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19 - Asia

from Part IV - The earth’s drylands

Published online by Cambridge University Press:  05 November 2011

Sharon E. Nicholson
Sharon E. Nicholson
Affiliation:
Florida State University
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Summary

Introduction

The drylands of Asia have several common denominators: their cold winters (in all but the extreme south), the prevailing influence of the seasonally shifting Asian monsoon system, the westerly disturbances affecting western and central areas, and the role of topography as a major climatic control. These drylands represent a gradual, east–west transition between summer and winter (or Mediterranean) precipitation regimes. The cold winters distinguish them from the subtropical deserts of most other continents, with extremely low temperatures caused by the persistent presence of the Asiatic High and the relatively high latitude of the region. Insolation is low in winter because the days are short and the sun is low on the horizon, while the high promotes radiative cooling in the clear skies and dry air, and also insulates the region from warmer air masses. Temperatures can plunge lower than −50°C.

Dust is another common denominator. As a result of the combined forces of high winds and dry surfaces, Asia is one of the world’s dustiest regions. Even in relatively humid regions the frequency of dusty conditions can be quite high (Fig. 19.1). In most of the dryland regions of Asia the number of days with dust storms averages 5–20 per year. They are less common in more northern areas of the Former Soviet Union, but in parts of central and western Asia the average frequency is as high as 40–80 days per year.

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Dryland Climatology , pp. 351 - 373
Publisher: Cambridge University Press
Print publication year: 2011

