Hawthorne, F. C., Schindler, M., Abdu, Y., Sokolova, E., Evans, B. W., Ishida, K. (2008) The crystal chemistry of the gedrite-group amphiboles. II. Stereochemistry and chemical relations. Mineralogical Magazine, 72 (3) 731-745 doi:10.1180/minmag.2008.072.3.731
Reference Type | Journal (article/letter/editorial) | ||
---|---|---|---|
Title | The crystal chemistry of the gedrite-group amphiboles. II. Stereochemistry and chemical relations | ||
Journal | Mineralogical Magazine | ||
Authors | Hawthorne, F. C. | Author | |
Schindler, M. | Author | ||
Abdu, Y. | Author | ||
Sokolova, E. | Author | ||
Evans, B. W. | Author | ||
Ishida, K. | Author | ||
Year | 2008 (June) | Volume | 72 |
Page(s) | 731-745 | Issue | 3 |
Publisher | Mineralogical Society | ||
DOI | doi:10.1180/minmag.2008.072.3.731Search in ResearchGate | ||
Mindat Ref. ID | 243921 | Long-form Identifier | mindat:1:5:243921:5 |
GUID | 1449b2a3-ea7c-4118-9b9e-ae12933bea65 | ||
Full Reference | Hawthorne, F. C., Schindler, M., Abdu, Y., Sokolova, E., Evans, B. W., Ishida, K. (2008) The crystal chemistry of the gedrite-group amphiboles. II. Stereochemistry and chemical relations. Mineralogical Magazine, 72 (3) 731-745 doi:10.1180/minmag.2008.072.3.731 | ||
Plain Text | Hawthorne, F. C., Schindler, M., Abdu, Y., Sokolova, E., Evans, B. W., Ishida, K. (2008) The crystal chemistry of the gedrite-group amphiboles. II. Stereochemistry and chemical relations. Mineralogical Magazine, 72 (3) 731-745 doi:10.1180/minmag.2008.072.3.731 | ||
Abstract/Notes | AbstractThe general formula of the amphiboles of this series may be written as NaxMg2(Mg(5-y)Aly,)(Si(8-z)Alz)O22(OH)2, where Mg = Mg + Fe2+ + Mn2+ and Al = Al + Fe3+ + Ti. The individual <T–O> distances are linear functions of their [4]Al content, and the [4]Al content is strongly ordered in the following way: T1B > T1A » T2B » T2A. The <M1-O>, <M2-O> and <M3–O> distances are linear functions of the mean ionic radius of their constituent cations. End-member compositions may be written as follows: A☐Mg2Mg5Si8O22(OH)2O22(OH)2; A☐Mg2(Mg3Al2)(Si6Al2)O22(OH)2; ANaMg2Mg5(Si7Al) These compositions define a plane in xyz space across which the data of Schindler et al. (2008), measured on amphiboles from amphibolites, follow a tightly constrained trajectory. Anthophyllite–gedrite amphiboles equilibrated under significantly different P-T conditions (e.g. igneous rocks, contact-metamorphic rocks) follow trends that diverge from this trajectory, with greater Na and [4]Al contents and relatively smaller [6]Al contents. Detailed examination of the local bond topology involving the A and M2 sites indicates that the maximum degree of bond-valence compensation will occur for incorporation of ANa and M2Al in the ratio 4:10, and hence 2.5 ANa = M2Al in these amphiboles. This relation closely fits the data of Schindler et al. (2008), suggesting that the variation in chemical composition in anthophyllite–gedrite amphiboles is strongly constrained by the anion bond-valence requirements of the Pnma amphibole structure. We further suggest that different compositional trends for ortho-amphiboles equilibrated under different P-T conditions are the result of the valence-sum rule operating with (different) bond-lengths characteristic of these P-T conditions. |
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