期刊
JOURNAL OF METAMORPHIC GEOLOGY
卷 31, 期 7, 页码 775-789出版社
WILEY
DOI: 10.1111/jmg.12044
关键词
melt inclusions; nanogranites; peritectic garnet; phase equilibria modelling with graphite; Ronda migmatites
类别
资金
- Italian Ministry of Education, University, Research [PRIN 2010TT22SC]
- University of Padua (Progetto di Ateneo) [CPDA107188/10]
- University of Padua
- European Commission
- Ramon y Cajal research contract
- [CGL2007-62992]
- [CTM2005-08071-C03-01]
- [CSD2006-0041]
Stromatic metatexites occurring structurally below the contact with the Ronda peridotite (Ojen nappe, Betic Cordillera, S Spain) are characterized by the mineral assemblage Qtz+Pl+Kfs+Bt+Sil+Grt+Ap+Gr+Ilm. Garnet occurs in low modal amount (2-5 vol.%). Very rare muscovite is present as armoured inclusions, indicating prograde exhaustion. Microstructural evidence of melting in the migmatites includes pseudomorphs after melt films and nanogranite and glassy inclusions hosted in garnet cores. The latter microstructure demonstrates that garnet crystallized in the presence of melt. Re-melted nanogranites and preserved glassy inclusions show leucogranitic compositions. Phase equilibria modelling of the stromatic migmatite in the MnO-Na2O-CaO-K2O-FeO-MgO-Al2O3-SiO2-H-2-O-2-C (MnNCaKFMASHOC) system with graphite-saturated fluid shows P-T conditions of equilibration of 4.5-5 kbar, 660-700 degrees C. These results are consistent with the complete experimental re-melting of nanogranites at 700 degrees C and indicate that nanogranites represent the anatectic melt generated immediately after entering supersolidus conditions. The P-T estimate for garnet and melt development does not, however, overlap with the low-temperature tip of the pure melt field in the phase diagram calculated for the composition of preserved glassy inclusions in garnet in the Na2O-CaO-K2O-FeO-MgO-Al2O3-SiO2-H2O (NCKFMASH) system. A comparison of measured melt compositions formed immediately beyond the solidus with results of phase equilibria modelling points to the systematic underestimation of FeO, MgO and CaO in the calculated melt. These discrepancies are present also when calculated melts are compared with low-T natural and experimental melts from the literature. Under such conditions, the available melt model does not perform well. Given the presence of melt inclusions in garnet cores and the P-T estimates for their formation, we argue that small amounts (<5 vol.%) of peritectic garnet may grow at low temperatures (<= 700 degrees C), as a result of continuous melting reactions consuming biotite.
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