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Correlation of the Holocene Jarvis Creek, Tangle Lakes, Cantwell, and Hayes Tephras in South-Central and Central Alaska

Published online by Cambridge University Press:  20 January 2017

James E. Begét ,
Richard D. Reger ,
DeAnne Pinney ,
Tom Gillispie  and
Kathy Campbell
James E. Begét
Affiliation:
Department of Geology and Geophysics, University of Alaska, Fairbanks, Alaska, 99775, USA Alaska Volcano Observatory, Geophysical Institute, University of Alaska, Fairbanks, Alaska 99775, USA
Richard D. Reger
Affiliation:
Department of Natural Resources, Alaska Division of Geologic and Geophysical Surveys, 3700 Airport Way, Fairbanks, Alaska 99709, USA
DeAnne Pinney
Affiliation:
Department of Geology and Geophysics, University of Alaska, Fairbanks, Alaska, 99775, USA Department of Natural Resources, Alaska Division of Geologic and Geophysical Surveys, 3700 Airport Way, Fairbanks, Alaska 99709, USA
Tom Gillispie
Affiliation:
GDM Consultants, POB 7-3768, Fairbanks, Alaska 99707, USA
Kathy Campbell
Affiliation:
Department of Geology and Geophysics, University of Alaska, Fairbanks, Alaska, 99775, USA
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Abstract

The geochemistry, petrography, and distribution of the Jarvis Creek Ash (Péwé, 1965, 1975a) indicate that this tephra from the lower Delta River area of central Alaska is correlative with vol volcanic ash from sites in south-central Alaska near Tangle Lakes (upper Delta River area) and the Cantwell ash from Hayes volcano found in the upper Nenana River area (Riehle et al., 1990). Volcanic glass compositions of distal Jarvis Creek and Tangle Lakes tephra samples are compositionally restricted, while several discrete glass populations are present in some samples are compositionally collected nearer Hayes volcano. These correlations extend the known distribution of Hayes volcano tephras across the Alaska Range and into central Alaska, a distance of more than 650 km. New geochronologic data for the Jarvis Creek Ash suggest it was deposited ca. 3660 ± 125 yr B.P., consistent with previous age estimates of tephra eruptions at the Hayes volcano. The name “Jarvis Creek Ash” has well-established priority with respect to “Cantwell ash” or other local names for this tephra layer from the Hayes volcano.

Type
Research Article
Information
Quaternary Research , Volume 35 , Issue 2 , March 1991 , pp. 174 - 189
Copyright
University of Washington

