Modern eolian dust deposition in central Asia

Glaciers around the globe provide a unique medium for investigating the temporal and spatial variation of dust deposition. Here we investigate the spatial and seasonal distribution of eolian dust deposition in central Asia through the analysis of concentrations and size distributions of insoluble particles (over the size range 1–22 μ m diameter) in snow and ice samples collected from eight glaciers in the mountains of central Asia. The sample locations cover a wide geographical area and fall within 4 distinct landscape/climate zones: the southern slopes of the eastern Himalaya; the Karakoram; south eastern Tibetan Plateau; northern/western Tibetan Plateau. Snow samples from each of the 4 landscape/climatic zone displays distinct dust deposition characteristics which are dependent upon the physiographic location of the sampling site with respect to source regions of dust and atmospheric transport pathways. The southern slopes of the eastern Himalaya show very low particle concentrations and low annual dust deposition. This region is relatively free from the influence of Asian dust. The Karakoram appears to be a major sink for particles less than 2 μ m in diameter which have been transported long distances with the westerly jet stream. Glaciers in the south eastern Tibetan Plateau record the influx of dust generated in the arid and semi-arid regions to the west. Glaciers on the northern and western margin of the Tibetan Plateau lie adjacent to vast arid and semi-arid regions of western China and provide dust depostion records mainly of local significance. Our results suggest that high elevation glaciers in the eastern′ Himalaya, Karakoram and the south eastern Tibetan Plateau are those most likely to provide longer term dust deposition records which reflect regional to hemispheric signals. DOI: 10.1034/j.1600-0889.1994.t01-2-00005.x

[1]  P. Mayewski,et al.  The chemical composition of aerosols over the Eastern Himalayas and Tibetan plateau during low dust periods , 1994 .

[2]  J. Dobrowolski,et al.  Soil crust formation by dust deposition at Shaartuz, Tadzhik, S.S.R. , 1993 .

[3]  L. Gomes,et al.  A comparison of characteristics of aerosol from dust storms in central Asia with soil-derived dust from other regions , 1993 .

[4]  P. Mayewski,et al.  Regional distribution of monsoon and desert dust signals recorded in Asian glaciers , 1993 .

[5]  P. Mayewski,et al.  Characteristics and Possible Source of a 1479 A.D. Volcanic Ash Layer in a Greenland Ice Core , 1993, Quaternary Research.

[6]  R. Duce,et al.  Relationships between the dust concentrations over eastern Asia and the remote North Pacific , 1992 .

[7]  J. Palais,et al.  Inter‐hemispheric Transport of Volcanic Ash from a 1259 A.D. Volcanic Eruption to the Greenland and Antarctic Ice Sheets , 1992 .

[8]  R. Duce,et al.  Input of atmospheric trace elements and mineral matter to the Yellow Sea during the spring of a low‐dust year , 1992 .

[9]  W. L. Lockhart,et al.  Brown snow : a long-range transport event in the Canadian arctic , 1991 .

[10]  E. Mosley‐Thompson,et al.  Holocene—Late Pleistocene Climatic Ice Core Records from Qinghai-Tibetan Plateau , 1989, Science.

[11]  Rainer Bleck,et al.  Meteorological analysis of long range transport of mineral aerosols over the North Pacific , 1989 .

[12]  K. Hewitt Catastrophic Landslide Deposits in the Karakoram Himalaya , 1988, Science.

[13]  Katsuhiro Inoue,et al.  Physical, Chemical, and Mineralogical Characteristics of Modern Eolian Dust in Japan and Rate of Dust Deposition , 1987 .

[14]  J. M. Martín,et al.  Influence of Saharan dust on the rain acidity and atmospheric input to the Mediterranean , 1986, Nature.

[15]  J. Steffensen Microparticles in snow from the South Greenland ice sheet , 1985 .

[16]  J. Prospero,et al.  Deposition of atmospheric mineral particles in the North Pacific Ocean , 1985 .

[17]  J. Hart A laboratory study of baroclinic chaos on the f-plane , 1985 .

[18]  J. Prospero,et al.  Major Asian aeolian inputs indicated by the mineralogy of aerosols and sediments in the western North Pacific , 1985, Nature.

[19]  D. Rea,et al.  Geologic Approach to the Long-Term History of Atmospheric Circulation , 1985, Science.

[20]  A. Goudie Dust storms in space and time , 1983 .

[21]  Robert J. Charlson,et al.  The atmospheric aerosol system: An overview , 1983 .

