Anggraeni, . (2012). The Austronesian migration hypothesis as seen from prehistoric settlements on the Karama River, Mamuju, West Sulawesi. Unpublished PhD thesis. Canberra: Australian National University.Google Scholar

Anshari, G., Kershaw, A. P. and van der Kaars, S. (2001). A late Pleistocene and Holocene pollen and charcoal record from peat swamp forest, Lake Sentarum Wildlife Reserve, West Kalimantan, Indonesia. Palaeogeography, Palaeoclimatology, Palaeoecology, 171(3), 213–228.Google Scholar

Barker, G. (2013). Rainforest Foraging and Farming in Island Southeast Asia. Cambridge: McDonald Institute Monographs.Google Scholar

Barker, G. and Janowski, M. (2011). Why Cultivate? Anthropological and Archaeological Approaches to Foraging-Farming Transitions in Southeast Asia. Cambridge: McDonald Institute for Anthropological Research.Google Scholar

Barker, G. and Richards, M. B. (2013). Foraging-farming transitions in Island Southeast Asia. Journal of Archaeological Method and Theory, 20(2), 256–280.Google Scholar

Barker, G., Lloyd-Smith, L., Barton, H., Cole, F., Hunt, C., Piper, P. J., Rabett, Z. R., Paz, V. and Szabo, K. (2011a). Foraging-farming transitions at the Niah Caves, Sarawak, Borneo. Antiquity, 85(328), 492–509.Google Scholar

Barker, G., Hunt, C. and Carlos, J. (2011b). Transitions to farming in Island Southeast Asia: Archaeological, biomolecular and palaeoecological perspectives. In Barker, G. and Janowski, M., eds., Why Cultivate? Anthropological and Archaeological Approaches to Foraging-Farming Transitions in Southeast Asia. Cambridge: McDonald Institute for Archaeological Research, pp. 61–74.Google Scholar

Barton, H. (2012). The reversed fortunes of sago and rice, Oryza sativa, in the rainforests of Sarawak, Borneo. Quaternary International, 249, 96–104.CrossRefGoogle Scholar

Barton, H. and Denham, T. P. (2011). Prehistoric vegeculture and social life in Island Southeast Asia and Melanesia. In Barker, G. and Janowski, M., eds., Why Cultivate? Anthropological and Archaeological Approaches to Foraging-Farming Transitions in Southeast Asia. Cambridge: McDonald Institute for Archaeological Research. pp. 17–25.Google Scholar

Bates, D. M., Merrick, L. C. and Robinson, R. W. (1995). Minor cucurbits: Benincasa, Lagenaria, Luffa, Schium, and other genera (Cucurbitaceae). In Smartt, J. and Simmonds, N. W., eds., Evolution of Crop Plants. Harlow: Longman, pp. 105–111.Google Scholar

Bellwood, P. (1984–1985). A hypothesis for Austronesian origins. Asian Perspectives, 20, 107–117.Google Scholar

Bellwood, P. (2002). Farmers, foragers, languages, genes: The genesis of agricultural societies. In Bellwood, P. and Renfrew, C., eds., Examining the Farming-Language Dispersal Hypothesis. Cambridge: McDonald Institute for Archaeological Research, pp. 17–28.Google Scholar

Bellwood, P. (2004). The origins and dispersals of agricultural communities in Southeast Asia. In Glover, I. and Bellwood, P., eds., Southeast Asia: From Prehistory to History. London: RoutledgeCurzon, pp. 21–40.Google Scholar

Bellwood, P. (2005). First Farmers. Oxford: Blackwell.Google Scholar

Bellwood, P. (2007a). Prehistory of the Indo-Malaysian Archipelago. Revised edition. Canberra: ANU EPress.Google Scholar

Bellwood, P. (2007b). Overview. Review feature of ‘First farmers: The origins of agricultural societies’. Cambridge Archaeological Journal, 17(1), 88–91.Google Scholar

Bellwood, P. (2010). Comment. Current Anthropology, 51, 240–241.Google Scholar

Bellwood, P. (2013). First Migrants: Ancient Migration in Global Perspective. Oxford: Blackwell.Google Scholar

Blust, Robert. (2009). The Austronesian Languages. Canberra: Pacific Linguistics.Google Scholar

