Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-17T14:51:30.310Z Has data issue: false hasContentIssue false
  • English
  • Français

Mineralogy of Al-Hasa Desert Soils (Saudi Arabia)

Published online by Cambridge University Press:  01 July 2024

Mansur M. Aba-Husayn  and
Antoine H. Sayegh
Mansur M. Aba-Husayn
Affiliation:
Department of Soils, College of Agriculture, University of Riyad, Saudi Arabia
Antoine H. Sayegh
Affiliation:
Department of Soils and Irrigation, American University of Beirut, Beirut, Lebanon
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

X-ray mineralogical examination of the 2–20 μm fraction of oriented samples from a highly calcereous swamp soil and neighbouring Mio-Pliocene strata in Al-Hasa showed a wide range in mineralogy: attapulgite, illite, montmorillonite, chlorite and kaolinite, in decreasing order. Powder X-ray diffraction revealed an abundance of attapulgite, calcite, quartz and in a few samples, traces of dolomite, Fe-oxides, feldspars and gypsum.

The soils are believed to have been formed by deposition of highly calcareous wind-borne silt particles in an already formed swamp. The surface and subsurface horizons are underlain by an organic residue layer, 30–50 cm thick, containing 14–36% organic matter. The whole profile sits on hard, impervious, sedimentary layers that mineralogically resemble some strata of the outcrop.

Attapulgite and illite are the most abundant and common clay minerals in the soils and strata, but are most pronounced in the latter. Attapulgite not only occurs in Al-Hasa, but is widely distributed in the Arabian Peninsula; from east of the Mediterranean through the deserts of Syria and Iraq down to eastern Saudi Arabia, where it occurs only in association with limestone parent material. In this area of extreme aridity (Al-Hasa), the origin of the minerals and their relative abundance is believed to be associated with the source of sediment since minimum alteration seems to have taken place after deposition.

Type
Research Article
Information
Clays and Clay Minerals , Volume 25 , Issue 2 , April 1977 , pp. 138 - 147
Copyright
Copyright © Clay Minerals Society 1977

References

Caillere, S. and Henin, S. (1961) Sepiolite and palygorskite: in X-ray Identification and Crystal Structure of Clay Minerals (Edited by Brown, G.) . Mineralogical Society, London.Google Scholar
Grim, R. W. (1968) Clay Mineralogy: McGraw-Hill, New York.Google Scholar
Jackson, M. L. (1956) Soil Chemical Analysis—Advanced Course: Published by the author, Dept of Soil Science, University of Wisconsin, Madison.Google Scholar
Jackson, M. L. (1964) Soil clay mineralogical analysis: in Soil Clay Mineralogy (Edited by Rich, C. I. and Kunze, G. W.) . The University of North Carolina Press, Chapel Hill.Google Scholar
McLean, S. A., Allen, B. L. and Craig, J. R. (1972) The occurrence of sepiolite and attapulgite on the Southern High Plains: Clays & Clay Minerals 20, 143149.CrossRefGoogle Scholar
Millot, G. (1970) Geology of Clays: Springer Verlag, New York.CrossRefGoogle Scholar
Mitchel, R. C. (1957) Notes on the geology of Western Iraq and Northern Saudi Arabia: Geol. Rundschau 46(2), 476493.CrossRefGoogle Scholar
Muir, A. (1951) Notes of Syrian soils: J. Soil. Sci. 2, 163183.CrossRefGoogle Scholar
Mumpton, F. A. and Roy, R. (1958) New data on sepiolite and attapulgite: Clays and Clay Minerals, National Academy of Science. National Research Council, 566, 136143.Google Scholar
Parry, W. T. and Reeves, C. C. (1968) Clay mineralogy of pluvial lake sediments, Southern High Plains, Texas: J. Sediment. Petrol. 38, 516519.Google Scholar
Powers, R. W., Ramirez, L. F., Redmond, C. D. and Elberg, E. L. (1963) Geology of the Arabian Peninsula: sedimentary geology of Suadi Arabia. Geol. Survey Professional Paper 560D pp. D93D94.Google Scholar
Sayegh, A. H., Alban, L. A. and Paterson, R. C. (1958) A sampling study in a saline and alkali area: Soil Sci. Soc. Am. Proc. 22(3), 252254.CrossRefGoogle Scholar
Saxon, A. (1968) Situation of the Irrigated Agriculture in the Eastern Province of Saudi Arabia: Saudi German Research, Publication No. 1, Riyadh.Google Scholar
Stewart, D. and The Editors of Life (1962) The Arab World: Time Inc., New York.Google Scholar
Theisen, A. A. and Harward, M. E. (1962) A paste method for the preparation of slides for clay mineral identification by X-ray diffraction: Soil Sci. Soc. Am. Proc. 26, 9091.CrossRefGoogle Scholar
Vanden Heuvel, R. C. (1966) The occurrence of sepiolite and attapulgite in the calcareous zone of a soil near Las Cruses, New Mexico: Clays & Clay Minerals 13, 193207.Google Scholar