Hostname: page-component-848d4c4894-pftt2 Total loading time: 0 Render date: 2024-06-02T13:50:57.426Z Has data issue: false hasContentIssue false
  • English
  • Français

Quaternary Deposits in Southwestern Afghanistan

Published online by Cambridge University Press:  20 January 2017

George I. Smith
George I. Smith*
Affiliation:
U.S. Geological Survey, 345 Middlefield Road, Menlo Park, California 94025 USA.
Get access Rights & Permissions [Opens in a new window]

Abstract

Geologic evidence in the closed Seistan Basin of southwestern Afghanistan and adjacent parts of Iran and Pakistan indicates that a lake as much as 65,000 sq km in size occupied this closed depression during Pleistocene time. The deposits consist mostly of lacustrine silt and clay and have a maximum observed thickness of about 250 m. A layer of alluvial gravels overlies the sequence. The deposits are probably early or middle Pleistocene in age; they are old enough to have sustained nearly 300 m of erosion over large areas but are not faulted or detectably folded in the central part of the basin although they are upwarped along the west edge of the basin.

Sand dunes cover extensive areas of the basin. Dune orientation shows that the strong surface winds enter the basin blowing toward the south-southeast and then are deflected to the east, apparently as a response to mountains bordering the basin on its south side. The Gawdezereh, a large deflation depression, may be a result of an augmented excavation ability of winds that occurs where turbulence is created along a zone of deflection.

Type
Original Articles
Information
Quaternary Research , Volume 4 , Issue 1 , March 1974 , pp. 39 - 52
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

