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Climatic cycles and behavioural revolutions: the emergence of modern humans and the beginning of farming

Published online by Cambridge University Press:  02 January 2015

Andrew Sherratt
Andrew Sherratt*
Affiliation:
Ashmolean Museum, University of Oxford, Oxford OX1 2PH, England. E-mail: andrew.sherratt@linacre.oxford.ac.uk
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Extract

Publication of a new volume on the beginnings of Old World farming (Harris 1996) has provided a compendium of current views on this critical inflection-point in human inhabitance of the world. Was it driven by climatic change, as Gordon Childe suggested? And what of the earlier emergence of modern human behaviour: were these two chapters in the same story?

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Papers
Information
Antiquity , Volume 71 , Issue 272 , June 1997 , pp. 271 - 287
Copyright
Copyright © Antiquity Publications Ltd. 1997

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References

Adovasio, J. M., Soffer, O. & Klima, B.. 1996. Upper Palaeolithic fibre technology from Pavlov I, Czech Republic, Antiquity 70: 526–34.CrossRefGoogle Scholar
Aitken, M. J. 1990. Science-based dating in archaeology. London: Longman.Google Scholar
Aitken, M. J., Stringer, C. B. & Mellars, P. A. (ed.) 1993. The origin of modern humans and the impact of chronometrie dating. Princeton (NJ): Princeton University Press.CrossRefGoogle Scholar
Alley, R. B. et al. 1993. Abrupt increase in Greenland snow accumulation at the end of the Younger Dryas event, Nature 362: 527–9.CrossRefGoogle Scholar
Barber, E. J. W. 1991. Prehistoric textiles: the development of cloth in the Neolithic and Bronze Ages. Princeton (NJ): Princeton University Press.CrossRefGoogle Scholar
Bard, E., Hamelin, B., Fairbanks, R. G. & Zindler, A.. 1990. Calibration of the 14C timescale over the last 30,000 years using mass-spectrometric U-Th ages from the Barbados Corals, Nature 345: 587–92.CrossRefGoogle Scholar
Bard, E., Arnold, M., Fairbanks, R. G. & Hamelin, B.. 1993. 230Th-234U and 14C ages obtained by mass spectrometry on corals, Radiocarbon 35: 191–9.CrossRefGoogle Scholar
Bard, E. & Kromer, B.. 1995. The Younger Dryas: absolute and radiocarbon chronology, in Troelstra, et al. (ed.): 161–6.Google Scholar
Bar-Yosef, O. 1993. The role of western Asia in modern human origins, in Aitken, et al. (ed.): 132–47.Google Scholar
Bar-Yosef, O. & Alon, D. (ED.). 1988. Nahal Hemar Cave, Jerusalem: ‘Atiqot. English series 18.Google Scholar
Bar-Yosef, O. & Belfer-Cohen, A.. 1989. The origins of sedentism and farming communities, fournal of World Prehistory 3: 447–98.CrossRefGoogle Scholar
Bar-Yosef, O. & Belfer-Cohen, A.. 1992. From foraging to farming in the Mediterranean Levant, in Gebauer, A. B. & Price, T. D. (ed.), Transitions to agriculture in prehistory. 2148. Madison (WI): Prehistory Press.Google Scholar
Bar-Yosef, O. & Kra, R. S. (ed.). 1994. Late Quaternary chronology and palaeoclimates of the eastern Mediterranean. Tucson (AZ): Department of Geosciences, University of Arizona.Google Scholar
Bar-Yosef, O. & Meadow, R. H.. 1995. The origins of agriculture in the Near East, in Price, T. D. & Gebauer, A. (ed.), Last hunters, first farmers: new perspectives on the prehistoric transition to agriculture. Santa Fe (NM): School of American Research.Google Scholar
Bar-Yosef, O. & Valla, F. (ed.). 1991. The Natufian culture in the Levant. Ann Arbor (MI): International Monographs in Prehistory.Google Scholar
Bellwood, P. 1996. The origins and spread of agriculture in the Indo-Pacific region: gradualism and diffusion or revolution and colonisation?, in Harris, : 465–98.Google Scholar
Binford, L. R. 1968. Post-Pleistocene adaptations, in Binford, S. R. & Binford, L. R. (ed.), New perspectives in archaeology. 313–1. Chicago (IL): Aldine.Google Scholar