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References

Begét, J. Edwards, M. Hopkins, D. Keskinen, M. Kukla, G. Old Crow tephra found at the Palisades of the Yukon, Alaska Quaternary Research 35 1991 CrossRefGoogle Scholar
Borchardt, G.A. Aruscavage, P.J. Millard, H.T. Jr. Correlation of the Bishop ash, a Pleistocene marker bed, using instrumental neutron activation analysis Journal of Sedimentary Petrology 42 1972 301 306 Google Scholar
Bowers, P. The Cantwell ash bed, a Holocene tephra in the central Alaska Range Alaska Division of Geological and Geophysical Surveys Geologic Report 61 1979 19 24 Google Scholar
Campbell, K. Begét, J. Moraine dam failure and flood at Tangle Lakes, Alaska circa 8000 years B.P. Geological Society America Abstracts and Program 21 1989 63 Google Scholar
Davis, J.O. Correlation of late Quaternary tephra layers in a long pluvial sequence near Summer Lake, Oregon Quaternary Research 23 1985 28 53 CrossRefGoogle Scholar
Dilley, T.E. Holocene Tephra Stratigraphy and Pedogenesis in the Middle Susitna River Valley, Alaska 1988 University of Alaska Fairbanks Unpublished M.Sc. Thesis Google Scholar
Fontana, M.R. Holocene Tephrochronology of the Matanuska Valley, Alaska 1988 University of Alaska Fairbanks Unpublished M.Sc. Thesis Google Scholar
Froggatt, P.C. Gosson, G.J. Techniques for the Preparation of Tephra Samples for Mineral and Chemical Analysis and Radiometric Dating Vol. 23 1982 Victoria University of Wellington Publication Google Scholar
Lindholm, G.F. Thomas, L.A. Davidson, D.T. Handy, R.L. Roy, C.J. Silt near Big Delta and Fairbanks Davidson, D.T. Roy, C.J. et al. The Geology and Engineering Characteristics of Some Alaskan Soils 1959 Iowa State University Bulletin 186 33 70 Google Scholar
Nielson, C.H. Sigudsson, H. Quantitative methods for electron microprobe analysis of sodium in natural and synthetic glasses American Mineralogist 66 1981 547 552 Google Scholar
Péwé, T.L. Guidebook to the Quaternary Geology of Central and South-Central Alaska INQUA Guidebook for Field Conference F Lincoln 1965 Nebraska Academy of Sciences Google Scholar
Péwé, T.L. Quaternary Stratigraphic Nomenclature in Unglaciated Central Alaska U.S. Geological Survey Professional Paper 862 1975 Google Scholar
Péwé, T.L. Quaternary Geology of Alaska U.S. Geological Survey Professional Paper 835 1975 Google Scholar
Péwé, T.L. Holmes, G.W. Geology of the Mt. Hayes D-4 Quadrangle: U.S. Geol. Survey Misc. Geol. Inv. Map I-394 1975 Google Scholar
Péwé, T.L. Reger, R.D. Guidebook to Permafrost and Quaternary Geology along the Richardson and Glenn Highways between Fairbanks and Anchorage, Alaska 1983 Alaska Division of Geological and Geophysical Surveys Fairbanks Google Scholar
Reger, R.D. Péwé, T.L. Hadleigh-West, Frederick Skarland, Ivar Geology and Archaeology of the Yardang Flint Station University of Alaska Anthropological Papers 12 1964 92 100 Google Scholar
Riehle, J.R. A reconnaissance of the major tephra deposits in the upper Cook Inlet region, Alaska Journal Volcanology and Geothermal Research 26 1985 37 74 Google Scholar
Riehle, J.R. Bowers, P.M. Ager, T.A. The Hayes tephra deposits, an upper Holocene marker horizon in south-central Alaska Quaternary Research 33 1990 276 290 CrossRefGoogle Scholar
Stuiver, M. Becker, B. High-precision decadal calibration of the radiocarbon time scale, AD 1950–2500 BC Radiocarbon 28 1986 863 910 Google Scholar
Stuiver, M. Reimer, P.J. A computer program for radiocarbon age calibration Radiocarbon 28 1986 1022 1030 Google Scholar
West, F.H. The Archeology of Beringia 1981 Columbia Univ. Press New York Google Scholar
Westgate, J.A. Isothermal plateau fission-track age of the late Pleistocene Old Crow tephra, Alaska Geophysical Research Letters 15 1988 376 379 Google Scholar
Westgate, J.A. Fulton, R.J. Tephrostratigraphy of Olympia Interglacial sediments in south-central British Columbia, Canada Canadian Journal of Earth Sciences 12 1975 489 502 CrossRefGoogle Scholar
Westgate, J.A. Gorton, M.P. Correlation techniques in tephra studies Self, S. Sparks, R.S.J. Tephra Studies 1981 North Atlantic Treaty Organization Advanced Studies Institute Series C. Reidel Dordrecht 73 94 Google Scholar
Westgate, J.A. Naeser, N.D. Dating Methods of Pleistocene deposits and their problems: V. Tephrochronology and fission-track dating Rutter, N.W. Dating Methods of Pleistocene Deposits and their Problems 1985 Geoscience Canada Reprint Series 2 Ottawa 31 38 Google Scholar