Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-29T23:05:22.800Z Has data issue: false hasContentIssue false
  • English
  • Français

Experiments on the Decomposition of Silicates and Discussion of Chemical Weathering

Published online by Cambridge University Press:  01 January 2024

Carl W. Correns
Carl W. Correns*
Affiliation:
Universität Göttingen, Göttingen, Germany
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.

Experimental investigations of chemical weathering in which powders of potassium feldspar, albite, leucite, muscovite, tremolite, olivine, and volcanic glass are treated with pure water and with dilute solutions of sulfuric, carbonic, and hydrochloric acid have been performed in an apparatus in which the mineral powder is exposed to a circulating water flow. The experiments have been continued recently by treating kaolinite and montmorillonite. The course of decomposition of these minerals depends on water flow rate, grain size, temperature, and pH of the solutions. These experiments in open systems are compared with investigations reported in the literature and with the conditions of natural weathering.

Type
General Sessions
Information
Clays and Clay Minerals (National Conference on Clays and Clay Minerals) , Volume 10 , February 1961 , pp. 443 - 459
Copyright
Copyright © Clay Minerals Society 1961

References

Andersson, L. H. and Lindquist, B. (1956) Some experiments on the interaction between feldspars and salt solutions: Geol. Foren. Forhandl., Bd. 78, Heft 3.CrossRefGoogle Scholar
Armstrong, L. C. (1940) Decomposition and alteration of feldspars and spodumene by water: Arner. Min., v. 25, pp. 810820.Google Scholar
Bakker, J. P. (1959) Recherches néerlandaises de géomorphologie appliquée: Revue de Géomorphologie Dynamique, 10 Jg., No. 5/6-11/12, pp. 6784.Google Scholar
Bakker, J. P. (1960) Some observations in connection with recent Dutch investigations about granite weathering and slope development in different climates and climate changes: Z. für Geomorphologie, Supplementband 1, Morphologie des versants, pp. 6992.Google Scholar
Bieger, Th. (1952) Uber Verwitterungsversuche am Albit: Dissertation, Göttingen.Google Scholar
Böhmeke, A. (1946) Untersuchungen über die Verwitterung des Muscovit: Dissertation, Göttingen.Google Scholar
Bolter, E. (1961) Uber Zersetzungsprodukte von Olivin-Feldspatbasalten: Beiträge zur Min. u. Petrogr., Bd. 8, Heft 2, pp. 110140.Google Scholar
Brindley, G. W. and Radoslovich, E. W. (1956) X-ray studies of the alteration of soda feldspar: in Clays and Clay Minerals, Nat. Acad. Sci-Nat. Res. Council pub. 456, pp. 330336.Google Scholar
Correns, C. W. and Engelhardt, W. v. (1938) Neue Untersuchungen über die Verwitterung des Kalifeldspates: Chemie der Erde, Bd. 12, pp. 122.Google Scholar
Correns, C. W. (1940) Die chemische Verwitterung der Silikate: Die Naturwissenschaften, Jg. 28, Heft 24, pp. 369376.CrossRefGoogle Scholar
Echle, W. (1961) Mineralogische Untersuchungen an Sedimenten des Steinmergel- keupers und der Roten Wand aus der Umgebung von Göttingen: Beiträge zur Min. u. Petrogr., Bd. 8, pp. 2859.Google Scholar
Garrels, R. M. and Howard, Peter (1959) Relations of feldspar and mica with water at low temperature and pressure: in Clays and Clay Minerals, 6th Conf., Pergamon Press, New York, pp. 6888.Google Scholar
Hemley, J. J. (1959) Some mineralogical equilibria in the system K2O-Al2O3-SiO2-H2O: Amer. J. Sci., v. 257, pp. 241270.CrossRefGoogle Scholar
Hoppe, Hans Joachim (1947) Verwitterungsversuche am Olivin: Dissertation, Göttingen.Google Scholar
Hoppe, Hans-Jürgen (1941) Untersuchungen an Palagonittuffen und über ihre Bildungsbedingungen: Chemie der Erde, Bd. 13, pp. 484514.Google Scholar
Krüger, G. (1939) Verwitterungsversuche am Leuzit: Chemie der Erde, Bd. 12, pp. 236264.Google Scholar
Morey, G. W. and Chen, W. T. (1955) The action of hot water on some feldspars: Amer. Min., v. 40, pp. 9961000.Google Scholar
Nordmeyer, H. (1959) Mineralogische Untersuchungen an drei Bodenprofilen: auf Zechsteinletten, Unterem Buntsandstein und Zechsteindolomit: Beiträge zur Min. u. Petrogr., Bd. 7, pp. 144.Google Scholar
Raupach, M. (1960) Aluminium ions in aluminium hydroxide, phosphate and soil water. Systems A10Ha+, Al(OH)2+, Al3(OH)72+: Nature, v. 188, p. 1049.CrossRefGoogle Scholar
Rimšaite, J. (1957) Uber die Eigenschaften der Glimmer in den Sanden und Sandsteinen: Beiträge zur Min. u. Petrogr., Bd. 6, pp. 151.Google Scholar
Sigvaldason, G. E. (1959) Mineralogische Untersuchungen über Gesteinzersetzung durch postvulkanisehe Aktivität in Island: Beiträge zur Min. u. Petrogr., Bd. 6, pp. 405426.Google Scholar
Turm, W. (1940) Untersuchungun über die Verwitterung des Tremolit: Chemie der Erde, Bd. 12, pp. 275303.Google Scholar
Winslow, C. E. A. and Fleeson, E. H. (1926) Der Einfluss von Elektrolyten auf die elektrophoretische Wanderung von Bakterien und Hefezellen: J. Gen. Physiol., Baltimore, v. 8, p. 195.CrossRefGoogle Scholar