by Martin Jones
Chen, W. B. et al. (1993) ‘Distribution of deletion type in CpDNA of cultivated and wild rice’, Japanese Journal of Genetics 68: 597-603.
Childe, V. G. (1936) Man Makes Himself, London: Watts and Co.
— (1942) What Happened in History, New York: Penguin Books.
Darwin, C. R. (1859) The Origin of Species by Means of Natural Selection, or the Preservation of Favoured Races in the Struggle for Life, London: John Murray.
— (1868) The Variation of Animals and Plants under Domestication, Volume 1. London: John Murray.
de Candolle, A. (1882) Origine des plants cultivees, Paris: Germer Bailliere.
Deakin, W. J., Rowley-Conwy, P. and Shaw, C. H. (1998) ‘Amplification and sequencing of DNA from preserved sorghum of up to 2,800 years antiquity found at Qasr Ibrim’, Ancient Biomolecules 2(1): 27-41.
—, — and — (1999) ‘The sorghum of Qasr Ibrim: reconstructing DNA templates from ancient seeds’, Ancient Biomolecules 2 (2): 117-24.
Doebley, J. F. (1990) ‘Molecular evidence and the evolution of maize’, in K. Bretting (ed.), ‘New perspectives on the origin and evolution of New World domesticated plants’, Economic Botany 44: 6-28.
— (1992) ‘Molecular systematics and crop evolution’, in S. Soltis, D. E. Soltis and J. J. Doyle (eds), Molecular Systematics of Plants, New York/London: Chapman and Hall, pp. 202-22.
— (1995) ‘Genetics, development, and the morphological evolution of maize’, in C. Hock and A. G. Stephenson (eds), Experimental and Molecular Approaches to Plant Biosystematics, St Louis: Missouri Botanic Gardens, pp. 57-70.
Doebley, J. F., Goodman, M. M. and Stuber, C. W. (1984) ‘Isozymic variation in Zea’, Systematic Botany 9: 203-18.
Goloubonoff, P., Pääbo, S. and Wilson, A. C. (1993) ‘Evolution of maize inferred from sequence diversity of an Adh2 gene segment from archaeological specimens’, Proceedings of the National Academy of Science USA 90: 1997-2001.
Harris, D. R. (1990) ‘Vavilov’s concept of centres of origin of cultivated plants: its genesis and its influence on the study of agricultural origins’, Biological Journal of the Linnean Society 39: 7-16.
Harris, D. R. and Hillman, G. C. (1989) Foraging and Farming: The Evolution of Plant Exploitation, London: Unwin Hyman.
Heun, M. et al. (1997), ‘Site of einkorn wheat domestication identified by DNA fingerprinting’, Science 278: 1312-14.
Higgs, E. S. (ed.) (1972) Papers in Economic Prehistory, Cambridge: Cambridge University Press.
Jones, M. K. and Brown, T. (2000) ‘Agricultural origins: the evidence of modern and ancient DNA’, Holocene 10 (6): 775-82.
Jones, M. K., Allaby, R. G. and Brown, T. A. (1998) ‘Wheat domestication’, Science 279: 302-3.
Jones, M. K., Brown, T. A. and Allaby, R. G. (1996) ‘Tracking early crops and early farmers: the potential of biomolecular archaeology’, in D. R. Harris (ed.), The Origins and Spread of Agriculture and Pastoralism in Eurasia, London: University College London, pp. 93-100.
Kislev, M. E., Nadel, D. and Carmi, I. (1992) ‘Epipalaeolithic (19,000 BP) cereal and fruit diet at Ohalo II, Sea of Galilee, Israel’, Review of Palynology 73: 161–6.
Lee, R. B. and DeVore, I. (eds) (1968) Man the Hunter, Chicago: Aldine.
MacNeish, R. (1967) Prehistory of the Tehuacan Valley, Austin: University of Texas Press.
Nakamura, I. and Sato, Y. I. (1991) ‘Amplification of chloroplast DNA fragment from single ancient rice seed’, Rice Genetics (IRRI Manila, Philippines) 2: 802-5.
