina Faso and Mali). In Bocoum 2004, 165–88.Google Scholar
Mauny, R. 1952. Essai sur l’histoire de métaux en Afrique occidentale. Bulletin de l’Institut Français de l’Afrique Noire 14.2: 545–95.Google Scholar
Mauss, M. 1947. Manuel d’ethnographie. Paris: Payot.Google Scholar
McNaughton, P.R. 1993. The Mande Blacksmith: Knowledge, Power and Art in West Africa. Bloomington and Indianapolis: Indiana University Press.Google Scholar
Miller, D.E. and Van der Merwe, N.J. 1994. Early metal working in Sub-Saharan Africa: A review of recent research. Journal of African History 35.1: 136.Google Scholar
Perret, S. and Serneels, V. 2006. Technological characterization and quantification of a large scale iron smelting site in Fiko, Mali. In Moreau, J.-F., Auger, R, Chabot, J and Herzog, A (eds), Proceedings/Actes ISA2006, 36th International Symposium on Archaeometry, Quebec Canada, 2–6.05.2006, Québec: CELAT (Cahiers d’archéologie du CELAT 25.7), 453–63.Google Scholar
Pleiner, R. 2000. Iron in Archaeology: The European Bloomery Smelters. Praha: Archeologicky ustav AVCR.Google Scholar
Pole, L.-M. 1985. Furnace design and the smelting operation: A survey of written reports of iron smelting in West Africa. In Haaland and Shinnie 1985, 142–63.Google Scholar
Robion-Brunner, C. 2010. Peuplements des forgerons et traditions sidérurgiques: Vers une histoire de la production du fer sur le plateau de Bandiagara (pays dogon, Mali) durant les empires précoloniaux. Frankfurt: Africa Magna Verlag.Google Scholar
Robion-Brunner, C. 2012. The role of ethnohistoric data in reconstructing ancient siderurgy in Dogon Country (Mali). P@lethnology 4: 209–34.Google Scholar
Robion-Brunner, C. 2018. Ironworking. In Haour, A (ed.), Two Thousand Years in Dendi, Nothern Benin, Leiden: Brill, 174–92.Google Scholar
Robion-Brunner, C. and Martinelli, B. (eds). 2012. Métallurgie du fer et sociétés africaines: Bilans et nouveaux paradigmes dans la recherche anthropologique et archéologique. Oxford: BAR International Series 2395.Google Scholar
Robion-Brunner, C., Serneels, V. and Perret, S. 2013. Variability in iron smelting practices: Confrontation of technical, cultural and economic criteria to explain the metallurgical diversity in the Dogon area (Mali). In Humphris, J and Rehren, T (eds), The World of Iron, London: Archetype Publications, 257–65.Google Scholar
Robion-Brunner, C., Aboki, T., de Barros, P., Coustures, M.-P., Ilaboti, D., Dugast, S., Eichhorn, B., Le Drezen, Y., Mahou-Hekinian, V., Robert, V., Soulignac, R. and Tidjougouna, L. 2014. The Project ‘SIDERENT’. Poster of the 14th Congress of the Pan African Archaeological Association for Prehistory and Related Studies, University of Johannesburg.Google Scholar
Robion-Brunner, C., Haour, A., Coustures, M.-P., Champion, L. and Béziat, D. 2015. Iron production in northern Benin: Excavations at Kompa Moussékoubou. Journal of African Archaeology 13.1: 3957.Google Scholar
Schmidt, P.R. (ed.) 1996a. The Culture and Technology of African Iron Production. Gainesville: Press of Florida.Google Scholar
Schmidt, P.R. 1996b. Cultural representations of African iron production. In Schmidt 1996a, 128.Google Scholar
Serneels, V., Kiénon-Kaboré, H.T., Koté, L., Kouassi, S.K., Ramseyer, D. and Simporé, L. 2012. Origine et développement de la métallurgie du fer au Burkina Faso et en Côte d’Ivoire. Premiers résultats sur le site sidérurgique de Korsimoro (Sanmatenga, Burkina Faso). Jahresbericht 2011 der Schweizerisch-Liechtensteinische Stiftung für Archäologische Forschungen im Ausland (SLSA): 2354.Google Scholar
Serneels, V., Kiénon-Kaboré, H.T., Koté, L., Kouassi, S.K., Mauvilly, M., Ramseyer, D. and Simporé, L. 2013. Origine et développement de la métallurgie du fer au Burkina Faso et en Côte d’Ivoire. Premiers résultats sur le site sidérurgique de Siola (Kaniasso, Danguélé, Côte d’Ivoire). Jahresbericht 2012 der Schweizerisch-Liechtensteinische Stiftung für Archäologische Forschungen im Ausland (SLSA): 113–43.Google Scholar
Serneels, V., Donadini, F., Kiénon-Kaboré, H.T., Koté, L., Kouassi, S.K., Ramseyer, D. and Simporé, L. 2014. Origine et développement de la métallurgie du fer au Burkina Faso et en Côte d’Ivoire: Avancement des recherches en 2013 et quantification des vestiges de Korsimoro (Burkina Faso). Jahresbericht 2013 der Schweizerisch-Liechtensteinische Stiftung für Archäologische Forschungen im Ausland (SLSA): 65112.Google Scholar
Serneels, V., Jobin, P., Kiénon-Kaboré, H.T., Koté, L., Kouassi, S.K., Ramseyer, D., Thiombiano-Ilbi-oudo, E. and Simporé, L. 2015. Origine et développement de la métallurgie du fer au Burkina Faso et en Côte d’Ivoire: Seconde campagne dans la region de Kaniasso (Folon, Côte d’Ivoire) et autres recherches. Jahresbericht 2014 der Schweizerisch-Liechtensteinische Stiftung für Archäologische Forschungen im Ausland (SLSA): 2360.Google Scholar
Shinnie, P.L. 1985. Iron working at Meroe. In Haaland and Shinnie 1985, 2835.Google Scholar
Sutton, J.E.G. 1985. Temporal and spatial variability in African iron furnaces. In Haaland and Shinnie 1985, 164–91.Google Scholar
Trigger, B.G. 1969. The myth of Meroe and the African Iron Age. International Journal of African Historical Studies 2: 2350.Google Scholar
Tylecote, R.F. 1987. The Early History of Metallurgy in Europe. London: Longman.Google Scholar
Van der Merwe, N.J. and Avery, D.H. 1987. Science and magic in African technology: Traditional iron smelting in Malawi. Africa 57.2: 143–72.Google Scholar
Viennot, M. 1978. Notice explicative no,66 (9) de la carte pédologique de reconnaissance de la République Populaire du Bénin, Feuille de Kandi-Karimama. Paris: Orstom.Google Scholar

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