Hostname: page-component-84b7d79bbc-fnpn6 Total loading time: 0 Render date: 2024-07-29T09:20:04.960Z Has data issue: false hasContentIssue false
  • English
  • Français

Late-Quaternary Sea Level Changes, Umnak Island, Aleutians—Their Effects on Ancient Aleuts and their Causes

Published online by Cambridge University Press:  20 January 2017

Robert F. Black
Robert F. Black*
Affiliation:
University of Connecticut, Storrs, Connecticut 06268 USA.
Get access Rights & Permissions [Opens in a new window]

Abstract

Late-Quaternary sea level changes in the eastern Aleutian Islands are of paramount importance in the reconstruction of the migrations and environment of the ancient Aleuts. A radiocarbon-dated ash stratigraphy provides the chronology into which geomorphic events can be fitted. These provide evidence for the sea level changes. Deployment of beach material and coastal configuration intimate that sea level was about 2–3 m above the present level about 8250 radiocarbon yr BP. Beach deposits suggest that sea level remained high until about 3000 radiocarbon y.a. when it gradually dropped to its present position. It is concluded that the ancient Aleuts that settled Anangula about 8400 y.a. used boats; all major passes in the eastern Aleutians were flooded, and did not have winter ice. Those ancient Aleuts did not have available the major year-around food resources of the present strandflats as they were cut during the high sea level stand 8250–3000 yr BP. The ancient Aleuts must have been marine oriented, for land-based food resources would have been limited.

The cause of relative sea level changes on Umnak Island is considered indeterminate with present data. Eustatic, glacial isostatic, water isostatic, tectonic, and volcanic causes are considered the main possible controls in combinations such that a basic eustatic sea level curve and likely a glacial-water isostatic curve must be common to any solution. Representative solutions are given to illustrate some of the problems.

Type
Original Articles
Information
Quaternary Research , Volume 4 , Issue 3 , September 1974 , pp. 264 - 281
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Black, R.F., (1966). Late Pleistocene to Recent history of Bering Sea—Alaska coast and man. Arctic Anthropology III-2, 722.Google Scholar
Black, R.F., (1972a). Geology and ancient Aleuts: Amchitka and Umnak Islands, Aleutians. Society for American Archaeology Abstracts 15.Google Scholar
Black, R.F., (1972b). Geologic evidence pertaining to the migration of the Paleo-Aleuts. Geological Society of America Abstracts 4, 7 452.Google Scholar
Black, R.F., (1973a). Late Quaternary geomorphic events related to Paleo-Aleuts, Jmnak Island, Alaska. Society for American Archaeology Abstracts 2122.Google Scholar
Black, R.F., (1973b). Late Quaternary sea-level changes, southwest Umnak Island, Aleutians. Geological Society of America Abstracts 5, 7 552.Google Scholar
Black, R. F., (in press). Geology and ancient Aleuts, Amchitka and Umnak Islands, Aleutians. Arctic Anthropology .Google Scholar
Black, R.F., Laughlin, W.S., (1964). Anangula: A geologic interpretation of the oldest archeologic site in the Aleutians. Science 143, 13211322.CrossRefGoogle ScholarPubMed
Bloom, A.L., (1967). Pleistocene shorelines: A new test of isostasy. Geological Society of America Bulletin 78, 14771494.CrossRefGoogle Scholar
Bloom, A.L., (1971). Glacial-eustatic and isostatic controls of sea level since the last glaciation. Turekian, K.K., Late Cenozoic Glacial Ages Yale University Press, New Haven, Ct 355379.Google Scholar
Bloom, A.L., (1972). Isostatic and other tectonic distortions of Quaternary glacial-eustatic shorelines. American Quaternary Association Abstracts 810.Google Scholar
Broecker, W.S., Bender, M.L., (1972). Age determination on marine strandlines. Bishop, W.W., Miller, J.A., Calibration of hominoid evolution Scottish Academic Press, for the Wenner-Gren Foundation for Anthropological Research, New York 1935.Google Scholar
Byers, F.M. Jr., (1959). Geology of Umnak and Bogoslof Islands, Aleutian Islands, Alaska. U.S. Geological Survey Bulletin 1028-L, 267369.Google Scholar
Crittenden, M.D. Jr., (1963). Effective viscosity of the earth derived from isostatic loading of Pleistocene Lake Bonneville. Journal Geophysical Research 68, 55175530.CrossRefGoogle Scholar
Curray, J.R., (1965). Late Quaternary history continental shelves of the United States. Wright, H.E. Jr., Frey, D.G., The Quaternary of the United States Princeton University Press, NJ 723735.Google Scholar
Curray, J.R., Shepard, F.P., (1972). Some major problems of Holocene sea levels. American Quaternary Association Abstracts 1618.Google Scholar
Gilluly, J., (1973). Steady plate motion and episodic orogeny and magmatism. Geological Society of America Bulletin 84, 499514.2.0.CO;2>CrossRefGoogle Scholar
Grow, J.A., (1973). Crustal and upper mantle structure of the central Aleutian arc. Geological Society of America bulletin 84, 21692192.2.0.CO;2>CrossRefGoogle Scholar
Heusser, C.J., (1973). Postglacial vegetation on Umnak Island, Aleutian Islands, Alaska. Review of Palaeobotany and Palynology 15, 277285.CrossRefGoogle Scholar
Hollin, J.T., (1970). Antarctic glaciology, glacial history and ecology. Holdgate, M.W., Antarctic ecology Vol. 1, Academic Press, New York 1519.Google Scholar
Hopkins, D.M., Creager, J.S., Knebel, H.J., Echols, R.J., (1972). Middle and Late Quaternary sea-level history in the Bering Sea region. American Quaternary Association Abstracts 3435.Google Scholar
Marlow, M.S., Scholl, D.W., Buffington, E.C., Alpha, T.R., (1973). Tectonic history of the central Aleutian arc. Geological Society of America Bulletin 84, 15551574.2.0.CO;2>CrossRefGoogle Scholar
Milliman, J.D., Emery, K.O., (1968). Sea levels during the past 35,000 years. Science 162, 1121.CrossRefGoogle ScholarPubMed
Powers, H.A., (1961). The emerged shoreline at 2–3 meters in the Aleutian Islands. Zeitschrift für Geomorphologie Supplementband 3, 3638.Google Scholar