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References

Aizen, E. M.Aizen, V. B.Melack, J. M.Dozier, J. 1997 Climatic and hydrologic changes in the Tien Shan, Central AsiaJournal of Climate 10 13932.0.CO;2>CrossRefGoogle Scholar
Aizen, E. M.Aizen, V. B.Melack, J. M.Nakamura, T.Ohta, T. 2001 Precipitation and atmospheric circulation patterns at mid-latitudes of AsiaInternational Journal of Climatology 21 535CrossRefGoogle Scholar
Alijani, B. 1997 Climate of IranPayam Nour UniversityGoogle Scholar
Alijani, B. 2008 Effect of the Zagros Mountains on the spatial distribution of precipitationJournal of Mountain Science 5 218CrossRefGoogle Scholar
Alijani, B.O’Brien, J.Yarnal, B. 2008 Spatial analysis of precipitation intensity and concentration in IranTheoretical and Applied Climatology 94 107CrossRefGoogle Scholar
Aoki, I.Kurosaki, Y.Osada, R.Sato, T.Kimura, F. 2005 Dust storms generated by mesoscale cold fronts in the Tarim Basin, Northwest ChinaGeophysical Research Letters 32 06807CrossRefGoogle Scholar
Arakawa, H. 1969 Climates of Northern and Eastern AsiaElsevier
Arakawa, H.Takahashi, K. 1981 Climates of Southern and Western AsiaElsevier
Barlow, M.Wheeler, M.Lyon, B.Cullen, H. 2005 Modulation of daily precipitation over Southwest Asia by the Madden-Julian OscillationMonthly Weather Review 133 3579CrossRefGoogle Scholar
Breckle, S.-W. 1983 Temperate Deserts and Arid Semi-DesertsElsevierAmsterdam271Google Scholar
Chen, W. N. 1999 Dust fall in the Takla Makan Desert of ChinaPhysical Geography 20 189Google Scholar
Cohen, J.Saito, K.Entekhabi, D. 2001 The role of the Siberian High in Northern Hemisphere climate variabilityGeophysical Research Letters 28 299CrossRefGoogle Scholar
Datta, R. K.George, C. J. 1964
Davenport, S. 2008 Floods threaten AfghanistanWeather 63 86CrossRefGoogle Scholar
Dezfuli, A. K.Karamouz, M.Araghinejad, S. 2009 On the relationship of regional meteorological drought with SOI and NAO over southwest IranTheoretical and Applied Climatology 70Google Scholar
Domroes, M.Peng, G. 1988 The Climate of ChinaSpringerCrossRefGoogle Scholar
Domroes, M.Kaviani, M.Schaefer, D. 1998 An analysis of regional and intra-annual precipitation variability over Iran using multivariate statistical methodsTheoretical and Applied Climatology 61 151CrossRefGoogle Scholar
Elguindi, N.Giorgi, F. 2006 Simulating multi-decadal variability of Caspian Sea level changes using regional climate model outputsClimate Dynamics 26 167CrossRefGoogle Scholar
Evenari, M. 1985 Hot Deserts and Arid ShrublandsEvenari, M.Noy-Meir, I.Goodall, D. W.ElsevierAmsterdamGoogle Scholar
Flohn, H. 1947 Zum Klima des freien Atmosphäre über Siberien. II. Die regionale winterliche InversionMeteorologische Rundschau 1 75Google Scholar
Fukutomi, Y.Masuda, K.Yasunari, T. 2007 Cyclone activity associated with the interannual seesaw oscillation of summer precipitation over northern EurasiaGlobal and Planetary Change 56 387CrossRefGoogle Scholar
Ghahraman, B. 2008 Investigation of annual rainfall trends in IranIranian Journal of Agricultural Science and Technology 10 93Google Scholar
Ghasemi, A. R.Khalili, D. 2006 The influence of the Arctic Oscillation on winter temperatures in IranTheoretical and Applied Climatology 85 149CrossRefGoogle Scholar
Ghasemi, A. RKhalili, D. 2008 The association between regional and global atmospheric patterns and winter precipitation in IranAtmospheric Research 88 116CrossRefGoogle Scholar
Gong, D.-Y.Ho, C.-H. 2002 The Siberian High and climate change over middle to high latitude AsiaTheoretical and Applied Climatology 72 1CrossRefGoogle Scholar
Goyal, R. K. 2004 Sensitivity of evapotranspiration to global warming: a case study of arid zone of Rajasthan (India)Agricultural Water Management 69 1CrossRefGoogle Scholar
Gupta, R. K. 1986 Hot Deserts and Arid ShrublandsEvenari, M.Noy-Meir, I.Goodall, D. W.ElsevierAmsterdamGoogle Scholar
Hirashima, H.Ohata, T.Kodama, Y.Yabuki, H.Sato, N.Georgiadi, A. 2004 Nonuniform distribution of tundra snow cover in Eastern SiberiaJournal of Hydrometeorology 5 3732.0.CO;2>CrossRefGoogle Scholar
