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Weathering of Basalt: Formation of Iddingsite

Published online by Cambridge University Press:  02 April 2024

Katherine L. Smith ,
Anthony R. Milnes  and
Richard A. Eggleton
Katherine L. Smith
Affiliation:
Department of Physics, New South Wales Institute of Technology, Sydney, New South Wales, Australia
Anthony R. Milnes
Affiliation:
CSIRO Division of Soils, Glen Osmond, South Australia, Australia
Richard A. Eggleton
Affiliation:
Department of Geology, Australian National University, G.P.O. Box 4, Canberra City 2601, Australia
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Abstract

The formation of iddingsite by the oxidative weathering of Fo80 olivine begins by solution of Mg from planar fissures, 20 Å wide and spaced 200 Å apart, parallel to (001). Oxidation of Fe within the remaining olivine provides nuclei for the topotactic growth of goethite. Cleavage cracks < 50 Å in diameter allow Na, Al, and Ca from adjacent minerals, particularly plagioclase, to enter the altering olivine while Mg and Si diffuse away. In the early stages of weathering, strips of Fe-rich smectite (saponite), 20–50 Å wide and 1–7 layers thick, form bridges 50–100 Å long across the planar fissures. Dioctahedral smectite crystallizes on the margins of wider cleavage-controlled fissures; with further weathering halloysite is formed away from the fissure walls. In the ultimate stages of alteration, the saponite and dioctahedral smectite are lost, leaving a porous, oriented aggregate of goethite crystals each measuring about 50 × 100 × 200 Å (X, Y, Z, respectively), with sporadic veins of halloysite crossing the pseudomorph.

Keywords

GoethiteIddingsiteIronOlivineScanning electron microscopyTransmission electron microscopyWeathering
Type
Research Article
Information
Clays and Clay Minerals , Volume 35 , Issue 6 , December 1987 , pp. 418 - 428
Copyright
Copyright © 1987, The Clay Minerals Society

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References

Brown, G. and Stephen, I., 1959 A structural study of iddingsite from New South Wales, Australia Amer. Mineral. 44 251259.Google Scholar
Colman, S. M. (1982) Chemical weathering of basalts and andesites; evidence from weathering rinds: U.S. Geol. Surv. Prof. Pap. 1246, 51 pp.Google Scholar
Deer, W. A., Howie, R. A. and Zussman, J., 1962 Rock-forming Minerals. Vol. 1 London Longmans.Google Scholar
Delvigne, J., Bisdom, E. B. A. Sleeman, J. and Stoops, G., 1979 Olivines, their pseudomorphs and secondary products Pedologie 29 247309.Google Scholar
Eggleton, R. A., 1984 Formation of iddingsite rims on olivine: A transmission electron microscope study Clays & Clay Minerals 32 111.CrossRefGoogle Scholar
Eggleton, R. A., Foudoulis, C. and Varkevisser, D., 1987 Weathering of basalt. Changes in rock chemistry and mineralogy Clays & Clay Minerals 35 161169.CrossRefGoogle Scholar
Eggleton, R. A. and Smith, K. L., 1983 Silicate alteration mechanisms Sci. Geol. Mem. Strasbourg 71 4553.Google Scholar
Gay, P. and Le Maitre, R. W., 1961 Some observations on iddingsite Amer. Mineral. 46 92111.Google Scholar
Ildefonse, P., 1983 Alterations prémétéorique et météorique des olivines du basalte de Belbex (Cantal, France) Sci. Geol. Mem. Strasbourg 12 169 79.Google Scholar
Kohlstedt, D. L. and Vander Sande, J. B., 1975 Anelectron microscopy study of naturally occurring oxidation produced precipitates Contrib. Mineral. Petrol. 53 1324.CrossRefGoogle Scholar
Schwertmann, U., Taylor, R. M., Dixon, J. B. and Weed, S. B., 1987 Iron oxides Minerals in Soil Environments Wisconsin Madison.Google Scholar
Smith, K. L. and Eggleton, R. A., 1983 Botryoidal goethite: A transmission electron microscope study. Clays & Clay Minerals 31 392396.CrossRefGoogle Scholar
Taylor, R. M. and Newman, A. C. D., 1987 Non-silicate oxides and hydroxides The Chemistry of Clays and Clay Minerals London Mineralogical Soc. Monograph, Longmans 129202.Google Scholar
Wilshire, H. G., 1958 Alteration of olivine and orthopy-roxene in basic lavas and shallow intrusions Amer. Mineral. 43 120147.Google Scholar
Wilson, R. E., 1978 Mineralogy, petrology and geochemistry of basalt weathering Australia B.Sc. (H) thesis, LaTrobe University, Melbourne.Google Scholar