Bourke, R. M. and Harwood, T. (2009). Food and Agriculture in Papua New Guinea. Canberra: Land Management Group, Australian National University.Google Scholar

Bulbeck, D. (2005). The Guar Kepah human remains. In Majid, Z., ed., The Perak Man and Other Prehistoric Skeletons of Malaysia. Penang: Penerbit Universiti Sains Malaysia, pp. 383–423.Google Scholar

Bulbeck, D. (2008). An integrated perspective on the Austronesian diaspora: The switch from cereal agriculture to maritime foraging in the colonisation of Island Southeast Asia. Australian Archaeology, 67(1), 31–51.Google Scholar

Datan, I. (1993). Archaeological excavations at Gua Sireh (Serian) and Lubang Angin (Gunung Mulu National Park), Sarawak, Malaysia. The Sarawak Museum Journal, Special Monograph No. 6.Google Scholar

De Langhe, E., Perrier, X., Donohue, M. and Denham, T.P. (2015). The original banana split: Multidisciplinary implications of the generation of African and Pacific Plantains in Island Southeast Asia. Ethnobotany Research and Applications, 14, 299–312.Google Scholar

Denham, T. P. (2004). The roots of agriculture and arboriculture in New Guinea: Looking beyond Austronesian expansion, Neolithic packages and Indigenous origins. World Archaeology, 36(4), 610–620.Google Scholar

Denham, T. P. (2005). Envisaging early agriculture in the Highlands of New Guinea: Landscapes, plants and practices. World Archaeology, 37(2), 290–306.Google Scholar

Denham, T. P. (2010). From domestication histories to regional prehistory: Using plants to re-evaluate early and mid-Holocene interaction between New Guinea and Southeast Asia. Food and History, 8(1), 3–22.Google Scholar

Denham, T. P. (2011). Early agriculture and plant domestication in New Guinea and Island Southeast Asia. Current Anthropology, 52(S4), S379–395.Google Scholar

Denham, T. P. (2013). Early farming in Island Southeast Asia: An alternative hypothesis. Antiquity, 87(335), 250–257.Google Scholar

Denham, T. P. and Donohue, M. (2009). Pre-Austronesian dispersal of banana cultivars west from New Guinea: Linguistic relics from eastern Indonesia. Archaeology in Oceania, 44(1), 18–28.Google Scholar

Denham, T. P. and Donohue, M. (2012a). Lack of correspondence between Asian-Papuan genetic admixture and Austronesian language dispersal in eastern Indonesia. Proceedings of the National Academy of Sciences (USA), 109(39), E2577.Google Scholar

Denham, T. P. and Donohue, M. (2012b). Reconnecting genes, languages and material culture in Island Southeast Asia: Aphorisms on geography and history. Language Dynamics and Change, 2(2), 184–211.Google Scholar

Denham, T. P. and Haberle, S. G. (2008). Agricultural emergence and transformation in the Upper Wahgi valley during the Holocene: Theory, method and practice. The Holocene, 18(3), 499–514.CrossRefGoogle Scholar

Denham, T. P., Haberle, S. G., Lentfer, C., Fullagar, R., Field, J., Therin, M., Porch, N. and Winsborough, B. (2003). Origins of agriculture at Kuk Swamp in the Highlands of New Guinea. Science, 301(5630), 189–193.Google Scholar

Denham, T. P., Bronk Ramsey, C. and Specht, J. (2012). Dating the appearance of Lapita pottery in the Bismarck Archipelago and its dispersal to Remote Oceania. Archaeology in Oceania, 47(1), 39–46.Google Scholar

Diamond, J. and Bellwood, P. (2003). Farmers and their languages: The first expansions. Science, 300(5619), 597–603.Google Scholar

Doherty, C., Beavitt, P. and Kurui, E. (2000). Recent observations of rice temper in pottery from Niah and other sites in Sarawak. Bulletin of the Indo-Pacific Prehistory Association, 19, 147–152.Google Scholar

Donohue, M. and Denham, T. P. (2010). Farming and language in Island Southeast Asia: Reframing Austronesian history. Current Anthropology, 51(2), 223–256.Google Scholar

