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Putnis, A. (2002) Mineral replacement reactions: from macroscopic observations to microscopic mechanisms. Mineralogical Magazine, 66 (5) 689-708 doi:10.1180/0026461026650056

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Reference TypeJournal (article/letter/editorial)
TitleMineral replacement reactions: from macroscopic observations to microscopic mechanisms
JournalMineralogical Magazine
AuthorsPutnis, A.Author
Year2002 (October)Volume66
Issue5
PublisherMineralogical Society
DOIdoi:10.1180/0026461026650056Search in ResearchGate
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Mindat Ref. ID243379Long-form Identifiermindat:1:5:243379:4
GUID0
Full ReferencePutnis, A. (2002) Mineral replacement reactions: from macroscopic observations to microscopic mechanisms. Mineralogical Magazine, 66 (5) 689-708 doi:10.1180/0026461026650056
Plain TextPutnis, A. (2002) Mineral replacement reactions: from macroscopic observations to microscopic mechanisms. Mineralogical Magazine, 66 (5) 689-708 doi:10.1180/0026461026650056
Abstract/NotesAbstractMineral replacement reactions take place primarily by dissolution-reprecipitation processes. Processes such as cation exchange, chemical weathering, deuteric alteration, leaching, pseudomorphism, metasomatism, diagenesis and metamorphism are all linked by common features in which one mineral or mineral assemblage is replaced by a more stable assemblage. The aim of this paper is to review some of these aspects of mineral replacement and to demonstrate the textural features they have in common, in order to emphasize the similarities in the underlying microscopic mechanisms. The role of volume change and evolution of porosity is explored both from natural microtextures and new experiments on model replacement reactions in simple salts. It is shown that the development of porosity is often a consequence of mineral replacement processes, irrespective of the relative molar volumes of parent and product solid phases. The key issue is the relative solubility of the phases in the fluid phase. Concepts such as coupled dissolution-precipitation, and autocatalysis are important in understanding these processes. Some consequences of porosity generation for metamorphic fluid flow as well as subsequent crystal growth are also discussed.

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Salje, E. K. H., Ríos, S. (2002) Mineral physics: the atomic, mesoscopic and macroscopic perspective. Mineralogical Magazine, 66 (5) 733-744 doi:10.1180/0026461026650058
Janssen, A., Putnis, A., Geisler, T., Putnis, C. V. (2010) The experimental replacement of ilmenite by rutile in HCl solutions. Mineralogical Magazine, 74 (4) 633-644 doi:10.1180/minmag.2010.074.4.633
Kasioptas, A., Perdikouri, C., Putnis, C. V., Putnis, A. (2008) Pseudomorphic replacement of single calcium carbonate crystals by polycrystalline apatite. Mineralogical Magazine, 72 (1) 77-80 doi:10.1180/minmag.2008.072.1.77
Agudo, E. Ruiz, Putnis, C. V. (2012) Direct observations of mineral fluid reactions using atomic force microscopy: the specific example of calcite. Mineralogical Magazine, 76 (1) 227-253 doi:10.1180/minmag.2012.076.1.227
Baronnet, A., Belluso, E. (2002) Microstructures of the silicates: key information about mineral reactions and a link with the Earth and materials sciences. Mineralogical Magazine, 66 (5) 709-732 doi:10.1180/0026461026650057
Irifune, T. (2002) Application of synchrotron radiation and Kawai-type apparatus to various studies in high-pressure mineral physics. Mineralogical Magazine, 66 (5) 769-790 doi:10.1180/0026461026650060
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Koeberl, C. (2002) Mineralogical and geochemical aspects of impact craters. Mineralogical Magazine, 66 (5) 745-768 doi:10.1180/0026461026650059
Parsons, I. (2002) Mineralogy for the new millennium. Mineralogical Magazine, 66 (5) 625 doi:10.1180/0026461026650052
Pring, A., Etschmann, B. (2002) HRTEM observations of structural and chemical modulations in cosalite and its relationship to the lillianite homologues. Mineralogical Magazine, 66 (3) 451-458 doi:10.1180/0026461026630041
Furukawa, Y. (1994) Replacement Mechanisms Among Iron Sulphide Minerals. Mineralogical Magazine, 58 (1) 299-300 doi:10.1180/minmag.1994.58a.1.157
 
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