Reconceptualising the palaeozoogeography of the Sahara and the dispersal of early modern humans

Nick A. Drake; Roger Blench

doi:10.1017/9781316686942.006

5 - Reconceptualising the palaeozoogeography of the Sahara and the dispersal of early modern humans

from II - Origins: Species Movements in the Pleistocene

Published online by Cambridge University Press: 04 May 2017

Nick A. Drake and

Edited by

Rémy Crassard and

Nick A. Drake: Affiliation:
King's College London
Roger Blench: Affiliation:
University of Cambridge
Nicole Boivin: Affiliation:
Max Planck Institute for the Science of Human History, Jena
Rémy Crassard: Affiliation:
Centre National de la Recherche Scientifique (CNRS), Lyon
Michael Petraglia: Affiliation:
Max Planck Institute for the Science of Human History, Jena

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Abstract

Genetic and archaeological lines of evidence both suggest that Homo sapiens dispersed out of Africa sometime between 130 and 50 ka, and that a likely route was across the ‘green Sahara’. However, there is an absence of definitive evidence for trans-Sahara dispersal even though some animal species appear to have done so. To further our understanding of this dispersal, we present a model that considers the different ways humans can affect animal distributions and vice versa. We define three different mechanisms: facilitation, co-distribution and translocation. We then use North Africa during the last two interglacial humid phases as a testbed to evaluate each mechanism by analysing animal, fossil and rock art distributions, molecular phylogeny, archaeology and linguistics. We demonstrate strong evidence for facilitation with some evidence for co-distribution and translocation. Facilitation during the penultimate interglacial can be associated with the dispersal of H. sapiens out of Africa.

Keywords: Dispersal, facilitation, co-distribution, translocation, Sahara

INTRODUCTION

Saharan palaeozoogeography has traditionally been pursued through phenotypic and distributional analyses of modern and fossil animal species. A revolution in our understanding in this area has been brought about by a significant increase in genetic analyses of desert species, new models of the palaeohydrology of the Sahara and a better knowledge of the role of hominins in the dispersal of a wide variety of species. Ancillary disciplines, such as rock art studies, continue to provide new insights into the presence of larger species and human interactions with them. Synchronic ethnography also brings models of human/animal interactions to bear on the modelling of past relationships. This chapter is intended to bring together these new findings and put forward a preliminary analysis of the relationship between human and animal dispersal in the early Sahara.

Genetic and archaeological studies suggest that Homo sapiens dispersed out of Africa sometime between 130 and 50 ka (Macaulay et al. 2005; Gunz et al. 2009; Boivin et al. 2013). This is likely to have been preceded by at least three waves of hominin dispersals out of Africa between 1.9 and 0.7 Ma (Bar-Yosef and Belfer-Cohen 2001), with the possibility of an earlier wave around 2.5 Ma (Dennell 2009), and with additional suggestions of further migrations around 780–700 ka (Martínez-Navarro and Rabinovich 2011) and 600 ka (e.g., Lahr and Foley 1998) and.

Type: Chapter
Information: Human Dispersal and Species Movement
From Prehistory to the Present
, pp. 119 - 144

DOI: https://doi.org/10.1017/9781316686942.006 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2017

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References

Anawalt, P.R. 1992. Ancient cultural contacts between Ecuador, West Mexico, and the American Southwest: clothing similarities. Latin American Antiquity 3, 114–129.Google Scholar

Antunes, A., Troyer, J.L., Roelke, M.E., Pecon-Slattery, J., Packer, C., et al. 2008. The Evolutionary Dynamics of the Lion Panthera leo revealed by Host and Viral Population Genomics. PLoS ONE 4(11): e1000251.

Asibey, E.O.A. 1974. Some ecological and economic aspects of the grasscutter, Thryonomys swinderianus, Tem in Ghana. PhD thesis, University of Aberdeen.