Donohue, M. and Denham, T. P. (In press). Becoming Austronesian: Mechanisms of language dispersal across southern Island Southeast Asia. In Gil, D. and McWhorter, J., eds., Austronesian Undressed. Canberra: Pacific Linguistics.Google Scholar

Donohue, M., Denham, T. P. and Oppenheimer, S. (2012a). New methods for historical linguistics? Calibrating a lexicon-based methodology for diffusion vs. subgrouping. Diachronica, 29(4), 505–522.Google Scholar

Donohue, M., Denham, T. P. and Oppenheimer, S. (2012b). Consensus and lexicon in historical linguistics: Rejoinder to basic vocabulary and Bayesian phylolinguistics. Diachronica, 29(4), 538–546.Google Scholar

Erikson, D. L., Smith, B. D., Clarke, A. C., Sandweiss, D. H. and Tuross, N. (2005). An Asian origin for a 10,000 year-old domesticated plant in the Americas. Proceedings of the National Academy of Sciences USA, 102(51), 18315–18320.Google Scholar

Fairbairn, A. (2005). An archaeobotanical perspective on Holocene plant use practices in lowland northern New Guinea. World Archaeology, 37(4), 487–502.Google Scholar

Fairbairn, A. and Swadling, P. (2005). Re-dating mid-Holocene betelnut (Areca catechu L.) and other plant use at Dongan, Papua New Guinea. Radiocarbon, 47(3), 377–382.Google Scholar

Fox, R. B. (1970). The Tabon Caves: Archaeological Explorations and Excavations on Palawan Island, Philippines. Manila: National Museum of the Philippines.Google Scholar

French, B. R. (1986). Food Plants of Papua New Guinea: A Compendium. Privately published book.Google Scholar

Fuller, D. Q., Qin, L., Zheng, Y., Zhao, Z., Chen, X., Hosoya, L. A. and Sun, G. P. (2009). The domestication process and domestication rate in rice: Spikelet bases from the Lower Yangtze. Science, 323(5921), 1607–1610.Google Scholar

Gillieson, D., Gorecki, P. and Hope, G. (1985). Prehistoric agricultural systems in a lowland swamp, Papua New Guinea. Archaeology in Oceania, 20(1), 32–37.Google Scholar

Golson, J. (1977). No room at the top: Agricultural intensification in the New Guinea Highlands. In Allen, J., Golson, J. and Jones, R., eds., Sunda and Sahul: Prehistoric Studies in Southeast Asia, Melanesia and Australia. London: Academic, pp. 601–638.Google Scholar

Golson, J. (1991). The New Guinea Highlands on the eve of agriculture. Bulletin of the Indo-Pacific Prehistory Association, 11, 82–91.Google Scholar

Golson, J. (2002). Gourds in New Guinea, Asia and the Pacific. In Bedford, S., Sand, C. and Burley, D., eds., Fifty Years in the Field: Essays in Honour and Celebration of Richard Shutler Jr.’s Archaeological Career. New Zealand Archaeological Journal Monograph 25. Auckland: Auckland Museum, pp. 69–78.Google Scholar

Golson, J., Lampert, R. J., Wheeler, J. M. and Ambrose, W. R. (1967). A note on carbon dates for horticulture in the New Guinea Highlands. Journal of the Polynesian Society, 76(3), 369–371.Google Scholar

Gonzalez, A., Clark, G., O’Connor, S. and Matisoo-Smith, L. (2013). A 3000 year old dog burial in Timor-Leste. Australian Archaeology, 76(1), 13–20.Google Scholar

Gray, R. D., Drummond, A. J., and Greenhill, S. J. (2009). Language phylogenies reveal expansion pulses and pauses in Pacific settlement. Science, 323(5913), 479–483.Google Scholar

Green, R. C. (1992). Definitions of the Lapita Cultural Complex and its non-ceramic component. In Galipaud, J. C., ed., Poterie Lapita et peuplement. Noumea: ORSTROM, pp. 7–20.Google Scholar

Greenhill, S. J. and Gray, R. D. (2012). Basic vocabulary and Bayesian phylolinguistics: Issues of understanding and representation. Diachronica, 29(4), 523–537.Google Scholar

Grivet, L., Daniels, C., Glaszman, J. C. and D’Hont, A. (2004). A review of recent molecular genetics evidence for sugarcane evolution and domestication. Ethnobotany Research and Applications, 2, 9–17.Google Scholar