— and — (1991) ‘Amplification of DNA fragments isolated from a single seed of ancient rice (AD 800) by polymerase chain reaction’, Chinese Journal of Rice Science 5: 175-9.
O’Donoghue, K. et al, (1996) ‘Remarkable preservation of biomolecules in ancient radish seeds’, Philosophical Transactions of the Royal Society of London, Series B, 263: 541-7.
Renfrew, J. M. (1973) Palaeoethnobotany. The Prehistoric Food Plants of the Near East and Europe, London: Methuen.
Rogers, S. O. and Bendich, A. J. (1985) ‘Extraction of DNA from milligram amounts of fresh herbarium and mummified plant tissues’, Plant Molecular Biology 5: 69–76.
Rollo, F. (1985) ‘Characterisation by molecular hybridisation of RNA fragments isolated from ancient (1400 BC) seeds’, Theoretical and Applied Genetics 71: 330-3.
Sato, Y. I. (1990) ‘Non-random association of genes and characters found in Indica x Japonica hybrids of rice’, Heredity 65: 75-9.
— (1997) ‘Cultivated rice was born in the lower and middle basins of the Yangtze River’, Nikkei Science 1: 32-42.
Vavilov, N. (1992) The Origin and Geography of Cultivated Plants, Cambridge: Cambridge University Press.
Zohary, D. (1969) ‘The progenitors of wheat and barley in relation to domestication and agricultural dispersal in the Old World’, in P. J. Ucko and G. W. Dimbleby (eds), The Domestication and Exploitation of Plants and Animals, London: Duckworth, pp. 47-66.
— (1996) ‘The mode of domestication of the founder crops of Southwest Asian agriculture’, in D. R. Harris (ed.), The Origins and Spread of Agriculture and Pastoralism in Eurasia, London: University College London, pp. 142-58.
Zohary, D. and Hopf, H. (1993) Domestication of Plants in the Old World. The Origin and Spread of Cultivated Plants in West Asia, Europe and the Nile Valley, Oxford: Oxford University Press.
6 ending the chase
Bailey, J. F. et al. (1996) ‘Ancient DNA suggests a recent expansion of European cattle from a diverse wild progenitor species’, Proceedings of the Royal Society of London, Series B, 263: 1467-73.
Bar-Yosef, O. and Kislev, M. E. (1989) ‘Early farming communities in the Jordan Valley’, in D. R. Harris and G. Hillman (eds), Foraging and Farming, London: Unwin Hyman, pp. 632-42.
Bradley, D. G. et al. (1996) ‘Mitochondrial diversity and the origins of African and European cattle’, Proceedings of the National Academy of Science USA 93: 5131–5.
Bradley, D. G. et al. (1998) ‘Genetics and domestic cattle origins’, Evolutionary Anthropology 6(3): 79-86.
Cooper, A. et al. (1992) ‘Independent origins of New Zealand moas and kiwis’, Proceedings of the National Academy of Science USA 89: 8741-4.
Derenko, M., Malyarchuk, B. and Shields, G. F. (1997) ‘Mitochondrial cytochrome b sequence from a 33000 year-old woolly mammoth {Marnmuthits primigcnius}’, Ancient Biomolecules 1 (2): 149-53.
Gimbutas, M. (1952) ‘On the origin of north Indo-Europeans’, American Anthropologist 54(4): 602-11.
— (1970) ‘Proto-Indo-European culture: the Kurgan culture during the fifth to third millennia BC’, in G. Cardona, H. M. Koeningswald and A. Senn (eds), Indo-European and Indo-Europeans, Philadelphia: University of Pennsylvania Press, pp. 155-98.
Hagelberg, E. et al. (1994) ‘DNA from ancient mammoth bones’, Nature 370: 333-4.
Hauf, J. et al. (1995) ‘Selective amplification of a mammoth mitochondrial cytochrome b fragment using an elephant-specific primer’, Current Genetics 37(5): 486-7.
Higgs, E. S. (ed.) (1972) Papers in Economic Prehistory: Studies by Members and Associates of the British Academy Major Research Project in the Early History of Agriculture, Cambridge: Cambridge University Press.