Barton, R.N.E., Bouzouggar, A., Collcutt, S.N., Schwenninger, J.-L., and Clark-Balzan, L. 2009. OSL dating of the Aterian levels at Dar es-Soltan I (Rabat, Morocco) and implications for the dispersal of modern Homo sapiens . Quaternary Science Reviews 28: 1914–1931.Google Scholar

Bar-Yosef, O. and Belfer-Cohen, A. 2001. From Africa to Eurasia – early dispersals. Quaternary International 75: 19–28.Google Scholar

Blench, R.M. 2007. New palaezoogeographical evidence for the settlement of Madagascar. Azania, XLII: 69–82.Google Scholar

Boivin, N., Fuller, D.Q., Dennell, R., Allaby, R., and Petraglia, M.D. 2013. Human dispersal across diverse environments of Asia during the Upper Pleistocene. Quaternary International 300: 32–47.Google Scholar

Borkin, L.J. 1999. Distribution of amphibians in North Africa, Europe, Western Asia, and the former Soviet Union, in Patterns of Distribution of Amphibians: A Global Perspective, ed. Duellman, W.E. pp. 329–420. Baltimore: The Johns Hopkins University Press.

Borrow, N. and Demey, R. 2001. Birds of Western Africa. London: Christopher Helm.

Charruau, P., Fernandes, C., Orozco‐terWengel, P., Peters, J., Hunter, L., Ziaie, H., Burger, P.A., et al. 2011. Phylogeography, genetic structure and population divergence time of cheetahs in Africa and Asia: evidence for long‐term geographic isolates. Molecular Ecology 20: 706–724.Google Scholar

Clark, J.D. 1980. Human populations and cultural adaptations in the Sahara and Nile during prehistoric times, in The Sahara and the Nile, ed. Williams, M.A. and Faure, H. pp. 527–582. Rotterdam: Balkema.

Corriente, F. (ed.). 2008. Dictionary of Arabic and allied loanwords: Spanish, Portuguese, Catalan, Galician and kindred dialects. Leiden: Brill.

Dennell, R. 2009. The Palaeolithic Settlement of Asia. Cambridge: Cambridge University Press.

Dennell, R. and Petraglia, M., 2012. The dispersal of Homo sapiens across Southern Asia: how early, how often, how complex? Quaternary Science Reviews 47: 15–22 Google Scholar

de Smet, K. 1998. Status of the Nile crocodile in the Sahara desert. Hydrobiologia 391: 81–86.Google Scholar

Donkin, R.A. 1997. A ‘servant of two masters’? Journal of Historical Geography 23: 247–266.Google Scholar

Drake, N.A., Blench, R.M., Armitage, S.J., Bristow, C.S., and White, K.H. 2011. Ancient watercourses and biogeography of the Sahara explain the peopling of the desert. Proceedings of the National Academy of Sciences 108: 458–462.Google Scholar

Drake, N.A. and Breeze, P. (2016) Climate change and modern human occupation of the Saharan from MIS stage six to two. In Africa from MIS 6–2: Population Dynamics and Palaeoenvironments, ed. Jones, S. and Stewart, B. pp. 103–122 New York: Springer.

Drake, N.A., Breeze, P.S., and Parker, A.G. 2013. Palaeoclimate in the Saharan and Arabian Deserts during the Middle Palaeolithic and the potential for hominin dispersals. Quaternary International 300: 48–61.Google Scholar

Flagstad, Ø., Syversten, P.O., Stenseth, N.C., and Jakobsen, K.S. 2001. Environmental change and rates of evolution: the phylogeographic pattern within the hartebeest complex as related to climatic variation. Proceedings of the Royal Society of London. Series B: Biological Sciences 268: 667–677.Google Scholar

Flannery, T.F., Kirch, P.V., Specht, J., and Spriggs, M., 1988. Holocene mammal faunas from archaeological sites in island Melanesia. Archaeology in Oceania 23(3): 89–94.Google Scholar

Garbutt, N. 1999. Bushpigs. In Mammals of Madagascar, ed. Garbutt, N. pp. 271–273. Sussex: Pica Press.

Gaubert, P., Godoy, J.A., Del Cerro, I., and Palomares, F. 2009. Early phases of a successful invasion: mitochondrial phylogeography of the common genet (Genetta genetta) within the Mediterranean Basin. Biological Invasions 11: 523–546.Google Scholar

Geraads, D. 2010. Biogeographic relationships of Pliocene and Pleistocene North-western African mammals. Quaternary International 212: 159–168.Google Scholar

Granjon, L. and Duplantier, J-M. 2009. Les rongeurs de l'Afrique sahélo-soudanienne. Marseille: IRD.

