C2/c pyroxene from two alkaline sodic suites (Western Ross Embayment – Antarctica): crystal chemical characterization and its petrologic significance
Autor: | E.M. Piccirillo, Gabriella Salviulo, Paolo Antonini, L. Secco |
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Rok vydání: | 1997 |
Předmět: |
010504 meteorology & atmospheric sciences
Chemistry Mineralogy Pyroxene 010502 geochemistry & geophysics Alkali metal 01 natural sciences Crystal Petrography Bond length Crystallography Geochemistry and Petrology Group (periodic table) Formula unit X-ray crystallography 0105 earth and related environmental sciences |
Zdroj: | Mineralogical Magazine. 61:423-439 |
ISSN: | 1471-8022 0026-461X |
DOI: | 10.1180/minmag.1997.061.406.08 |
Popis: | Two C2/c pyroxene suites from sodic alkaline rocks (Basanite-Phonolite: B-Ph and Alkali basalt-Trachyphonolite: AB-T) belonging to the McMurdo Volcanic Group (Mt. Melbourne province and Mt. Erebus, Antarctica) were investigated by single-crystal X-ray diffraction combined with electron probe microanalysis which together provide accurate site occupancy and site configuration parameters. Variations in site volumes distinguish the clinopyroxenes belonging to the more alkaline B-Ph suite from those of the AB-T suite. The former have higher VM2 and, for similar cell volume, lower VM1 and higher VT. In these C2/c pyroxenes, the bond lengths of M1 depend on R3+ content, necessary to balance AlIV in the T site. M1 geometric variations are similar for both B-Ph and AB-T suites. However, the M2 site is crucial for variations in polyhedral configurations. The increase in AlIV affects the shortest M2-O bond lengths in different ways depending on (Ca+Na) contents in the M2 site. Thus, the clinopyroxenes were distinguished in two different groups not related to the two suites. The first group is characterized by (Ca+Na) higher than 0.90 atoms per formula unit but shows a good positive correlation between the shortest M2-O bond lengths and AlIV content, at quite constant (Ca+Na). The second group has (Ca+Na) less than 0.90 atoms per formula unit but shows a poor correlation between the shortest M2-O bond lengths and AlIV content. In general, shortening of the longest M2-O bond lengths is associated with increase in AlIV. The cell and M1 volumes suggest that the clinopyroxenes, including the larger and sometimes resorbed macrocrysts, crystallized at a pressure lower than 5 kbar, fitting the petrography and evolved character of the rocks in question. |
Databáze: | OpenAIRE |
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