Blümler, M. 1996. Ecology, evolutionary theory and agricultural origins, in Harris, (ed.): 2550.Google Scholar
Blumler, M. & Byrne, R.. 1991. The ecological genetics of domestication and the origins of agriculture, Current Anthropology 32(1): 2354.CrossRefGoogle Scholar
Bottema, S. 1995. The Younger Dryas in the eastern Mediterranean, Quaternary Science Reviews 14: 883–92.CrossRefGoogle Scholar
Brainwood, R. J. 1962. The earliest village communities of southwestern Asia reconsidered, Atti del Sesto Congresso Internazionale delle Scienze Preistoriche e Protoistoriche (Florence), 1: 115–26.Google Scholar
Brooks, C. E. P. 1924. The evolution of climate. London: Benn.Google Scholar
Byrd, B. 1989. The Natufian: settlement variability and economie adaptations in the Levant at the end of the Pleistocene, Journal of World Prehistory 3(2): 159–97.CrossRefGoogle Scholar
Byrd, B. 1994. Public and private, domestic and corporate: the emergence of the southwest Asian village, American Antiquity 59(4): 639–66.CrossRefGoogle Scholar
Byrne, R. 1987. Climatic change and the origins of agriculture, in Manzanilla, L. (ed.), Studies in the Neolithic and Urban Revolutions (The V. Gordon Childe Colloquium, Mexico 1986): 2133. Oxford: British Archaeological Reports. International series S349.Google Scholar
Cauvin, J. 1994. Naissance des divinités, naissance de l'agriculture. Paris: CNRS.Google Scholar
Cavalli-Sforza, L.L. 1996. The spread of agriculture and nomadic pastoralism: insights from genetics, linguistics and archaeology, in Harris, (ed.): 5169.Google Scholar
Childe, V. G. 1956 lorig. 1936. Man makes himself. London: Watts.Google Scholar
Childe, V. G. 1963 [orig. 1951]. Social evolution. London: Collins.Google Scholar
Clark, J. D., 1993. African and Asian Perspectives on the origins of modern humans, in Aitken, et al. (ed.): 148–78.Google Scholar
Cohen, M. N. 1977. The food crisis in prehistory: overpopulation and the origins of agriculture. New Haven (CT): Yale University Press.Google Scholar
Danscaard, W. et al. 1993. Evidence for general instability of past climate from a 250-kyr ice-core record, Nature 364: 218–20.CrossRefGoogle Scholar
Dorrell, P. 1978. The uniqueness of Jericho, in Moorey, P. R. S., & Parr, P. (ed.), Archaeology in the Levant: 1118. Warminster: Aris & Phillips.Google Scholar
Edwards, R. L. et al. 1993. A large drop in atmospheric 14C/UC and reduced melting in the Younger Dryas, documented with 230Th ages of corals, Science 260: 962–8.CrossRefGoogle Scholar
Eldridge, N. & Gould, S.J.. 1972. Punctuated equilibria: an alternative to phyletic gradualism, in Schopf, T. J. M. (ed.), Models in paleobiology: 82115. San Francisco (CA): Freeman Cooper.Google Scholar
Flannery, K. V. 1965. The ecology of early food production in Mesopotamia, Science 147: 1247–56.CrossRefGoogle ScholarPubMed
Flannery, K. V. 1968. Archaeological systems theory and early Mesoamerica, in Meggers, B. J. (ed.), Anthropological archaeology in the Americas: 6787. Washington (DC): Anthropological Society of Washington.Google Scholar
Flannery, K. V. 1972. The origins of the village as a settlement type in Mesoamerica and the Near East, in Ucko, P., Dimbleby, G. & Tringham, R. (ed.), Man, settlement and urbanism: 2353. London: Duckworth.Google Scholar
Fritz, G. J. 1994. Are the first American farmers getting younger?. Current Anthropology 35(3): 305–9.CrossRefGoogle Scholar
Gamble, C. 1993. Ancestors and agendas, in Yoffee, N. & Sherratt, A. (ed.): 3952.Google Scholar
Gamble, C. 1995. Timewalkers: the prehistory of global colonisation. Harmondsworth: Penguin Books.Google Scholar
Garrard, A., Colledge, S. & Martin, L.. 1996. The emergence of crop cultivation and caprine herding in the ‘marginal zone’ of the southern Levant, in Harris, (ed.): 204–26.Google Scholar
Gilead, I. 1991. The Upper Palaeolithic period in the Levant, fournal of World Prehistory 5(2): 105–54.Google Scholar