Harris, D. R. (2007) [1989]. An evolutionary continuum of people-plant interaction. In Denham, T. P. and White, P., eds., The Emergence of Agriculture. Abingdon: Routledge, pp. 26–44.Google Scholar

Hather, J. G. (1996). The origins of tropical vegeculture: Zingiberaceae, Araceae and Dioscoreaceae in Southeast Asia. In Harris, D. R., ed., The Origins and Spread of Agriculture and Pastoralism in Eurasia. London: UCL Press, pp. 538–550.Google Scholar

Hayden, B. (2011). Rice: The first Asian luxury food? In Barker, G. and Janowski, M., eds., Why Cultivate? Anthropological and Archaeological Approaches to Foraging-Farming Transitions in Southeast Asia. Cambridge: McDonald Institute for Archaeological Research, pp. 75–94.Google Scholar

Heatubun, C. D., Dransfield, J., Flynn, T., Tjitrosoedirdjo, S. S., Mogea, J. P. and Baker, W. J. (2012). A monograph of the betel nut palms (Areca: Arecaceae) of East Malesia. Botanical Journal of the Linnean Society, 168(2), 147–173.Google Scholar

Hill, C., Soares, P., Mormina, M., Macaulay, V., Clarke, D., Blumbach, P. B., Vizuete-Forster, M., Bulbeck, D., Oppenheimer, S. and Richards, M. (2007). A mitochondrial stratigraphy for Island Southeast Asia. American Journal of Human Genetics, 80(1), 29–43.Google Scholar

Hung, H. C., Iizuka, Y., Bellwood, P., Nguyen, K. D., Bellina, B., Silapanth, P., Dizon, E., Santiago, R., Datan, I. and Manton, J. H. (2007). Ancient jade maps 3000 years of prehistoric exchange in Southeast Asia. Proceedings of the National Academy of Sciences (Washington DC), 104(50), 19745–19750.Google Scholar

Hung, H. C., Carson, M. T., Bellwood, P., Campos, F. Z., Piper, P. J., Dizon, E., Bolunia, M., Oxenham, M. and Zhang, C. (2011). The first settlement of Remote Oceania: The Philippines to the Marianas. Antiquity, 85(329), 909–926.Google Scholar

Hunt, C. O. and Rushworth, G. (2005). Cultivation and human impact at 6000 cal yr. BP in tropical lowland forest at Niah, Sarawak, Malaysian Borneo. Quaternary Research, 64(3), 460–468.Google Scholar

Jian, L. and Liu, L. (2006). New evidence for the origins of sedentism and rice domestication in the Lower Yangzi River, China. Antiquity, 80, 355–361.Google Scholar

Jinam, T. A., Hong, L. C., Phipps, M. E., Stoneking, M., Ameen, M., Edo, J. HUGO Pan-Asian SNP Consortium and Saitou, N. (2012). Evolutionary history of continental Southeast Asians: ‘Early train’ hypothesis based on genetic analysis of mitochondrial and autosomal DNA data. Molecular Biology and Evolution, 29(11), 3513–3527.Google Scholar

Kirch, P. V. (1997). The Lapita Peoples: Ancestors of the Oceanic World. Oxford: Blackwell.Google Scholar

Kistler, L., Montenegro, Á., Smith, B. D., Gifford, J. A., Green, R. E., Newsom, L. A. and Shapiro, B. (2014). Transoceanic drift and the domestication of African bottle gourds in the Americas. Proceedings of the National Academy of Sciences, 111(8), 2937–2941.Google Scholar

Lansing, J. S., Cox, M. P., Downey, S. S., Gabler, B. M., Hallmark, B., Karafet, T. M., Norquest, P., Schoenfelder, J. W., Sudoyo, H., Watkins, J. C. and Hammer, M. F. (2007). Coevolution of languages and genes on the island of Sumba, eastern Indonesia. Proceedings of the National Academy of Sciences, 104(41), 16022–16026.Google Scholar

Lansing, J. S., Cox, M. P., de Vet, T. A., Downey, S. S., Hallmark, B. and Sudoyo, H. (2011). An ongoing Austronesian expansion in Island Southeast Asia. Journal of Anthropological Archaeology, 30(3), 262–272.Google Scholar

