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All Toba Tephra Occurrences across Peninsular India Belong to the 75,000 yr B.P. Eruption

Published online by Cambridge University Press:  20 January 2017

John A. Westgate ,
Philip A.R. Shane ,
Nicholas J.G. Pearce ,
William T. Perkins ,
Ravi Korisettar ,
Craig A. Chesner ,
Martin A.J. Williams  and
Subhrangsu K. Acharyya
John A. Westgate
Affiliation:
Physical Sciences Division, University of Toronto, Scarborough, Ontario, M1C 1A4, Canada
Philip A.R. Shane
Affiliation:
Department of Geology, University of Auckland, Auckland, New Zealand
Nicholas J.G. Pearce
Affiliation:
Institute of Earth Studies, University of Wales, Aberystwyth, SY23 2DB, United Kingdom
William T. Perkins
Affiliation:
Institute of Earth Studies, University of Wales, Aberystwyth, SY23 2DB, United Kingdom
Ravi Korisettar
Affiliation:
Department of History and Archaeology, Karnatak University, Dharwad, 580 003, India
Craig A. Chesner
Affiliation:
Department of Geology, Eastern Illinois University, Charleston, Illinois, 61920
Martin A.J. Williams
Affiliation:
Mawson Graduate Centre for Environmental Studies, University of Adelaide, Adelaide, SA 5005, Australia
Subhrangsu K. Acharyya
Affiliation:
Geological Survey of India, Calcutta, 700016, India
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Abstract

A controversy currently exists regarding the number of Toba eruptive events represented in the tephra occurrences across peninsular India. Some claim the presence of a single bed, the 75,000-yr-old Toba tephra; others argue that dating and archaeological evidence suggest the presence of earlier Toba tephra. Resolution of this issue was sought through detailed geochemical analyses of a comprehensive suite of samples, allowing comparison of the Indian samples to those from the Toba caldera in northern Sumatra, Malaysia, and importantly, the sedimentary core at ODP Site 758 in the Indian Ocean—a core that contains several of the earlier Toba tephra beds. In addition, two samples of Toba tephra from western India were dated by the fission-track method. The results unequivocally demonstrate that all the presently known Toba tephra occurrences in peninsular India belong to the 75,000 yr B.P. Toba eruption. Hence, this tephra bed can be used as an effective tool in the correlation and dating of late Quaternary sedimentary sequences across India and it can no longer be used in support of a middle Pleistocene age for associated Acheulian artifacts.

Keywords

Toba tephravolcanic glassmajor and trace elementsfission-track ageAcheulian artifactsIndia
Type
Original Articles
Information
Quaternary Research , Volume 50 , Issue 1 , July 1998 , pp. 107 - 112
Copyright
University of Washington