Inagamova, S. I.Mukhtarov, T. M.Mukhtarov, T. S. 2002 Characteristics of Synoptic Processes of Central AsiaCentral Asian Hydrometeorological Research InstituteTashkentGoogle Scholar
Kai, K.Coauthors, 2008 The structure of the dust layer over the Taklimakan desert during the dust storm in April 2002 as observed using a depolarization LidarJournal of the Meteorological Society of Japan 86 1CrossRefGoogle Scholar
Kim, H. A.Nagata, Y.Kai, K. 2009 Variation of dust layer height in the northern Taklimakan Desert in April 2002Atmospheric Environment 43 557CrossRefGoogle Scholar
Kripalani, R. H.Kulkarni, A. 1999 Climatology and variability of historical Soviet snow depth data: some new perspectives in snow–Indian monsoon teleconnectionsClimate Dynamics 15 475CrossRefGoogle Scholar
Liu, M.Westphal, D. L.Holt, T. R.Xu, Q. 2000 Numerical simulation of a low-level jet over complex terrain in southern IranMonthly Weather Review 128 13092.0.CO;2>CrossRefGoogle Scholar
Lydolph, P. E. 1977 Climates of the Soviet UnionAmsterdamGoogle Scholar
Mariotti, A. 2007 How ENSO impacts precipitation in southwest central AsiaGeophysical Research Letters 34 16706CrossRefGoogle Scholar
Martyn, D. 1992 Climates of the WorldElsevierAmsterdamGoogle Scholar
Meigs, P. 1957
Mikami, M.Fujitani, T.Zhang, X. M. 1995 Basic characteristics of meteorological elements and observed local wind circulation in Taklimakan Desert, ChinaJournal of the Meteorological Society of Japan 733 899CrossRefGoogle Scholar
Mikami, M.Fujitani, T.Zhang, X. M. 1995 Long-term meteorological observation in Taklimakan Desert, ChinaJournal of Arid Land Studies 4 103Google Scholar
Modarres, R. 2006 Regional precipitation climates of IranJournal of Hydrology 45 13Google Scholar
Natsagdorj, L.Jugder, D.Chung, Y. S. 2003 Analysis of dust storms observed in Mongolia during 1937–1999Atmospheric Environment 37 1401CrossRefGoogle Scholar
Nazemosadat, M. J.Cordery, I. 2000 On the relationships between ENSO and autumn rainfall in IranInternational Journal of Climatology 20 473.0.CO;2-P>CrossRefGoogle Scholar
Orlovsky, L.Orlovsky, N.Durdyev, A. 2005 Dust storms in TurkmenistanJournal of Arid Environments 60 83CrossRefGoogle Scholar
Pagano, T. C.Mahani, S.Nazemosadat, M. J.Sorooshian, S. 2003 Review of Middle Eastern hydroclimatology and seasonal teleconnectionsIranian Journal of Science and Technology, Transaction B 27 1Google Scholar
Pramanik, S. K.Hariharan, S. P.Ghosh, S. K. 1952 Analysis of the climate of the Rajasthan desert and its extensionIndian Journal of Meteorology and Geophysics 3 131Google Scholar
Rahimzadeh, F.Asgari, A.Fattahi, E. 2009 Variability of extreme temperature and precipitation in Iran during recent decadesInternational Journal of Climatology 29 329CrossRefGoogle Scholar
Ramaswamy, C. 1975 Environmental Analysis of the Thar DesertEnglish Book DepotDehradunGoogle Scholar
Rao, Y. P. 1981 Climates of Southern and Western AsiaArakawa, H.K. Takahashi, eds.World Survey of ClimatologyElsevier, Amsterdam67Google Scholar
Raziei, T.Bordi, I.Pereira, L. S. 2008 A precipitation-based regionalization for Western Iran and regional drought variabilityHydrology and Earth System Sciences 12 1309CrossRefGoogle Scholar
Raziei, T.Saghafian, B.Paulo, A. A.Pereira, L. S.Bordi, I. 2009 Spatial patterns and temporal variability of drought in Western IranWater Resources Management 23 439CrossRefGoogle Scholar
Sato, T.Coauthors, 2007 Water sources in semiarid northeast Asia as revealed by field observations and isotope transport modelJournal of Geophysical Research 112 17112CrossRefGoogle Scholar
Schiemann, R.Lüthi, D.Vidale, P. L.Schär, C. 2008 The precipitation climate of Central Asia: intercomparison of observational and numerical data sources in a remote semiarid regionInternational Journal of Climatology 28 295CrossRefGoogle Scholar
Seino, N.Coauthors, 2005 Numerical simulation of mesoscale circulations in the Tarim Basin associated with dust eventsJournal of the Meteorological Society of Japan 83A 205CrossRefGoogle Scholar
