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First Radiocarbon Chronology for Mwoakilloa (Mokil) Atoll, Eastern Caroline Islands, Micronesia

Published online by Cambridge University Press:  19 January 2016

Aaron S Poteate*
Affiliation:
Department of Anthropology, University of Oregon, Eugene, OR 97403, USA.
Scott M Fitzpatrick
Affiliation:
Department of Anthropology, University of Oregon, Eugene, OR 97403, USA.
William S Ayres
Affiliation:
Department of Anthropology, University of Oregon, Eugene, OR 97403, USA.
Adam Thompson
Affiliation:
National Archaeologist for the Federated States of Micronesia 2011-2013.
*
*Corresponding author. Email: [email protected].

Abstract

Given their sheer number and evidence for long-term prehistoric occupation, atolls occupy a unique position in the peopling of the Pacific. However, they have frequently been overlooked in favor of larger islands due to a host of logistical and other issues. Once viewed as marginal environments, current research is now showing that small islands like these may have been more attractive to settlers than once thought. A new research program in Micronesia is dedicated to examining atolls to better develop baseline chronologies and investigate long-term human adaptations. As part of the initial stage of the project, we present the first radiocarbon dates (n=10) from Mwoakilloa (Mokil) atoll, which support a continuous occupation beginning between 1700–1560 cal BP (2σ). When compared to the settlement of other atoll groups in Micronesia such as the Marshall Islands—along with the nearby high volcanic islands of Pohnpei and Kosrae at approximately 2000–1800 yr ago—the dates from Mwoakilloa suggest a nearly contemporaneous or only slightly later occupation. The recovery of faunal material also demonstrates the translocation of at least two animals (Pacific rat and dog) to the island by humans that was coeval with early settlement. Additionally, there is evidence of landscape transformation in the form of a relatively large artificial mound created by debris and platform accumulation unseen elsewhere in central-eastern Micronesia, but common to atolls. These new dates reinforce the notion that Mwoakilloa and other atolls are integral to understanding prehistoric adaptations across the vast Pacific, though many questions still remain such as to the degree of interaction that occurred with nearby islands and whether settlement was continuous or intermittent through time.

Type
Research Article
Copyright
© 2016 by the Arizona Board of Regents on behalf of the University of Arizona 