Grün, R., Stringer, C., McDermott, F., Nathan, R., Porat, N., Robertson, S. et al. 2005. U-series and ESR analyses of bones and teeth relating to the human burials from Skhul. Journal of Human Evolution 49: 316–334.Google Scholar

Gunz, P., Bookstein, F.L., Mitteroecker, P., Stadlmayr, A., Seidler, H., and Weber, G.W. 2009. Early modern human diversity suggests subdivided population structure and a complex out-of-Africa scenario. Proceedings of the National Academy of Sciences 106: 6094–6098.Google Scholar

Hulva, P., Horáček, I., and Benda, P. 2007. Molecules, morphometrics and new fossils provide an integrated view of the evolutionary history of Rhinopomatidae (Mammalia: Chiroptera). BMC Evolutionary Biology 7: 165.Google Scholar

Hutterer, R. and Trainier, M. 1990. The immigration of the house shrew (Suncus murinus) into Africa and Madagascar. In Vertebrates in the Tropics, ed. Peters, G. and Hutterer, R. pp. 309–319. Bonn: Alexander Koenig Zoological Research Institute.

Jousse, H. 2006. What is the impact of Holocene climatic changes on human societies? Analysis of West African Neolithic populations dietary customs. Quaternary international 151: 63–73.Google Scholar

Kingdon, J. 1997. The Kingdon field guide to African mammals. London: Academic Press.

Klein, R.G. and Scott, K. 1986. Re-analysis of faunal assemblages from the Haua Fteah and other Late Quaternary archaeological sites in Cyrenaican Libya. Journal of Archaeological Science 13: 515–542.Google Scholar

Lahr, M.M. and Foley, R.A. 1998. Towards a theory of modern human origins: Geography, demography and diversity in recent human evolution. Yearbook of Physical Anthropology 41: 137–176 Google Scholar

Le Berre, M. 1989a. Faune du Sahara Volume 1: poisons, amphibiens, reptiles. Paris: LeChevalier – R. Chabaud.

Le Berre, M. 1989b. Faune du Sahara Volume 2: Mammifères. Paris: LeChevalier – R. Chabaud.

Le Quellec, J-L. 1993. Symbolisme et art rupestre au Sahara. Paris: L'Harmattan.

Lévêque, C. 1990. Relict tropical fish fauna in central Sahara. Ichthyological Exploration of Freshwaters 1: 39–48.Google Scholar

Macaulay, V., Hill, C., Achilli, A., Rengo, C., Clarke, D., Scozzari, R., Cruciani, F., Taha, A., Shaari, N.K., Raja, J.M., Ismail, P., Zainuddin, Z., Goodwin, W., Bulbeck, D., Bandelt, H.-J., Oppenheimer, S., Torroni, A., and Richards, M. 2005. Single, rapid coastal settlement of Asia revealed by analysis of complete mitochondrial genomes. Science 308: 1034–1036.Google Scholar

Matisoo-Smith, E. 2007. Animal translocations, genetic variation and the human settlement of the Pacific. In Genes, Language and Culture History in the Southwest Pacific, ed. Friedlaender, Jonathan S., pp. 157–170. Oxford: Oxford University Press.

Martínez-Navarro, B. and Rabinovich, R. 2011. The fossil Bovidae (Artiodactyla, Mammalia) from Gesher Benot Ya ‘aqov, Israel: Out of Africa during the Early–Middle Pleistocene transition. Journal of Human Evolution 60: 375–386.Google Scholar

Mauny, R. 1955. Répartition de la grande faune éthiopienne du Nord-Ouest Africain du Paléolithique à nos jours. Proceedings of the 3rd Pan-African Congress on Prehistory, Livingstone: 102–105.

McComb, K., Shannon, G., Sayialel, K.N., and Moss, C. 2014. Elephants can determine ethnicity, gender, and age from acoustic cues in human voices. Proceedings of the National Academy of Sciences 111: 5433–5438.Google Scholar

Miller, G.H. 2005. Ecosystem collapse in Pleistocene Australia and a human role in megafaunal extinction. Science 309: 287–290.Google Scholar

O'Regan, H.J., Bishop, L.C., Lamb, A., Elton, S., and Turner, A. 2005. Large mammal turnover in Africa and the Levant between 1.0 and 0.5 Ma. In Early-Middle Pleistocene Transitions: The Land-Ocean Evidence, ed. Head, M.J. and Gibbard, P.L., pp. 231–249. London: Geological Society of London Special Publications 247.