Hoss, M., Pääbo, S. and Vereshchagin, N. K. (1994) ‘Mammoth DNA sequences’, Nature 370: 333.
Hoss, M. et al. (1996) ‘Molecular phylogeny of the extinct ground sloth Mylodon darivinii’, Proceedings of the National Academy of Science USA 93: 181-5.
Ishida, N. et al. (1995) ‘Mitochondrial DNA sequences of various species of the genus Equus with special reference to the phylogenetic relationship between Przewalski’s wild horse and domestic horse’, Journal of Molecular Evolution, 41: 180-8.
Krajewski, C, Buckley, L. and Westerman, M. (1997) ‘DNA phylogeny of the marsupial wolf resolved’, Proceedings of the Royal Society of London, Series B, 264: 911-17.
Krajewski, C. et al. (1992) ‘Phylogenetic relationships of the thylacine (Mammalia: Thylacinidae) among dasyuroid marsupials: evidence f
rom cytochrome b DNA sequences’, Proceedings of the Royal Society of London, Series B, 250: 19-27.
Levine, M. et al. (1999) Late Prehistoric Exploitation of the Eurasian Steppe, Cambridge: McDonald Institute Monographs.
Lister, A. M. et al. (1999) ‘Ancient and modern DNA in a study of horse domestication’, Ancient Biomolecules 2(2): 267-80.
Loftus, R. T. et al. (1994) ‘Evidence for two independent domestications of cattle’, Proceedings of the National Academy of Science USA 91: 2757-61.
Marshall, F. (1990) ‘Cattle herds and caprine flocks’, in P. Robertshaw (ed.), Early Pastoralists of South-western Kenya, vol. II, Memoirs of the British Institute in Eastern Africa, Nairobi: British Institute in Eastern Africa.
Meadow, R. H. (1996) ‘The origins and spread of agriculture and pastoralism in northwestern South Asia’, in D. R. Harris (ed.), The Origins and Spread of Agriculture and Pastoralism in Eurasia, London: UCL Press.
Noro, Al. et al. (1998) ‘Molecular phylogenetic inference of the woolly mammoth Mammuthus primigenius, based on complete sequences of mitochondrial cytochrome b and 12S ribosomal RNA genes’, Journal of Molecular Evolution 46: 314–26.
Ozawa, T., Hayashi, S. and Mikhelson, V. (1997) ‘Phylogenetic position of mammoth and Steller’s sea cow within tethytheria demonstrated by mitochondrial DNA sequences’, Journal of Molecular Evolution 44: 406-13.
Poinar, H. N. el al. (1998) ‘Molecular coproscopy: dung and diet of the extinct ground sloth Nothrotheriops shastensis”, Science 281: 402-6.
Shoshani, J. et al. (1985) ‘Proboscidean origins of mastodon and woolly mammoth demonstrated immunologically’, Paleobiology 11(4): 429-37.
Stanley, H. F., Kadwell, M. and Wheeler, J. C. (1994) ‘Molecular evolution of the family Camelidae–a mitochondrial DNA study’, Proceedings of the Royal Society of London, Series B, 256: 1-6.
Thomas, R. H., Pääbo, S. and Wilson, A. C. (1990) ‘Chance marsupial relationships’, Nature 345: 393-4.
Thomas, R. H. et al. (1989) ‘DNA phylogeny of the extinct marsupial wolf, Nature 340: 465-7.
Vila, C, Maldonado, J. E. and Wayne, R. K. (1999) ‘Phylogenetic relationships, evolution, and genetic diversity of the domestic dog’, Journal of Heredity 90(1): 71-7.
Yang, H., Golenberg, E. and Shoshani, J. (1996) ‘Phylogenetic resolution within the Elephantidae using fossil DNA sequence from the American mastodon (Mammut americanum) as an outgroup’, Proceedings of the National Academy of Science USA 93: 1190-4.
7 great journeys
Ammerman, A. J. and Cavalli-Sforza, L. L. (1973) ‘A population model for the diffusion of early farming in Europe’, in A. C. Renfrew (ed.), The Explanation of Culture Change: Models in Prehistory, London: Duckworth, pp. 343-57.