Glover, I. C. & Higham, C. F. W.. 1996. New evidence for early rice cultivation in Southeast and East Asia, in Harris, (ed.): 413–41.Google Scholar
Goldberg, P. 1995. The changing landscape, in Levy, (ed.): 4057.Google Scholar
Goldberg, P. & Bar-Yosef, O.. In press. Sedimentary environments of prehistoric sites in Israel and the southern Levant. Paper delivered at Lubbock Lake Landmark International Symposium ‘Fifty Years of Discovery’, October 17th-19th 1990. Lubbock (TX): Texas Tech. Press.Google Scholar
Golson, J. 1989. The origins and development of New Guinea agriculture, in Harris & Hillman (ed.): 678–87.Google Scholar
Goodfriend, G. A. & Magaritz, M.. 1988. Palaeosols and later Pleistocene rainfall fluctuations in the Negev Desert, Nature 332: 144–6.CrossRefGoogle Scholar
Gould, S. J. & Eldridge, N.. 1977. Punctuated equilibria: the tempo and mode of evolution reconsidered, Paleobiology 3: 115–51.CrossRefGoogle Scholar
Graves, P. M. 1991. New models and metaphors for the Neanderthal debate, Current Anthropology 32: 513–1.CrossRefGoogle Scholar
Grayson, D. K. 1991. Late Pleistocene mammalian extinctions in North America: taxonomy, chronology and explanations, Journal of World Prehistory 5(3): 193231.CrossRefGoogle Scholar
Harris, D. (ed.). 1996. The origins and spread of agriculture and pastoralism in Eurasia. London: UCL Press.Google Scholar
Harris, D. & Hillman, G. (ed.). 1989. Foraging and farming: the evolution of plant exploitation. London: Unwin Hyman.Google Scholar
Henry, D. 1989. From foraging to agriculture: the Levant at the end of the Ice Age. Philadelphia (PA): University of Pennsylvania Press.CrossRefGoogle Scholar
Hillman, G. 1996. Late Pleistocene changes in wild plant-foods available to hunter-gatherers of the northern Fertile Crescent: possible preludes to cereal cultivation, in Harris, (ed.): 159203.Google Scholar
Hillman, G., Colledge, S. M. & Harris, D.. 1989. Plant-food economy during the Epipalaeolithic period at Tell Abu Hureyra, Syria: dietary diversity, seasonality, and modes of exploitation, in Harris & Hillman (ed.): 240–68.Google Scholar
Hodder, I. 1991. The domestication of Europe. Oxford: Blackwell.Google Scholar
Imb Rie, J. & Imbrie, K. P.. 1986. Ice ages. Cambridge (MA): Harvard University Press.Google Scholar
Johnson, S. J. et al. 1992. Irregular glacial interstadiale recorded in a new Greenland ice core, Nature 359: 311–13.CrossRefGoogle Scholar
Kerr, R. A. 1996. Ice rhythms: core reveals a plethora of climatic cycles, Science 274: 499500.CrossRefGoogle Scholar
Klslev, M. E. 1984. The emergence of wheat agriculture, Paléorient 10: 6170.CrossRefGoogle Scholar
Kislev, M. E., Nadel, D. & Carmi, I.. 1992. Epipalaeolithic (19000 BP) cereal and fruit diet at Ohalo II, Sea of Galilee, Israel, Review of Palaeobotany and Palynology 73: 161–6.CrossRefGoogle Scholar
Klein, R. G. 1995. Anatomy, behaviour and modern human origins, Journal of World Prehistory 9(2): 167–98.CrossRefGoogle Scholar
Kromer, B., Becker, B., Trimhorn, P., & Spurk, M.. 1995. Tree-ring based 14C calibration and stable isotope series at the YD/BP boundary, in Troelstra, et al. (ed.): 167–72.Google Scholar
Laj, C, Mazaud, A. & Duplessy, J. C.. 1996. Geomagnetic intensity and 14C abundance in the atmosphere and ocean during the last 50 kyr, Geophysical Research Letters 23: 2045–8.CrossRefGoogle Scholar
Levy, T. E. 1995. The archaeology of society in the Holy Land. Leicester: Leicester University Press.Google Scholar
Limbrey, S. 1990. Edaphic opportunism: a discussion of soil factors in relation to the beginnings of plant husbandry in south-west Asia, World Archaeology 22: 4552.CrossRefGoogle Scholar
Lowe, J. J. et al. 1995. Direct comparison of UK temperatures and Greenland snow accumulation rates, 15000-12000 yr ago, fournal of Quaternary Science 10(2): 175–80.CrossRefGoogle Scholar
