DECIPHERING THE SOURCE AND CONTAMINATION HISTORY OF PERALUMINOUS MAGMAS USING δ18O OF ACCESSORY MINERALS: EXAMPLES FROM GARNET-BEARING PLUTONS OF THE SIERRA NEVADA BATHOLITH

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dc.contributor.author Lackey J.S.
dc.contributor.author Valley J.W.
dc.contributor.author Hinke H.J.
dc.date.accessioned 2024-09-28T07:10:18Z
dc.date.available 2024-09-28T07:10:18Z
dc.date.issued 2006
dc.identifier https://www.elibrary.ru/item.asp?id=14411686
dc.identifier.citation Contributions to Mineralogy and Petrology, 2006, 151, 1, 20-44
dc.identifier.issn 0010-7999
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/45387
dc.description.abstract Peraluminous granitoids provide critical insight as to the amount and kinds of supracrustal material recycled in the central Sierra Nevada batholith, California. Major element concentrations indicate Sierran peraluminous granitoids are high-SiO2 (68.9-76.9) and slightly peraluminous (average molar Al2O3/(CaO + Na2O + K2O)=1.06). Both major and trace element trends mimic those of other high-silica Sierran plutons. Garnet (Grt) in the peraluminous plutons is almandine-spessartine-rich and of magmatic origin. Low grossular contents are consistent with shallow (<4 kbar) depths of garnet crystallization. metasediments the kings sequence commonly occur as wallrocks associated with plutons, including biotite schists that are highly peraluminous (a cnk =2.25) andhave high whole rock (wr) ~8O values (9.6-21.‰, average=14.5±.9‰, n=26). Ultramafic wallrocks of the ings-Kaweah ophiolite have lower average δ18O (7.1±.3‰, n=9). The δ18O(WR) of the Kings Sequence is variable from west to east. Higher δ18O values occur in the west, where quartz in schists is derived from marine chert; values decrease eastward as the proportion of quartz from igneous and metamorphic sources increases. Peraluminous plutons have high δ18O(WR) values (9.5-13‰) consistent with supracrustal enrichment of their sources. However, relatively low initial 87Sr/86Sr values (0.705-0.708) indicate that the supracrustal component in the source of peraluminous magmas was dominantly altered ocean crust and/or greywacke. Also, plutons lack or have very low abundances (<1% of grains) of inherited zircon (Zrc) cores. Average δ18O(Zrc) is 7.9‰ in peraluminous plutons, a higher value than in coeval metaluminous plutons (6-7‰). Diorites associated with peraluminous plutons also have high δ18O(Zrc), 7.4-8.3‰, which is consistent with the diorites being derived from a similar source. Magmatic garnet has variable δ18O (6.6-10.5δ, avg.=7.9‰) due to complex contamination and crystallization histories, evidenced by multiple garnet populations in some rocks. Comparison of δ18O(Zrc) and δ18O(Grt) commonly reveals disequilibrium, which documents evolving magma composition. Minor (5-7%) contamination by high δ18O wallrocks occurred in the middle and upper crust in some cases, although low δ18O wallrock may have been a contaminant in one case. Overall, oxygen isotope analysis of minerals having slow oxygen diffusion and different times of crystallization (e.g., zircon and garnet), together with detailed textural analysis, can be used to monitor assimilation in peraluminous magmas. Moreover, oxygen isotope studies are a valuable way to identify magmatic versus xenocrystic minerals in igneous rocks.
dc.title DECIPHERING THE SOURCE AND CONTAMINATION HISTORY OF PERALUMINOUS MAGMAS USING δ18O OF ACCESSORY MINERALS: EXAMPLES FROM GARNET-BEARING PLUTONS OF THE SIERRA NEVADA BATHOLITH
dc.type Статья
dc.identifier.doi 10.1007/s00410-005-0043-6


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