Arriaza, B. T. (1995) The Chinch or ro Mummies of Ancient Chile, Washington: Smithsonian.
Bailliet, G. et al. (1994) ‘Founder mitochondrial haplotypes in Amerindian populations’, American Journal of Human Genetics 54: 27-33.
Bellwood, P. (1978) Man’s Conquest of the Pacific, London: Collins.
Bernal, M. (1987) Black Athena: the Afroasiatic Roots of Classical Civilization Vol. 1: The Fabrication of Ancient Greece, 1785-1985, London: Free Association Books.
Bonatto, S. L. and Salzano, F. M. (1997) ‘Diversity and age of the four major mtDNA haplogroups, and their implications for the peopling of the New World’, American Journal of Human Genetics 61: 1413-23.
Brown, M. D. et al. (19988) ‘mtDNA haplogroup X: an ancient link between Europe/ Western Asia and North America’, American Journal of Human Genetics 63: 1852-61.
Cavalli-Sforza, L. L. (1997) ‘Genes, peoples, and languages’, Proceedings of the National Academy of Science USA 94: 7719-24.
Cavalli-Sforza, L. L. and Minch, E. (1997) ‘Paleolithic and Neolithic lineages in the European mitochondrial gene pool’, American journal of Human Genetics 61: 247-54.
Cavalli-Sforza, L. L. and Piazza, A. (1993) ‘Human genomic diversity in Europe: a summary of recent research and prospects for the future’, European Journal of Human Genetics 1(1): 3-18.
Cavalli-Sforza, L. L., Menozzi, P. and Piazza, A. (1993) ‘Demic expansions and human evolution’, Science 259: 639-46.
—-, — and — (1994) The History and Geography of Human Genes, Princeton: Princeton University Press.
Cavalli-Sforza, L. L., Minch, E. and Mountain, J. L. (1992) ‘Coevolution of genes and languages revisited’, Proceedings of the National Academy of Science USA 89: 5620–4, and reply by M. Richards et al., pp. 251-4.
Cavalli-Sforza, L. L. et al. (1988) ‘Reconstruction of human evolution: bringing together genetic, archaeological, and linguistic data’, Proceedings of the National Academy of Science USA 85: 6002-6.
Chikhi, L. et al (1998) ‘Clines of nuclear DNA markers suggest a largely neolithic ancestry of the European gene pool’, Proceedings of the National Academy of Science USA 95: 9053-8.
Childe, V. G. (1950) Prehistoric Migrations in Europe, London: Kegan Paul.
Easton, R. D. et al. (1996) ‘mtDNA variation in the Yanomami: evidence for additional New World founding lineages’, American Journal of Human Genetics 59: 213-25.
Forster, P. et al. (1996) ‘Origin and evolution of Native American mtDNA variation: a reappraisal’, American Journal of Human Genetics 59: 935-45.
Gimbutas, M. (1952) ‘On the origin of north Indo-Europeans’, American Anthropologist 54(4): 602-11.
—(1970)’Proto-Indo-European culture: the Kurgan culture during the fifth to third millennia BC’, in G. Cardona, H. M. Koeningswald and A. Senn (eds), Indo-European and Indo-Europeans, Philadelphia: University of Pennsylvania Press, pp. 155-98.
Greenberg, J. H. (1996) ‘The “Greenberg” hypothesis’, Science 274: 1447; discussion, 1448.
Greenberg, J. H., Turner II, C. G. and Zegura, S. L. (1986) ‘The settlement of the Americas: a comparison of the linguistic, dental and genetic evidence’, Current Anthropology 27: 477-97.
Hagelberg, E. (1997) ‘Ancient and modern mitochondrial DNA sequences and the colonization of the Pacific’, Electrophoresis 18(9): 1529-33.
Hagelberg, E. and Clegg, J. B. (1993) ‘Genetic polymorphisms in prehistoric Pacific Islanders determined by analysis of ancient bone DNA’, Proceedings of the Royal Society of London, Series B, 252: 163-70.
Hagelberg, E. et al. (1994) ‘DNA from ancient Easter Islanders’, Nature 369: 25-6.