Larson, G., Cucchi, T., Fujita, M., Matisoo-Smith, E., Robins, J., Anderson, A., Rolett, B., Spriggs, M., Dolman, G., Kim, T. H., Thuy, N. T. D., Randi, E., Doherty, M., Due, R. A., Bollt, R., Djubiantono, T., Griffin, B., Intoh, M., Keane, E., Kirch, P., Li, K. T., Morwood, M., Pedriña, L. M., Piper, P. J., Rabett, R. J., Shooter, P., Van den Bergh, G., West, E., Wickler, S., Yuan, J., Cooper, A. and Dobney, K. (2007). Phylogeny and ancient DNA of Sus provides insights into neolithic expansion in Island Southeast Asia and Oceania. Proceedings of the National Academy of Sciences, 104(12), 4834–4839.Google Scholar

Latinis, D. K. (2000). The development of subsistence system models for Island Southeast Asia and Near Oceania: The nature and role of arboriculture and arboreal-based economies. World Archaeology, 32(1), 41–67.Google Scholar

Lewis, H., Paz, V., Lara, M., Barton, H., Piper, P. J., Ochoa, J., Vitales, T., Carlos, A. J., Higham, T., Neri, L., Hernandez, V., Stevenson, J., Robles, E. C., Ragragio, A., Padilla, R., SolheimII, W. and Ronquillo, W. (2008). Terminal Pleistocene to Mid Holocene occupation and an early cremation at Illa Cave, Palawan, Philippines. Antiquity, 82(316), 318–335.Google Scholar

Lipson, M., Loh, P. R., Patterson, N., Moorjani, P., Ko, Y. C., Stoneking, M., Berger, B. and Reich, D. (2014). Reconstructing Austronesian population history in Island Southeast Asia. Nature Communications, 5, 4689. doi:10.1038/ncomms5689.Google Scholar

Liu, L., Lee, G. A. and Jiang, L. (2007). Evidence for the early beginning (c. 9000 cal BP) of rice domestication in China: A response. Holocene, 17(8), 1059–1068.Google Scholar

Malapa, R., Arnau, G., Noyer, J. L. and Lebot, V. (2005). Genetic diversity of the greater yam (Dioscorea alata L.) and relatedness to D. nummularia Lam. and D. transversa Br. as revealed with AFLP markers. Genetic Resources and Crop Evolution, 52(7), 919–929.Google Scholar

Matthews, P. (2003). Identification of Benincasa hispida (wax gourd) from the Kana archaeological site, Western Highlands Province, Papua New Guinea. Archaeology in Oceania, 38(3), 186–191.Google Scholar

Mbida, C. M., Doutrelepont, H., Vrydaghs, L., Swennen, R. L., Swennen, R., Beeckman, H., de Langhe, E. and de Maret, P. (2001). First archaeological evidence of banana cultivation in central Africa during the third millennium before present. Vegetation History and Archaeobotany, 10(1), 1–6.Google Scholar

Meacham, W. (1984–1985). On the improbability of Austronesian origins in South China. Asian Perspectives, 20(1), 89–106.Google Scholar

Morwood, M. J., Aziz, F., O’Sullivan, P., Hobbs, D. R. and Raza, A. (1999). Archaeological and palaeontological research in central Flores, east Indonesia: Results of fieldwork 1997–98. Antiquity, 73(280), 273–286.Google Scholar

Morwood, M. J., Soejono, R. P., Roberts, R. G., Sutikna, T., Turney, C. S. M., Westaway, K. E., Rink, W. J., Zhoa, J. X., van den Bergh, G. D., Due, R. A., Hobbs, D. R., Moore, M. W., Bird, M. I. and Fifield, L. K. (2004). Archaeology and age of a new hominin from flores in eastern Indonesia. Nature, 431(7012), 1087–1091.Google Scholar

Muke, J and Mandui, H. (2003). In the shadows of Kuk: Evidence for prehistoric agriculture at Kana, Wahgi Valley, Papua New Guinea. Archaeology in Oceania, 38(3), 177–185.Google Scholar

Murdock, G. P. (1959). Africa: Its Peoples and Their Culture History. New York, NY: McGraw-Hill.Google Scholar

