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Studies on microparticles contained in medium-depth ice cores retrieved from east Dronning Maud Land, Antarctica

Published online by Cambridge University Press:  20 January 2017

Akira Higashi*
Affiliation:
International Christian University, Mitaka-shi, Tokyo 181, Japan
Yoshiyuki Fujii
Affiliation:
National institute of Polar Research, Itabashi, Tokyo 173, Japan
*
* Present address: Tomigaoka 552-11, Hiroshima-cho, Hokkaido 061-11, Japan.
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Abstract

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SEM observations of microparticles in ice-core samples retrieved by the Japanese Antarctic Research Expedition in east Dronning Maud Land have been carried out since 1987. Morphology and elemental composition by EDS of many microparticles taken from various depths of the 700 m Mizuho ice core were compared with each other and with those of stratospheric microparticles in NASA Cosmic Dust Catalogs and microparticles hitherto found in deep ice cores retrieved in Antarctica. Number concentrations of microparticles were measured on all samples throughout the 700 m Mizuho ice core. Remarkable fluctuations found in the depth profile of the concentration seem to coincide with cold climates indicated by δ18O of the same core. Compositional analysis of volcanic ash at a depth of 500.7 m in the Mizuho ice core, dated at approximately 6000 years BP, indicates that the ash originated from the South Sandwich Islands.

Type
Research Article
Copyright
Copyright © International Glaciological Society 1994

References

Briat, M., Royer, A., Petit, J. R., Lorius, C.. 1982. Late glacial input of eolian continental dust in the Dome C ice core: additional evidence from individual microparticles analysis. Ann. Glaciol, 32731.Google Scholar
De Angelis, M., Barkov, N.I. and Petrov, V.N.. 1992. Sources of continental dust over Antarctica during the last glacial cycle. J. Atmos. Chem., 14233244.Google Scholar
Fujii, Y..andWatanabe, O.. 1988. Microparticle concentration and electrical conductivity of a 700 m ice core from Mizuho Station, Antarctica. Ann. Glaciol., 103842.Google Scholar
Fujii, Y. andWatanabe, O.. 1992. Paleo-climate and environment recorded in Antarctic ice cores. In Science in Antarctica. Tokyo, National Institute of Polar Research.Google Scholar
Gaudichet, A., De Angelis, M., Lefevre, R., Petit, J. R., Korotkevitch, Y. S. and Petrov, V. N.. 1988. Mineralogy of insoluble panicles in the Vostok Antarctic ice core over the last climatic cycle (150 kyr). Geophys. Res. Lett., 1513, 14711474.Google Scholar
Heiken, G., Wohletz, K. and 1985. Volcanic ash. Berkeley, LA, University of California Press.Google Scholar
Higashi, A., Nakawo, M., Narita, H., Fujii, Y. andWatanabe, O.. 1988. Preliminary results of analyses of 700 m ice cores retrieved at Mizuho Station. Antarctica. Ann. Glaciol 105256.Google Scholar
Higashi, A., Fujii, Y., Takamatsu, S. and Watanabe, R.. 1990. SEM observations of microparticles in Antarctic ice cores. Bull. Glac. Res., 83153.Google Scholar
Katsushirna, T., Nishio, F., Ohmae, H., Ishikawa, M. and Takahashi, S.. 1981. Composition of dirt layers in the bare ice areas near the Yamato Mountains in Queen Maud Land and the Allan Hills in Victoria Land, Antarctica. Mem. NIPR Spec. Iss., 34174187.Google Scholar
Nakawo, M., Ohmae, H., Nishio, F. and Kameda, T.. 1989. Dating the Mizuho 700 m core from core ice fabric data. proc. NIPR symp. Polar Meteorol. Glaciol. 2 105110.Google Scholar
Naraoka, H., Yanai, K. and Fujita, S.. 1991. Dirt bands in the bare ice area around the Sør Rondane Mountains in Queen Maud Land, Antarctica. Antarct. Antarct. Rec 35 14755.In JapaneseGoogle Scholar
NASA. 1992. Cosmic dust catalogVol. 13Houston. TX Google Scholar
Palais, J. M.. 1985. Particle morphology, composition and associated ice chemistry of tephra layers in Byrd ice core: evidence for hydro-volcanic eruptions. Ann. Glaciol 74248.Google Scholar
Palais, JM., Kyle, P. R., Mosley-Thompson, E. and Thomas, E.. 1987. Correlation of a 3,200year old tephra in ice cores from Vostok and South Pole Stations, Antarctica. Geophys. Res. Lett. 148 804807.CrossRefGoogle Scholar
Palais, J. M., Germani, G.A. and zielinski, G.A.. 1992. Inter-hemispheric transport of volcanic ash from a 1259AD volcanic eruption to the Greenland and Antarctic ice sheets. Geophys. Res. Lett., 198801804.Google Scholar
Watanabe, O., Fujii, Y. and Motoyama, H.. 1992. Results of analyses of Mizuho 700 m ice core, East Antarctica.Part 1.δ18O, microparticles, ECM (acidity), pH, major ions. JARE Data Reports, 181 (Glaciology 20), Tokyo National Institute of Polar Research.Google Scholar