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References

REFERENCES

Athens, JS. 1985. Nan Madol: archaeology of a Pohnpeian chiefdom center. Report submitted to the Office of the Historic Preservation, Saipan. Coordinated Investigation of Micronesian Anthropology.Google Scholar
Athens, JS. 1990. Nan Madol pottery, Pohnpei. Micronesica Supplement 2:1732.Google Scholar
Ayres, WS. 1990. Pohnpei’s position in Eastern Micronsian prehistory. Micronesica Supplement 2: 187212.Google Scholar
Beardsley, FR. 1993. Archaeological investigations on Kwajalein Atoll, Marshall Islands. Honolulu: International Archaeological Research Institute, Inc.Google Scholar
Bentzen, C. 1949. Land and Livelihood on Mokil, Part II. Los Angeles: Coordinated Investigation of Micronesian Anthropology.Google Scholar
Bronk Ramsey, C. 2009. Bayesian analysis of radiocarbon dates. Radiocarbon 51(1):337360.CrossRefGoogle Scholar
Carson, MT. 2008. Refining earliest settlement in Remote Oceania: renewed archaeological investigation at Unai Bapot, Saipan. Journal of Island and Coastal Archaeology 3(1):115139.CrossRefGoogle Scholar
Clark, G. 2005. A 3000-year culture sequence from Palau, western Micronesia. Asian Perspectives 44(2):349380.Google Scholar
Clark, G, Petchey, F, Winter, O, Carson, MT, O’Day, P. 2010. New radiocarbon dates from the Bapot-1 site in Saipan and Neolithic dispersal by stratified diffusion. Journal of Pacific Archaeology 1(1):2135.Google Scholar
Craib, J. 1983. Micronesian prehistory: an archaeological overview. Science 219(4587):922927.Google Scholar
Davidson, JM. 1967. Preliminary archaeological investigations on Ponape and other Eastern Caroline Islands. Micronesica 2:8195.Google Scholar
Di Piazza, A. 1999. Te Bakoa site: two old earth ovens from Nikunau Island (Republic of Kiribati). Archaeology in Oceania 34:4042.Google Scholar
Dickinson, WR. 2003. Impact of mid-Holocene hydro-isostatic highstand in regional sea level on habitability of islands in Pacific Oceania. Journal of Coastal Research 19:489502.Google Scholar
Dickinson, WR. 2004. Impacts of estasy and hydro-isostasy on the evolution and landforms of Pacific atolls. Palaeogrography, Palaeoclimatology, Palaeoecology 213(3–4):251269.Google Scholar
Dickinson, WR. 2009. Pacific atoll living: how long already and until when? GSA Today 19(3):410.CrossRefGoogle Scholar
Fitzpatrick, SM. 2003. Early human burials in the western Pacific: evidence for c. 3000 year old occupation on Palau. Antiquity 77(298):719731.Google Scholar
Galipaud, JC. 2001. Le Peuplement initial de Pohnpei. Le Journal de la Societe des Oceanistes 112(1):4960.Google Scholar
Gladwin, T. 1970. East is a Big Bird: Navigation and Logic on Puluwat Atoll. Cambridge: Harvard University Press.Google Scholar
Hung, H, Carson, MT, Bellwood, P, Campos, FZ, Piper, PJ, Dizon, E, Bolunia, MJLA, Oxenham, M, Chi, Z. 2011. The first settlement of Remote Oceania: the Philippines to the Marianas. Antiquity 85(329):909926.CrossRefGoogle Scholar
Kench, PS, Owen, SD, Ford, MR. 2014. Evidence for coral island formation during rising sea level in the central Pacific Ocean. Geophysical Research Letters 41(3):820827.Google Scholar
Kirch, PV. 2010. People of the Pacific: a holistic anthropological perspective. Annual Reviews of Anthropology 39:131148.Google Scholar
Leach, F, Ward, G. 1981. Archaeology on Kapingamarangi atoll: a Polynesian outlier in Eastern Caroline Islands. Suva, Fiji: The University of the South Pacific.Google Scholar
Matisoo-Smith, E. 1994. The human colonization of Polynesia. A novel approach: genetic analyses of the Polynesian Rat (Rattus exulans). Journal of the Polynesian Society 103:7587.Google Scholar
Matisoo-Smith, E. 2007. Animal translocations, genetic variation and the human settlement of the Pacific. In: Friedlaender JS, editor. Genes, Language and Culture History in the Southwest Pacific. Oxford: Oxford University Press.Google Scholar
Matisoo-Smith, E. 2009. The commensal model for human settlement of the Pacific 10 years on-what can we say and where to now? Journal of Island and Coastal Archaeology 4(2):151163.Google Scholar
Rainbird P. 1999. Entangled biographies: Western Pacific ceramics and the tombs of Pohnpei. World Archaeology 31(2):214224.Google Scholar
Rehg, KL. 1995. The significance of linguistic interaction spheres in reconstructing Micronesian prehistory. Oceanic Linguist 34:305326.Google Scholar
Reimer, PJ, Bard, E, Bayliss, A, Beck, JW, Blackwell, PG, Bronk Ramsey, C, Buck, CE, Cheng, H, Edwards, RL, Friedrich, M, Grootes, PM, Guilderson, TP, Haflidason, H, Hajdas, I, Hatté, C, Heaton, TJ, Hoffman, DL, Hogg, AG, Hughen, KA, Kaiser, KF, Kromer, B, Manning, SW, Niu, M, Reimer, RW, Richards, DA, Scott, EM, Southon, JR, Staff, RA, Turney, CSM, van der Plicht, J. 2013. IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55(4):18691887.Google Scholar
Riley, TJ. 1987. Archaeological survey and testing, Majuro atoll, Marshall Islands. In: Dye T, editor. Marshall Islands Archaeology. Pacific Anthropological Records, number 38. Honolulu: Bernice P. Bishop Museum. p 169–270.Google Scholar
Rosendahl, P. 1977. Archaeological survey in the Marshall and Eastern Caroline Islands. Manuscript 080577. Honolulu: Department of Anthropology, Bishop Museum.Google Scholar
Shun, K, Athens, JS. 1990. Archaeological investigations on Kwajalein atoll, Marshall Islands, Micronesia. Micronesica Supplement 2: 231240.Google Scholar
Thomas, FR. 2009. Historical ecology in Kiribati: linking past with present. Pacific Science 63(4):567600.Google Scholar
Thompson, A. 2010. Land snail and soil analysis in atoll archaeology [Master’s thesis]. Otago: University of Otago.Google Scholar
Weisler, MI. 1999a. The antiquity of Aroid Pit agriculture and significance of buried A horizons on Pacific atolls. Geoarchaeology 14(7):621654.Google Scholar
Weisler, MI. 1999b. Atolls as Settlement Landscapes: Ujae, Marshall Islands. Washington, DC: Smithsonian Institution.Google Scholar
Weisler, MI. 2001a. Life on the edge: prehistoric settlement and economy on Utrok atoll, northern Marshall Islands. Archaeology in Oceania 36(3):109133.CrossRefGoogle Scholar
Weisler, MI. 2001b. On the Margins of Sustainability: Prehistoric Settlement of Utrok Atoll, Northern Marshall Islands. BAR International Series 967. Oxford: Archaeopress.CrossRefGoogle Scholar
Weisler, MI. 2002. Archaeological survey and test excavations on Ebon Atoll, Republic of the Marshall Islands. Report prepared for the Historic Preservation Office, Republic of the Marshall Islands. Report on file there.Google Scholar
Weisler, MI, Yamano, H, Hua, Q. 2012. A multidisciplinary approach for dating human colonization of Pacific atolls. Journal of Island and Coastal Archaeology 7(1):102125.Google Scholar
Winter, O, Clark, G, Anderson, A, Lindahl, A. 2012. Austronesian sailing to the northern Marianas, a comment on Hung et al. (2011). Antiquity 86(333):898910.Google Scholar
Woodroffe, CD. 2008. Reef-island topography and the vulnerability of atolls to sea-level rise. Global and Planetary Change 62:7798.Google Scholar
Woodroffe, CD, Morrison, RJ. 2001. Reef-island accretion and soil development on Makin, Kiribati, central Pacific. Catena 44(4):245261.Google Scholar
Woodroffe, CD, McLean, RF, Smithers, SG, Lawson, EM. 1999. Atoll reef-island formation and response to sea-level change: West Island, Cocos (Keeling) Islands. Marine Geology 160(1–2):85104.Google Scholar