Lowe, J. J. & Walker, M. J. C.. 1997. Reconstructing quaternary environments. 2nd edition. London: Longman.Google Scholar
Mccorrjston, J. 1994. Acorn-eating and agricultural origins: California ethnographies as analogies for the ancient Near East, Antiquity 68: 97107.CrossRefGoogle Scholar
Mccorriston, J. & Hole, F.. 1991. The ecology of seasonal stress and the origins of agriculture in the Near East, American Anthropologist 93: 4669 CrossRefGoogle Scholar
Macneish, R. S. 1970. The prehistory of the Tehuacán Valley. Austin (TX): University of Texas Press.Google Scholar
Marks, A. E. 1983. The Middle to Upper Palaeolithic transition in the Levant, Advances in World Archaeology 2: 5198.Google Scholar
Marks, A. E. 1990. The Middle and Upper Palaeolithic of the Near East and the Nile Valley: the problem of cultural transformations, in Meilars, (ed.): 5680.Google Scholar
Martinson, D.G. et al. 1987. Age dating and the orbital theory of the ice ages: development of a high-resolution 0 to 300,000-year chronostratigraphy, Quaternary Research 27: 129.CrossRefGoogle Scholar
Mellars, P. A. (ed.). 1990. The emergence of modern humans. Edinburgh: Edinburgh University Press.Google Scholar
Mellars, P. A. & Stringer, C. (ed.). 1989. The human revolution: behavioural and biological perspectives on the origins of modern humans. Edinburgh: Edinburgh University Press.Google Scholar
Moore, A. T. M. & Hillman, G.. 1992. The Pleistocene to Holocene transition and human economy in Southwest Asia: the impact of the Younger Dryas, American Antiquity 57: 482–94.CrossRefGoogle Scholar
Nitecki, M. H. & Nitecki, V. (ed.). 1994. Origins of anatomically modern humans. New York (NY): Plenum Press.CrossRefGoogle Scholar
Peel, D. A. 1995. Ice cores: profiles of the past, Nature 378: 234–5.CrossRefGoogle Scholar
Phillips, J. L. 1994. The Upper Paleolithic chronology of the Levant and the Nile Valley, in Bar-Yosef & Kra (ed.): 169–76.Google Scholar
Roberts, N. 1984. Pleistocene communities in time and space, in Foley, R. (ed.), Human evolution and community ecology: 2553. London: Academic Press.Google Scholar
Roberts, N. & Wright, H. E.. 1994. Vegetational, lake-level, and climatic history of the Near East and Southwest Asia, in Wright, et al. (ed.): 194220.Google Scholar
Rossignol-Strick, M. 1993. Late Quaternary climate in the eastern Mediterranean region, Paléorient 19(1): 135–52.CrossRefGoogle Scholar
Rossignol-Strick, M. 1995. Sea-land correlations of pollen records in the eastern Mediterranean for the glacial-interglacial transition: biostratigraphy versus radiometric time-scale, Quaternary Science Reviews 14: 893916.CrossRefGoogle Scholar
Scarre, C. (ed.). 1988. Past worlds: the Times atlas of archaeology. London: Times Books.Google Scholar
Schick, T. 1988. Cordage, basketry and fabrics, in Bar-Yosef & Alon (ed.): 3143.Google Scholar
Schwarcz, H. P. 1994. Chronology of modern humans in the Levant, in Bar-Yosef & Kra 2131.Google Scholar
Shennan, S. J. 1993. After social evolution: a new archaeological agenda’?, in Yoffee, N. & Sherratt, A. (ed.): 53–9.Google Scholar
Sherratt, A. G. 1972. Socio-economic and demographic models for the Neolithic and Bronze Ages of Europe, in Clarke, D. L. (ed.): 477542. Models in archaeology. London: Methuen. (Reprinted in Sherratt 1997.)Google Scholar
Sherratt, A. G. 1980. Water, soil and seasonality in early cereal cultivation, World Archaeology 11: 313–30. (Reprinted in Sherratt 1997).CrossRefGoogle Scholar
Sherratt, A. G. 1995. Reviving the grand narrative: archaeology and long-term change (David Clarke Memorial Lecture), fournal of European Archaeology 3(1): 132.CrossRefGoogle Scholar
Sherratt, A. G. 1996. Plate tectonics and imaginary prehistories; structure and contingency in agricultural origins, in Harris, (ed.):130–40.Google Scholar
Sherratt, A. G. 1997. Economy and society in prehistoric Europe: changing perspectives, Edinburgh: Edinburgh University Press.CrossRefGoogle Scholar