Blaney, H.F., (1957). Evaporation study at Silver Lake in the Mojave Desert, California. American Geophysical Union Transactions 38, 209215.Google Scholar
Bloom, A.L., Broecker, W.S., Chappell, J.M.A., Matthews, R.K., Mesolella, K.J., (1972). New Uranium-Series Dates from the Emerged Reef Terraces on Huon Peninsula, New Guinea. International Association Quaternary Research 11, 12.Google Scholar
Bobek, H., (1963). Nature and Implications of Quaternary Climatic Changes in Iran. Symposium on Changes of Climates. Rome, Oct. 1961UNESCO-WMO 403413.Google Scholar
Brigham, R.H., (1964). Compilation of Hydrologic Data Helmand River Valley, Afghanistan through September 1960. 236U.S. Geol. Survey Open-File Report.Google Scholar
Crittenden, M.D. Jr., (1963). Effective viscosity of the earth derived from isostatic loading of Pleistocene Lake Bonneville. Journal Geophysical Research 68, 55175530.Google Scholar
Dales, G.F., (1971). Early human contacts from the Persian Gulf through Baluchistan and southern Afghanistan. McGinnies, W.G., Goldman, B.J., Paylore, Patricia, Food, Fiber and the Arid Lands Arizona Univ. Press, Tucson, Arizona 145170.Google Scholar
Dresch, M.J., (1968). Reconnaissance dans le Lut (Iran). Association Geographes Francais Bull., Nos. 362–363 143153.CrossRefGoogle Scholar
Förstner, Ulrich, (1973). Petrographische und geochemische Untersuchungen an afghanischen Endseen. Petrographic and geochemical studies of closed lakes in AfghanistanNeues Jahrb. Mineralogie Abh. 118, 268312.Google Scholar
Gabriel, A., (1957). Ein Beitrag zur Gleiderung und Land Schaftskunde des innerpersischen Wustengurtels. Geogr. Gesell. Wien Festschrift z. Hundertjahrfeirer 265298.Google Scholar
German Geological Mission in Afghanistan(1964). Geological map of Afghanistan, central and south part. Federal Republic of Germany Geol. Survey (Bundesanstalt fur Bodenforschung), and Kabul, Afghanistan Geol. and Mineral Survey, scale 1:1,000,000 [compilers].Google Scholar
Hicks, S.D., Shofnos, William, (1965). The determination of land emergence from sea level observations in southeast Alaska. Journal Geophysical Research 70, 33153320.CrossRefGoogle Scholar
Hughes, G.H., (1967). Analysis of techniques used to measure evaporation from Salton Sea, California. U.S. Geol. Survey Professional Paper 272-H H151H176.Google Scholar
Huntington, Ellsworth, (1905). The basin of Eastern Persia and Sistan. Explorations in Turkestan 1903. Carnegie Institute, Washington, DC 219317under the Direction of Raphael Pumpelly.Google Scholar
Kohler, M.A., (1958). Water-loss investigations: Lake Mead studies. U.S. Geol. Survey Professional Paper 298 .Google Scholar
Krinsley, D.B., (1970). A geomorphological and paleoclimatological study of the playas of Iran. U.S. Air Force Cambridge Research Lab 1329Pt. 1Krinsley, D.B., A geomorphological and paleoclimatological study of the playas of Iran 330486Pt. 2.Google Scholar
Langbein, W.B., (1961). Salinity and hydrology of closed lakes. U.S. Geol. Survey Professional Paper 412 .Google Scholar
Linchevsky, A., Prozorovsky, A.V., (1949). The basic principles of the distribution of the vegetation of Afghanistan. Kew Bulletin 2, 179214(trans. by Shaw, H. K. A.).Google Scholar
Lustig, L.K., (1968). Appraisal of research on geomorphology and surface hydrology of desert environments. McGinnies, W.G., Goldman, B.J., Paylore, Patricia, Deserts of the World Univ. Arizona Press, Tucson 95283.Google Scholar
Pias, J., (1972a). Significantion géologique, pédologique et paléoclimatique de formations paléolacustres et deltaïques au Séistan (Afghanistan méridional). Geologic, pedologic and paleoclimatic significance of paleolacustrine and deltaic formations of Seistan (southern Afghanistan)Acad. Sci. [Paris] Comptes Rendus 279, 11431146Série D.Google Scholar
Pias, J., (1972b). Sols d'Afghanistan: Pédogenèses anciennes et actuelles. Soils of Afghanistan: genesis of ancient and past soilsRev. Géographie Phys. et Geologie Dynam 14, 433442.Google Scholar
Plafker, George, (1969). Tectonics of the March 27, 1964 Alaska earthquake. The Alaska earthquake, March 27, 1964. Regional effects. U.S. Geol. Survey Professional Paper 543-I .Google Scholar
Reitan, C.H., Green, C.R., (1968). Appraisal of research on weather and climate of desert environments. McGinnies, W.G., Goldman, B.J., Paylore, Patricia, Deserts of the World Univ. Arizona Press, Tucson 2192.Google Scholar
Schreiber, Alfred, Weippert, Dietrich, Wittekindt, Hans-Peter, Wolfart, Reinhard, (1972). Geology and petroleum potentials of central and south Afghanistan. American Association Petroleum Geologists Bulletin 56, 14941519.Google Scholar
Smith, G.I., (1966). Geology of Searles Lake—A guide to prospecting for buried continental salines. Rau, J.L., Second Symposium on Salt Vol. 1, Northern Ohio Geological Society, Cleveland, Ohio 167180.Google Scholar
Smith, G.I., (1968). Late-Quaternary geologic and climatic history of Searles Lake, southeastern California. Means of Correlation of Quaternary Successions Vol. 8, Utah Univ. Press, Salt Lake City 293310Proc. VII, Congress International Association for Quaternary Research.Google Scholar
Smith, G.I., (1973). Potash and other evaporite resources of Afghanistan. U.S. Geological Survey Project Report 62Afghanistan Invest.Google Scholar
Smith, G.I., Pratt, W.P., (1957). Core logs from Owens, China, Searles, and Panamint Basin, California. U.S. Geological Survey Bulletin 1045-A.Google Scholar
Snyder, C.T., Langbein, W.B., (1962). The Pleistocene lake in Spring Valley, Nevada, and its climatic implications. Journal Geophysical Research 67, 23852394.Google Scholar
Stratil-Sauer, G., (1957). Die pleistozanen Ablagerungen im Inneren der Wuste Lut. Geogr. Gesell. Wien Festschrift z. Hundertjahrfeier 460484.Google Scholar
U.S. Air Force(1970). Operational Navigation Chart H-7. Edition 5 Aeronautical Chart and Information Center, St. Louis, Moscale 1:1,000,000.Google Scholar
Volk, O.H., (1954). Klima und pflanzen-verbeitung in Afghanistan. Climate and plant distribution in AfghanistanVegetatio 6, 422433.Google Scholar
Walcott, R.I., (1972). Late Quaternary vertical movements in eastern North America: Quantitative evidence of Glacio-Isostatic rebound. Reviews of Geophys. and Space Physics 10, 849884.CrossRefGoogle Scholar
Weippert, Dietrich, Wittekindt, Hans-Peter, Wolfart, Reinhard, (1970). Zur geologischen Entwicklung von Zentral und Sudafghanistan. Beihefte zum Geologischen Jahrbuch 92, 99.Google Scholar