O’Connor, S., Spriggs, M. and Veth, P. (2002). Excavation of Lene Hara Cave establishes occupation in East Timor at least 35,000 years ago. Antiquity, 76(291), 45–50.CrossRefGoogle Scholar

O’Connor, S., Spriggs, M. and Veth, P. (2007). The Archaeology of the Aru Islands, Eastern Indonesia. Canberra: Pandanus Books.Google Scholar

O’Connor, S., Ono, R. and Clarkson, C. (2011). Pelagic fishing at 42,000 years before present and the maritime skills of modern humans. Science, 334(6059), 1117–1121.Google Scholar

Oliveira, N. (2012). Recovering, analyzing and identifying Colocasia esculenta and Dioscorea spp. from archaeological contexts in Timor-Leste. In Spriggs, M., Addison, D. and Matthews, P. J., ed., Irrigated Taro (Colocasia esculenta) in the Indo-Pacific, Senri Ethnological Studies 78. Osaka: National Museum of Ethnology, pp. 265–284.Google Scholar

Oxenham, M. F., Locher, C., Cuong, N. L. and Thuy, N. K. (2002). Identification of Areca catechu (betel nut) residues on the dentitions of Bronze Age inhabitants of Nui Nap, northern Vietnam. Journal of Archaeological Science, 29(9), 909–915.Google Scholar

Pawley, A. (2007). The origins of early Lapita culture: The testimony of historical linguistics. In Bedford, S., Sand, C. and Connaughton, S. P., eds., Oceanic Explorations: Lapita and Western Pacific Settlement. Canberra: Australian National University, pp. 17–49.Google Scholar

Paz, V. (2002). Island Southeast Asia: Spread or friction zone? In Bellwood, P. and Renfrew, C., eds., Examining the Farming-Language Dispersal Hypothesis. Cambridge: McDonald Institute for Archaeological Research, pp. 275–285.Google Scholar

Paz, V. (2005). Rock shelters, caves, and archaeobotany in Island Southeast Asia. Asian Perspectives, 44, 107–118.Google Scholar

Paz, V. (2010). Comments to ‘Farming and language in Island Southeast Asia: Reframing Austronesian history’. Current Anthropology, 51, 244.Google Scholar

Perrier, X., De Langhe, E., Donohue, M., Lentfer, C., Vrydaghs, L., Bakry, F., Carreel, F., Hippolyte, I., Horry, J. P., Jenny, C., Lebot, V., Risterucci, A. M., Tomekpe, K., Doutrelepont, H., Ball, T., Manwaring, J., de Maret, P. and Denham, T. P. (2011). Multidisciplinary perspectives on banana (Musa spp.) domestication. Proceedings of the National Academy of Sciences, 108(28), 11311–11318.Google Scholar

Piper, P. J., Hung, H. C., Campos, F. Z., Bellwood, P. and Santiago, R. (2009). A 4000 year-old introduction of domestic pigs into the Philippine Archipelago: Implications for understanding routes of human migration through Island Southeast Asia and Wallacea. Antiquity, 83(321), 687–695.Google Scholar

Powell, J. M. (1970a). The impact of man on the vegetation of the Mount Hagen region, New Guinea. Unpublished PhD thesis, Australian National University.Google Scholar

Powell, J. M. (1970b). The history of agriculture in the New Guinea Highlands. Search, 1, 199–200.Google Scholar

Roullier, C., Benoit, L., McKey, D. B. and Lebot, V. (2013). Historical collections reveal patterns of diffusion of sweet potato in Oceania obscured by modern plant movements and recombination. Proceedings of the National Academy of Sciences, 110(6), 2205–2210.Google Scholar

Sémah, A. M. and Sémah, F. (2012). The rain forest in Java through the Quaternary and its relationships with humans (adaptation, exploitation and impact on the forest). Quaternary International, 249, 120–128.Google Scholar

Soares, P., Rito, T., Trejaut, J., Mormina, M., Hill, C., Tinkler-Hundal, E., Braid, M., Clarke, D. J., Loo, J. H., Thomson, N., Denham, T. P., Donohue, M., Macaulay, V., Lin, M., Oppenheimer, S. and Richards, M. B. (2011). Genetic evidence for early Holocene voyaging between Indonesia and Near Oceania. American Journal of Human Genetics, 88, 239–247.Google Scholar

