Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-22T05:17:52.276Z Has data issue: false hasContentIssue false

Dendroindications of Recent Volcanic Eruptions in Kamchatka, Russia

Published online by Cambridge University Press:  20 January 2017

Ram R. Yadav*
Affiliation:
Birbal Sahni Institute of Palaeobotany, Lucknow, India

Abstract

Precisely dated tree-ring sequences of larch (Larix cajanderi Mayr) extending from 1801–1980 ad from Kamchatka lying in the far east of Asian continent were studied to see the influence of volcanic eruptions on tree growth and to assess the potential of tree rings for dating ancient volcanic events. Nearby volcanic events are clearly reflected in ring-width patterns. Distinctly narrow rings are formed in the year following the year of eruption. Weaker eruptions, however, are marked by narrow rings in the year of eruption only. After strong eruptions, trees usually take 2 to 3 yr to return to normal growth. The results indicate that tree rings are useful for dating ancient volcanic events.

Type
Short Paper
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

Baillie, M.G.L. Pilcher, J.R. A simple cross-dating program for tree-ring research Tree-Ring Bulletin 33 1973 7 14 Google Scholar
Bitvinskas, T. Dendroclimatic Studies 1974 Gidrometeoizdat Publishers Leningrad [in Russian] Google Scholar
Dylis, N.V. Larch in Eastern Siberia and Far East: Variability and Natural Diversity 1961 Science Publishing House Moscow [in Russian] Google Scholar
Gorshkov, G. Yakushova, A. Physical Geology 1962 Mir Publishers Moscow [in Russian] Google Scholar
Guschenko, I.I. Volcanic Eruptions of the World: Catalogue 1979 Science Publishing House Moscow [in Russian] Google Scholar
Kaiser, K.F. Kaiser-Bernhard, C. The Katmai eruption of 1912 and the Alaska earthquake of 1964 as reflected in the annual rings of stika spruces of Kodiak Island Dendrochronologia 5 1987 111 124 Google Scholar
Lamb, H.H. Volcanic dust in the atmosphere with the chronology and assessment of its meteorological significance Philosophical Transactions of Royal Society, London (Mathematical and Physical Science) 226 1970 425 533 Google Scholar
LaMarche, V.C. Hirschboeck, K.K. Frost rings in trees as records of major volcanic eruptions Nature 307 1984 121 126 Google Scholar
Lawrence, D.B. Continuing research on the flora of Mt. St. Helens: A progress report Mazama 21 1939 49 54 Google Scholar
Lawrence, D.B. The “floating island” lava flow of Mt. St. Helens Mazama 23 1941 56 60 Google Scholar
Lawrence, D.B. Diagramatic history of the northeast slope of Mt. St. Helens, Washington Mazama 36 1954 41 44 Google Scholar
Loginov, B.F. Volcanic Eruptions and Climate 1984 Gidrometeoizdat Publishers Leningrad [in Russian] Google Scholar
Lovelius, N.V. Growth Variability of Trees: Dendroindications of Natural and Anthropogenic Influences 1979 Science Publishers Leningrad [in Russian] Google Scholar
Smiley, T.L. The geology and dating of Sunset Crater, Flagstaff, Arizona Anderson, R.E. Harschberger, J.W. Guidebook of the Black Mesa Basin, Northeastern Arizona 1958 New Mexico Geological Society Socorro, NM 186 190 Google Scholar
Stokes, M.A. Smiley, T.L. An Introduction to Tree-Ring Dating 1968 Univ. of Chicago Press Chicago Google Scholar
Yamaguchi, D.K. New tree-ring dates for recent eruptions of Mt. St. Helens Quaternary Research 20 1983 246 250 Google Scholar
Yamaguchi, D.K. Tree-ring evidence for a two-year interval between recent prehistoric explosive eruptions of Mount St. Helens Geology 13 1985 554 557 Google Scholar
Yamaguchi, D.K. The Development of Old-Growth Douglass Fir Forests Northeast of Mt. St. Helens, Washington, following and 1480 Eruption Ph.D. thesis 1986 Univ. of Washington Google Scholar
Yamaguchi, D.K. Holbitt, R.P. Lawrence, D.B. Tree-ring date for the “floating island” lava flow, Mount St. Helens, Washington Bulletin of Volcanology 1990 in press Google Scholar