Sun, B.Groisman, P. Y. 2000 Cloudiness variations over the former Soviet UnionInternational Journal of Climatology 20 10973.0.CO;2-5>CrossRefGoogle Scholar
Syed, F. S.Giorgi, F.Pal, J. S.King, M. P. 2006 Effect of remote forcings on the winter precipitation of central southwest Asia. Part 1. ObservationsTheoretical and Applied Climatology 86 147CrossRefGoogle Scholar
Takemi, T.Seino, N. 2005 Dust storms and cyclone tracks over the arid regions in east Asia in springJournal of Geophysical Research–Atmospheres 110 18S11CrossRefGoogle Scholar
Tsunematsu, N.Sato, T.Kimura, F.Kai, K.Kurosaki, Y.Nagai, T.Zhou, H. F.Mikami, M. 2005 Extensive dust outbreaks following the morning inversion breakup in the Taklimakan DesertJournal of Geophysical Research–Atmospheres 110 21207CrossRefGoogle Scholar
Uno, I.Harada, K.Sataske, S.Hara, Y.Wang, Z. F. 2005 Meteorological characteristics and dust distribution of the Tarim Basin simulated by the nesting RAMS/CFORS dust modelJournal of the Meteorological Society of Japan 83A 219CrossRefGoogle Scholar
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam3
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O. 1983 West, N. E.ElsevierAmsterdam
Walter, H.Box, E. O.Hilbig, W. 1983 West, N. E.ElsevierAmsterdam
Wang, W. C.Li, K. R. 1990 Precipitation fluctuation over semiarid region in northern China and the relationship with El-Niño Southern OscillationJournal of Climate 3 7692.0.CO;2>CrossRefGoogle Scholar
Warner, T. T. 2004 Desert MeteorologyCambridge University PressCambridgeCrossRefGoogle Scholar
Wu, G. X.Coauthors, 2007 The influence of mechanical and thermal forcing by the Tibetan plateau on Asian climateJournal of Hydrometeorology 8 770CrossRefGoogle Scholar
Yang, Q.Wei, W. S.Li, J. 2008 Temporal and spatial variation of atmospheric water vapor in the Taklimakan Desert and its surrounding areasChinese Science Bulletin 53 71Google Scholar
Yatagai, A.Yasunari, T. 1995 Interannual variations of summer precipitation in the arid/semi-arid regions in China and Mongolia: their regionality and relation to the Asian summer monsoonJournal of the Meteorological Society of Japan 73 909CrossRefGoogle Scholar
Ye, H. 2001 Characteristics of winter precipitation variations over northern central Eurasia and their connections to sea surface temperatures over the Atlantic and Pacific OceansJournal of Climate 14 31402.0.CO;2>CrossRefGoogle Scholar
Yihui, D.Zunya, W. 2008 A study of rainy seasons in ChinaMeteorology and Atmospheric Physics 100 121CrossRefGoogle Scholar
Zeng, B.Yang, T.-B. 2008 Impacts of climate warming on vegetation in Qaidam Area from 1990 to 2003Environmental Monitoring and Assessment 144 403CrossRefGoogle ScholarPubMed
Zhang, Q.Song, L.Huang, R.Wei, G.Wang, S.Tian, H. 2003 Characteristics of hydrologic transfer between soil and atmosphere over Gobi near Oasis at the end of summerAdvances in Atmospheric Sciences 20 442CrossRefGoogle Scholar
Zu, R.Xue, X.Qiang, M.Yang, B.Qu, J.Zhang, K. 2008 Characteristics of near-surface wind regimes in the Taklimakan Desert, ChinaGeomorphology 96 39CrossRefGoogle Scholar

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  • Asia
  • Sharon E. Nicholson, Florida State University
  • Book: Dryland Climatology
  • Online publication: 05 November 2011
  • Chapter DOI: https://doi.org/10.1017/CBO9780511973840.024
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  • Asia
  • Sharon E. Nicholson, Florida State University
  • Book: Dryland Climatology
  • Online publication: 05 November 2011
  • Chapter DOI: https://doi.org/10.1017/CBO9780511973840.024
Available formats
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  • Asia
  • Sharon E. Nicholson, Florida State University
  • Book: Dryland Climatology
  • Online publication: 05 November 2011
  • Chapter DOI: https://doi.org/10.1017/CBO9780511973840.024
Available formats
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