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References

Acharyya, S.K., and Basu, P.K. (1993). Toba ash on the Indian subcontinent and its implications for correlation of late Pleistocene alluvium. Quaternary Research 40, 1019.Google Scholar
Acharyya, S.K., Basu, P.K. Quaternary Research 41, (1994). 400402.Google Scholar
Bogaard, P.van den. 40 39, Proceedings Ocean Drilling Program. Scientific ResultsGoogle Scholar
Chesner, C.A. (1988). The Toba Tuff and Caldera Complex, Sumatra, Indonesia: Insights into Magma Bodies and Eruptions. Michigan Technological University, Houghton.Google Scholar
Chesner, C.A., Rose, W.I., Deino, A., Drake, R., and Westgate, J.A. (1991). Eruptive history of Earth's largest Quaternary caldera (Toba, Indonesia) clarified. Geology 19, 200203.2.3.CO;2>CrossRefGoogle Scholar
Dehn, J., Farrell, J.W., and Schmincke, H.-U. (1991). Neogene tephrochronology from Site 758 on northern Ninetyeast Ridge: Indonesian arc volcanism of the past 5 Ma. Proceedings Ocean Drilling Program, Scientific Results 121, 273295.Google Scholar
Farrell, J.W., and Janecek, T.R. (1991). Late Neogene paleoceanography and paleoclimatology of the northeast Indian Ocean (ODP Site 758). Proceedings Ocean Drilling Program, Scientific Results 121, 297355.Google Scholar
Hall, C.M., and Farrell, J.W. (1995). Laser40 39 . Earth and Planetary Science Letters 133, 327338.CrossRefGoogle Scholar
Horn, P., Müller-Sohnius, D., Storzer, D., and Zöller, L. (1993). K-Ar, fission-track, and thermoluminescence ages of Quaternary volcanic tuffs and their bearing on Acheulian artifacts from Bori, Kukdi Valley, Pune district, India. Zeitschrift der Deutschen Geologischen Gesellschaft 144, 326329.Google Scholar
Hurford, A.J., and Green, P.F. (1983). The zeta calibration of fission-track dating. Isotope Geoscience 1, 285317.Google Scholar
Korisettar, R. (1994). Quaternary alluvial stratigraphy and sedimentation in the upland Deccan region, western India. Man and Environment XIX, 2941.Google Scholar
Korisettar, R., Venkatesan, T.R., Mishra, S., Rajaguru, S.N., Somayajulu, B.L.K., Tandon, S.K., Gogte, V.D., Ganjoo, R.K., and Kale, V.S. (1989). Discovery of a tephra bed in the Quaternary alluvial sediments of Pune district (Maharashtra), peninsular India. Current Science 58, 564567.Google Scholar
Le Bas, M.J., LeMaitre, R.W., Streckeisen, A., and Zanellin, B. (1986). A chemical classification of volcanic rocks based on the total alkali-silica diagram. Journal of Petrology 27, 745750.CrossRefGoogle Scholar
Mishra, S., and Rajaguru, S.N. (1996). Comment on “New geochemical evidence for the Youngest Toba tuff in India”. Quaternary Research 46, 340341.Google Scholar
Mishra, S., Rajaguru, S.N. Quaternary Research 41, (1994). 396397.CrossRefGoogle Scholar
Mishra, S., Venkatesan, T.R., Rajaguru, S.N., and Somayajulu, B.L.K. (1995). Earliest Acheulian industry from peninsular India. Current Anthropology 36, 847851.Google Scholar
Morgan, G.B., and London, D. (1996). Optimizing the electron microprobe analysis of hydrous alkali aluminosilicate glasses. American Mineralogist 81, 11761185.CrossRefGoogle Scholar
Nakamura, N. (1974). Determination of REE, Ba, Fe, Mg, Na and K in carbonaceous and ordinary chondrites. Geochimica Cosmochimica Acta 38, 757775.Google Scholar
Pearce, N.J.G., Perkins, W.T., Westgate, J.A., Gorton, M.P., Jackson, S.E., Neal, C.R., and Chenery, S.P. (1997). A compilation of new and published major and trace element data for NIST SRM 610 and NIST SRM 612 partially certified glass standard reference materials. Geostandards Newsletter 21, 115144.Google Scholar
Rose, W.I., and Chesner, C.A. (1987). Dispersal of ash in the great Toba eruption, 75 ka. Geology 15, 913917.2.0.CO;2>CrossRefGoogle Scholar
Sandhu, A.S., and Westgate, J.A. (1995). The correlation between reduction in fission-track diameter and areal track density in volcanic glass shards and its application in dating tephra beds. Earth and Planetary Science Letters 131, 289299.CrossRefGoogle Scholar
Shackleton, N.J., Berger, A., and Peltier, W.R. (1990). An alternative astronomical calibration of the lower Pleistocene timescale based on ODP Site 677. Transactions of the Royal Society of Edinburgh 81, 251261.Google Scholar
Shane, P.A.R., Westgate, J.A., Williams, M.A.J., and Korisettar, R. (1995). New geochemical evidence for the Youngest Toba tuff in India. Quaternary Research 44, 200204.CrossRefGoogle Scholar
Staudacher, T.H., Jessberger, E.K., Dominik, B., Kirsten, T., and Schaeffer, O.A. (1982). 40 39 . Journal Geophysics 51, 111.Google Scholar
Westgate, J.A., and Gorton, M.P. (1981). Correlation techniques in tephra studies. Tephra Studies Reidel, Dordrecht.p. 73–94Google Scholar
Westgate, J.A. (1989). Isothermal plateau fission-track ages of hydrated glass shards from silicic tephra beds. Earth and Planetary Science Letters 95, 226234.CrossRefGoogle Scholar
Williams, M.A.J., and Clarke, M.F. (1984). Late Quaternary environments in north central India. Nature 308, 633635.CrossRefGoogle Scholar
Williams, M.A.J., and Clarke, M.F. (1995). Quaternary geology and prehistoric environments in the Son and Belan Valleys, north-central India. Geological Society of India Memoir 32, 282308.Google Scholar
Williams, M.A.J., and Royce, K. (1982). Quaternary geology of the middle Son Valley, north central India: implications for prehistoric archaeology. Palaeogeography, Palaeoclimatology, Palaeoecology 38, 139162.CrossRefGoogle Scholar