Sherratt, A. G. & Sherratt, E. S.. 1991. From luxuries to commodities: the nature of Mediterranean Bronze Age trading systems, in Gale, N. (ed.), Bronze Age trade in the Mediterranean 351–86. Jonsered: P. Astr öms Forlag.Google Scholar
Spriggs, M. 1996. Early agriculture and what went before in island Melanesia, in Harris, (ed.): 524–37.Google Scholar
Street, F. A. 1980. Ice Age environments, in Sherratt, A. (ed.), The Cambridge encyclopedia of archaeology. 52–6. Cambridge: Cambridge University Press.Google Scholar
Stuiver, M. & Reimer, P. J.. 1993. Extended 14C data base and rexdsed CALIB 3.0 14C age calibration, Radiocarbon 35: 215–30.CrossRefGoogle Scholar
Taylor, R. E., Haynes, C. V. & Stuiver, M.. 1996. Clovis and Folsom age estimates: stratigraphc context and radiocarbon calibration, Antiquity 70: 515–25.CrossRefGoogle Scholar
Torres, C.M. et al. 1991. Snuff powders from pre-Hispanic San Pedro de Atacama: chemical and contextual analysis, Current Anthropology 32(5): 640–49.CrossRefGoogle Scholar
Troelstra, S. R., Van Hinte, J. E. & Ganssen, G. M. (ed.). 1995. The Younger Dryas, Amsterdam: Koninglijke Nederlandse Akademie van Wetenschappen. Verhandeling van de Afdeling Natuurkunde 44.Google Scholar
Tsedakis, P. C. 1994. Vegetation change through glacial-interglacial cycles: a long pollen sequence perspective, Philosophical Transactions of the Royal Society of London B 345: 403–32.Google Scholar
Ucko, P. & Dimbleby, G. (ed.) 1969. The domestication and exploitation of plants and animals. London: Duckworth.Google Scholar
Van Andel, T.H. & Tsedakis, P. C.. 1996. Palaeolithic landscapes of Europe and environs, 150,000-25,000 years ago: an overview, Quaternary Science Reviews 15: 481500.CrossRefGoogle Scholar
Vanzeist, W. & Bakker-Heeres, J. A. H.. 1982. Archaeobotanical studies in the Levant: (1) Neolithic sites in the Damascus Basin: Aswad, Ghoraifé, Ramad, Palaeohistoria 24: 165256.Google Scholar
Vita-Finzi, C. 1969. Geological opportunism, in Ucko & Dimbleby (ed.): 31–4. London: Duckworth.Google Scholar
Vrba, E. S., Partridge, T. E., Denton, G. & Burckle, L. E. (ed.). 1996. Palaeoclimate and evolution with emphasis on human origin. New Haven (CT): Yale University Press.Google Scholar
Waterbolk, H. T. 1994. Radiocarbon dating Levantine prehistory, in Bar-Yosef & Kra (ed.): 351–71.Google Scholar
Wílke, P. J., Bettinger, R., King, T. F. & J.F.O'Connbll, . 1972. Harvest selection and domestication in seed plants, Antiquity 46: 203–9.CrossRefGoogle Scholar
Wright, H. E. 1977. Environmental change and the origin of agriculture in the Old and New Worlds, in Reed, C. (ed.), The Origins of agriculture: 281318. The Hague: Mouton.CrossRefGoogle Scholar
Wright, H. E. 1993. Environmental determinism in Near Eastern Prehistory, Current Anthropology 34: 458–69.CrossRefGoogle Scholar
Wright, H. E., Kutzbach, J. E., Webb, T., Ruddiman, W. F., Strket-Perrot, F. A. & Bartlein, P. J. (ed.). 1994. Global climates since the Last Glacial Maximum. Minneapolis (MN): University of Minnesota Press.Google Scholar
Wright, K. I. 1994. Ground-stone tools and hunter-gatherer subsistence in southwest Asia: implications for the transition to farming, American Antiquity 59(2): 238–63.CrossRefGoogle Scholar
Yechieli, Y. et al. 1993. Late Quaternary history of the Dead Sea area, Israel, Quaternary Research 39: 5967.CrossRefGoogle Scholar
Yoffee, N. 1993. Too many chiefs?, in Yoffee & Sherratt (ed.): 6078.Google Scholar
Yoffee, N. & Sherratt, A.. 1993. Archaeological theory: who sets the agenda? Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Zohary, D. 1969. The progenitors of wheat and barley in relation to domestication and agricultural dispersal in the Old World, in Ucko & Dimbleby: 4766.Google Scholar
Zohary, D. 1996. The mode of domestication of the founder crops of Southwest Asian agriculture, in Harris, : 142–58.Google Scholar