Hagelberg, E. et al. (1999) ‘Evidence for mitochondrial DNA recombination in a human population of island Melanesia’, Proceedings of the Royal Society of London, Series B, 266: 485-92.
Hagelberg, E. et al. (1999) ‘Molecular genetic evidence for human settlement of the Pacific: analysis of mitochondrial DNA, Y chromosome and HLA markers’, Philosophical Transactions of the Royal Society of London, Series B, 354: 141-52.
Harpending, H. C. et al. (1993) ‘The genetic structure of ancient human populations’, Current Anthropology 34(4): 483-96.
Harpending, H. C. et al. (1998) ‘Genetic traces of ancient demography’, Proceedings of the National Academy of Science USA 95: 1961-7.
Hauswirth, W. W., Dickel, C. D. and Lawlor, D. A. (1994) ‘DNA analysis of the Windover population’, in B. Herrmann and S. Hummel (eds), Ancient DNA. Recovery and Analysis of Genetic Material from Palaeontological, Archaeological, Museum, Medical and Forensic Specimens, New York: Springer-Verlag.
Heyerdahl, T. and Ferdon, E. N. (eds) (1966) Report of the Norwegian Archaeological Expedition to Easter Island and the East Pacific, London: Allen and Unwin.
Hill, A. V. S. and Serjeantson, S. W. (eds) (1989) The Colonisation of the Pacific: A Genetic Trail. Oxford: Clarendon Press.
Horai, S. et al. (1993)’Peopling of the Americas, founded by four major lineages of mitochondrial DNA’, Molecular Biology and Evolution 10: 23-47.
Hurles, M. E. et al. (1999) ‘European mitochondrial lineages in Polynesia: a contrast to the population structure revealed by mitochondrial DNA’, American Journal of Human Genetics 63: 1793-1806.
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bsp; Krings, M. et al. (1999) ‘mtDNA analysis of Nile River Valley populations: a genetic corridor or a barrier to migration?’, American Journal of Human Genetics 64: 1166-76.
Lalueza Fox, C. (1996) ‘Analysis of ancient mitochondrial DNA from extinct Aborigines from Tierra del Fuego-Patagonia’, Ancient Biomolecules 1(1): 43-54.
— (1997) ‘mtDNA analysis in ancient Nubians supports the existence of gene flow between sub-Sahara and North Africa in the Nile Valley’, Annals of Human Biology 24(3): 217-27.
Lum, J. K. and Cann, R. L. (1998) ‘mtDNA and language support a common origin of Micronesians and Polynesians in Island Southeast Asia’, American Journal of Physical Anthropology 105(2): 109-19.
Lum, J. K. et al. (1998) ‘Mitochondrial and nuclear genetic relationships among Pacific Island and Asian populations’, American Journal of Human Genetics 63: 613-24.
Merriwether, A. D. and Ferrell, R. E. (1996) ‘The four founding lineage hypothesis for the New World: a critical re-evaluation’, Molecular Phylogeny and Evolution 5: 241-6.
Merriwether, A. D., Rothhammer, F. and Ferrell, R. (1994) ‘Genetic variation in the new world: ancient teeth, bone, and tissue as source of DNA’, Experientia 50(6): 592-601.
Merriwether, A. D. et al. (1996) ‘mtDNA variation indicates Mongolia may have been the source for the founding population for the New World’, American Journal of Human Genetics 59: 204-12.
Monsalve, M. V. (1997) ‘Mitochondrial DNA in ancient Amerindians’, American Journal of Physical Anthropology 103(3): 423-5.
Parr, R. L., Carlyle, S. W. and O’Rourke, D. H. (1996) ‘Ancient DNA analysis of Fremont Amerindians of the Great Salt Lake Wetlands’, American Journal of Physical Anthropology 99(4): 507-18.
Renfrew, A. C. (1987) Archaeology and Language: The Puzzle of Indo-European Origins, London: Jonathan Cape.
— (1994) ‘World linguistic diversity’, Scientific American 207(1): 116-23.
— (ed.) (2000) America Past, America Present: Genes and Languages in the Americas and Beyond, Cambridge: McDonald Institute Monograph.