Pieters, J. and von den Driesch, A. 2003. Holocene faunas from the Eastern Sahara: Past and future zoogeographical implications. In Deciphering Ancient Bones: The Research Potential of Bioarchaeological Collection, ed. Grupe, G. and Peters, J., pp. 265–284. Germany: Verlag Maria Leidorf GmbH.

Petit-Maire, N. 1993. The Sahara in the Holocene 1:500000. Paris: CGMW/UNESCO.

Qninba, A., El Agbani, M.A., Radi, M., and Pariselle, A. 2012. Sur la présence de Tilapia guineensis (Teleostei, Cichlidae) dans les gueltas d'un affluent de l'Oued Chbeyka, l'Oued Aabar (Province de Tan Tan, Sud-ouest du Maroc) . Bulletin Institut Scientifique 125–126.

Qninba, A., Ibn Tattou, M., Radi, M., El Idrissi Essougrati, A., Bensouiba, H., Ben Moussa, S., et al. 2009. Sebkhet Imlily, une zone humide originale dans le Sud marocain. Bulletin de l'Institut Scientifique 31: 51–55.Google Scholar

RIM 1992. National Livestock Resource Survey. Abuja, Nigeria: Report to Federal Livestock Department.

Rose, J.I., Usik, V. I., Marks, A.E., Hilbert, Y.H., Galletti, C.S., Parton, A., et al. 2011. The Nubian complex of Dhofar, Oman: an African middle stone age industry in southern Arabia. PLoS ONE 6: e28239.Google Scholar

Sereno, P.C., Garcea, E.A.A., Jousse, H., Stojanowski, C.M., Saliège, J.-F., et al. 2008. Lakeside cemeteries in the Sahara: 5000 years of Holocene population and environmental change. PLoS ONE 3: e2995.Google Scholar

Sindaco, R., Jeremcenko, V.K. 2008. The Reptiles of the Western Palearctic. 1. Annotated Checklist and Distributional Atlas of the Turtles, Crocodiles, Amphisbaenians and Lizards of Europe, North Africa, Middle East and Central Asia. Latina: Edizioni Belvedere.

Scerri, E.M.L. 2013. The Aterian and its place in the North African Middle Stone Age, Quaternary International 300: 111–130.Google Scholar

Tchernov, E. 1992. Eurasian-African biotic exchanges through the Levantine corridor during the Neogene and Quaternary. In Mammalian Migration and Dispersal Events in the European Quaternary, ed. von Koenigswald, W. and Werdelin, Lars, pp. 103–123. Courier Forschungsinstitut Senckenberg 153.

Trape, J-F. Trape, S., Chirio, L. 2012. Lézards, crocodiles et tortues d'Afrique occidentale et du Sahara. Paris: IRD.

Uerpmann, H. P. 1987. The Ancient Distribution of Ungulate Mammals in the Middle East. Wiesbaden: Dr. Ludwig Reichart Verlag.

Van Damme, D. 1984. The Freshwater Mollusca of Northern Africa. Distribution, Biogeography and Palaeoecology. Developments in Hydrobiology, 25, Hague: Dr Junk publishing.

Van Peer, P. 1998. The Nile Corridor and the Out-of-Africa Model: An Examination of the Archaeological Record. Current Anthropology 39: 115–140.Google Scholar

Van Neer, W. 1989. Recent and fossil fish from the Sahara and their palaeohydrological meaning. Palaeoecology of Africa 20: 1–18.Google Scholar

Vermeersch, P.M. 2001. ‘Out of Africa’ from an Egyptian point of view. Quaternary International 75: 103–112.Google Scholar

Vernet, R. 1995. Climats anciens du Nord de l'Afrique. Paris: L'Harmattan.

Wagner, P., Melville, J., Wilms, T.M., Schmitz, A. 2011. Opening a box of cryptic taxa – the first review of the North African desert lizards in the Trapelus mutabilis Merrem, 1820 complex (Squamata: Agamidae) with descriptions of new taxa. Zoological Journal of the Linnaean Society 163: 884–912.Google Scholar

Worthy, T.H. and Holdaway, R.N., 1994. Quaternary fossil faunas from caves in Takaka Valley and on Takaka Hill, northwest Nelson, South Island, New Zealand. Journal of the Royal Society of New Zealand 24(3): 297–391.Google Scholar

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