[22]  Hiroaki Minoura,et al.  The transport and spacial scale of Asian dust‐storm clouds: a case study of the dust‐storm event of April 1979 , 1983 .

[23]  Joseph M. Prospero,et al.  Transport of mineral aerosol from Asia Over the North Pacific Ocean , 1983 .

[24]  W. Zoller,et al.  Asian Dust: Seasonal Transport to the Hawaiian Islands , 1983, Science.

[25]  Roger G. Barry,et al.  Mountain weather and climate , 1982 .

[26]  J. Prospero,et al.  Long-Range Atmospheric Transport of Soil Dust from Asia to the Tropical North Pacific: Temporal Variability , 1980, Science.

[27]  Peter V. Hobbs,et al.  Scavenging of Aerosol Particles by Precipitation , 1980 .

[28]  L. Schütz,et al.  LONG RANGE TRANSPORT OF DESERT DUST WITH SPECIAL EMPHASIS ON THE SAHARA * , 1980 .

[29]  G. Shaw,et al.  The Asian source of Arctic haze bands , 1977, Nature.

[30]  E. M. Patterson,et al.  Commonalities in measured size distributions for aerosols having a soil-derived component , 1977 .

[31]  J. Inoue Climate of Khumbu Himal , 1976 .

[32]  Ruprecht Jaenicke,et al.  Particle Number and Mass Distributions above 10−4 cm Radius in Sand and Aerosol of the Sahara Desert , 1974 .

[33]  H. Windom Atmospheric Dust Records in Permanent Snowfields: Implications to Marine Sedimentation , 1969 .

[34]  W. F. Libby,et al.  Tritium in Mt. Everest ice—Annual glacier accumulation and climatology at great equatorial altitudes , 1965 .

[35]  R. Finsterwalder German Glaciological and Geological Expeditions to the Batura Mustagh and Rakaposhi Range , 1960, Journal of Glaciology.

[36]  P. Mayewski,et al.  Anthropogenic sulfate and Asian dust signals in snow from Tien Shan, northwest China , 1992, Annals of Glaciology.

[37]  S. Jennings,et al.  The efficiency with which drizzle and precipitation sized drops collide with aerosol particles , 1991 .

[38]  J. Jouzel,et al.  Palaeoclimatological and chronological implications of the Vostok core dust record , 1990, Nature.

[39]  J. Prospero Mineral-Aerosol Transport to the North Atlantic and North Pacific: The Impact of African and Asian Sources , 1990 .

[40]  P. Mayewski,et al.  A Review of Central Asian Glaciochemical Data , 1990, Annals of Glaciology.

[41]  M. Nakawo,et al.  Stratigraphic and structural features of ice cores from Chongce Ice Cap, West Kunlun Mountains , 1989 .

[42]  Nick Middleton,et al.  Climatic Controls on the Frequency, Magnitude and Distribution of Dust Storms: Examples from India/Pakistan, Mauritania and Mongolia , 1989 .

[43]  C. Wake Glaciochemical Investigations as a Tool for Determining the Spatial and Seasonal Variation of Snow Accumulation in the Central Karakoram, Northern Pakistan , 1989, Annals of Glaciology.

[44]  E. Mosley‐Thompson,et al.  Climatic Records from the Dunde Ice Cap, China , 1988, Annals of Glaciology.

[45]  N. Barkov,et al.  Aerosol concentrations over the last climatic cycle (160 kyr) from an Antarctic ice core , 1987, Nature.

[46]  K. Pye Aeolian dust and dust deposits , 1987 .

[47]  M. Domrös,et al.  The climate of China , 1987 .

[48]  D. Braaten,et al.  Size and composition of Asian dust transported to Hawaii , 1986 .

[49]  Nick Middleton,et al.  A geography of dust storms in South‐West Asia , 1986 .

[50]  Dongsheng Liu,et al.  Loess and the environment , 1985 .

[51]  P. Mayewski,et al.  Interpretation of the Chemical and Physical Time-Series Retrieved from Sentik Glacier, Ladakh Himalaya, India , 1984, Journal of Glaciology.

[52]  R. Slatt,et al.  Desert Dust: Characteristics and rates of deposition in central Arizona , 1981 .

[53]  R. M. Smith,et al.  Dust Deposition in Relation to Site, Season, and Climatic Variables1 , 1970 .

[54]  C. Junge,et al.  Air chemistry and radioactivity , 1963 .