Solheim, W. G. (1984). The Nusantao hypothesis: The origin and spread of Austronesian speakers. Asian Perspectives, 26(1), 77–88.Google Scholar

Solheim, W. G. (2006). Archaeology and Culture in Southeast Asia: Unraveling the Nusantao. With contributions from D. Bulbeck and A. Flavel. Manila: University of the Philippines Press.Google Scholar

Specht, J., Denham, T. P., Goff, J. and Terrell, J. E. (2014). Deconstructing the Lapita Cultural Complex in the Bismarck Archipelago. Journal of Archaeological Research, 22, 89–140.Google Scholar

Spriggs, M. (1996). Early agriculture and what went before in Island Melanesia: Continuity or intrusion? In Harris, D. R., ed., The Origins and Spread of Agriculture and Pastoralism in Eurasia. London: University College London Press, pp. 524–537.Google Scholar

Spriggs, M. (1997). The Island Melanesians. Oxford: Blackwell.Google Scholar

Spriggs, M. (2003). Chronology of the Neolithic transition in Island Southeast Asia and the Western Pacific: A view from 2003. Review of Archaeology, 24(2), 57–80.Google Scholar

Spriggs, M. (2007). The Neolithic and Austronesian expansion within Island Southeast Asia and into the Pacific. In Chiu, S. and Sand, C., eds., From Southeast Asia to the Pacific: Archaeological Perspectives on the Austronesian Expansion and the Lapita Cultural Complex. Taipei: Centers for Archaeological Studies Research and for Humanities and Social Sciences, Academica Sinica, pp. 104–125.Google Scholar

Spriggs, M. (2010). Comment. Current Anthropology, 51, 245.Google Scholar

Spriggs, M. (2011). Archaeology and the Austronesian expansion: Where are we now? Antiquity, 85(328), 510–528.Google Scholar

Sutton, A., Mountain, M. J., Aplin, K., Bulmer, S. and Denham, T. P. (2009). Archaeozoological records for the highlands of New Guinea: A review of current evidence. Australian Archaeology, 69(1), 41–58.Google Scholar

Swadling, P., Araho, N. and Ivuyo, B. (1991). Settlements associated with the inland Sepik-Ramu Sea. Bulletin of the Indo-Pacific Prehistory Association, 11, 92–110.Google Scholar

Szabó, K. A. (2004). Technique and practice: Shell-working in the Western Pacific and Island Southwest Asia. Unpublished PhD thesis, Australian National University.Google Scholar

Szabó, K. A., Brumm, A. and Bellwood, P. (2007). Shell artifact production at 32,000–28,000 BP in Island Southeast Asia: Thinking across media? Current Anthropology, 48(5), 701–723.Google Scholar

Tieng, F. S. (2010). Hoabinhian Rocks: An examination of Guar Kepah artifacts from the Heritage Conservation Centre in Jurong. Unpublished MA thesis. Singapore: National University of Singapore.Google Scholar

Trigger, B. (2006). A History of Archaeological Thought. Cambridge: Cambridge University Press.Google Scholar

Vaughan, D. A., Kadowaki, K., Kaga, A. and Toomka, N. (2005). On the phylogeny and biogeography of the Genus Oryza. Breeding Science, 55(2), 113–122.Google Scholar

Xu, S., Pugach, I., Stoneking, M., Kayser, M., Jin, L. and HUGO Pan-Asian SNP Consortium. (2012). Genetic dating indicates that the Asian-Papuan admixture through Eastern Indonesia corresponds to the Austronesian expansion. Proceedings of the National Academy of Sciences of the United States of America, 109(12), 4574–4579.Google Scholar

Yen, D. and McEldowney, P. H. (1991). Dongan plant identifications. Appendix in P. Swadling, N. Araho and B. Ivuyo, Settlements associated with the inland Sepik-Ramu Sea. Bulletin of the Indo-Pacific Prehistory Association, 11, 109–110.Google Scholar

Zumbroich, T. J. (2008). The origin and diffusion of betel chewing: A synthesis of evidence from South Asia, Southeast Asia and beyond. Journal of Indian Medicine, 1(3), 63–116.Google Scholar