Metamorphic growth and recrystallization of zircons in extremely super(18)O-depleted rocks during eclogite-facies metamorphism: Evidence from U-Pb ages, trace elements, and O-Hf isotopes

A combined in situ SIMS and LA-(MC)-ICPMS study of U-Pb ages, trace elements, O and Lu-Hf isotopes was conducted for zircon from eclogite-facies metamorphic rocks in the Sulu orogen. The two microbeam techniques sampled various depths of zircon domains, revealing different element and isotope relati...

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Veröffentlicht in:Geochimica et cosmochimica acta 2011-09, Vol.75 (17), p.4877-4898
Hauptverfasser: Chen, Yi-Xiang, Zheng, Yong-Fei, Chen, Ren-Xu, Zhang, Shao-Bing, Li, Qiuli, Dai, Mengning, Chen, Lu
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container_title Geochimica et cosmochimica acta
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creator Chen, Yi-Xiang
Zheng, Yong-Fei
Chen, Ren-Xu
Zhang, Shao-Bing
Li, Qiuli
Dai, Mengning
Chen, Lu
description A combined in situ SIMS and LA-(MC)-ICPMS study of U-Pb ages, trace elements, O and Lu-Hf isotopes was conducted for zircon from eclogite-facies metamorphic rocks in the Sulu orogen. The two microbeam techniques sampled various depths of zircon domains, revealing different element and isotope relationships between residual magmatic cores and new metamorphic rims and thus the geochemical architecture of metamorphic zircons which otherwise cannot be recognized by the single microbeam technique. This enables discrimination of metamorphic growth from different subtypes of metamorphic recrystallization. Magmatic cores with U-Pb ages of 769 +/- 9 Ma have positive [delta] super(18)O values of 0.1-10.1ppt, high Th/U and super(176)Lu/ super(177)Hf ratios, high REE contents, and steep MREE-HREE patterns with negative Eu anomalies. They are interpreted as crystallizing from positive [delta] super(18)O magmas during protolith emplacement. In contrast, newly grown domains have concordant U-Pb ages of 204 +/- 4 to 252 +/- 7 Ma and show negative [delta] super(18)O values of -10.0ppt to -2.2ppt, low Th/U and super(176)Lu/ super(177)Hf ratios, low REE contents, and flat HREE patterns with weak to no Eu anomalies. They are interpreted as growing from negative [delta] super(18)O fluids that were produced by metamorphic dehydration of high-T glacial-hydrothermally altered rocks during continental subduction-zone metamorphism. Differences in [delta] super(18)O between different domains within single grains vary from 0.8ppt to 12.5ppt, suggesting different degrees of O isotope exchange between the positive [delta] super(18)O magmatic core and the negative [delta] super(18)O metamorphic fluid during the metamorphism. The magmatic zircons underwent three subtypes of metamorphic recrystallization, depending on their accessibility to negative [delta] super(18)O fluids. The zircons recrystallized in solid-state maintained positive [delta] super(18)O values, and REE and Lu-Hf isotopes of protolith zircon, but their U-Pb ages are lowered. The zircons recrystallized through dissolution exhibit negative [delta] super(18)O values similar to the metamorphic growths, almost completely reset U-Pb ages, and partially reset REE systems. The zircons recrystallized through replacement show variably negative [delta] super(18)O values, and partially reset REE, and U-Pb and Lu-Hf isotopic systems. Therefore, this study places robust constraints on the origin of metamorphic zircons in eclogite-faci
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In contrast, newly grown domains have concordant U-Pb ages of 204 +/- 4 to 252 +/- 7 Ma and show negative [delta] super(18)O values of -10.0ppt to -2.2ppt, low Th/U and super(176)Lu/ super(177)Hf ratios, low REE contents, and flat HREE patterns with weak to no Eu anomalies. They are interpreted as growing from negative [delta] super(18)O fluids that were produced by metamorphic dehydration of high-T glacial-hydrothermally altered rocks during continental subduction-zone metamorphism. Differences in [delta] super(18)O between different domains within single grains vary from 0.8ppt to 12.5ppt, suggesting different degrees of O isotope exchange between the positive [delta] super(18)O magmatic core and the negative [delta] super(18)O metamorphic fluid during the metamorphism. The magmatic zircons underwent three subtypes of metamorphic recrystallization, depending on their accessibility to negative [delta] super(18)O fluids. The zircons recrystallized in solid-state maintained positive [delta] super(18)O values, and REE and Lu-Hf isotopes of protolith zircon, but their U-Pb ages are lowered. The zircons recrystallized through dissolution exhibit negative [delta] super(18)O values similar to the metamorphic growths, almost completely reset U-Pb ages, and partially reset REE systems. The zircons recrystallized through replacement show variably negative [delta] super(18)O values, and partially reset REE, and U-Pb and Lu-Hf isotopic systems. 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The zircons recrystallized in solid-state maintained positive [delta] super(18)O values, and REE and Lu-Hf isotopes of protolith zircon, but their U-Pb ages are lowered. The zircons recrystallized through dissolution exhibit negative [delta] super(18)O values similar to the metamorphic growths, almost completely reset U-Pb ages, and partially reset REE systems. The zircons recrystallized through replacement show variably negative [delta] super(18)O values, and partially reset REE, and U-Pb and Lu-Hf isotopic systems. 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The two microbeam techniques sampled various depths of zircon domains, revealing different element and isotope relationships between residual magmatic cores and new metamorphic rims and thus the geochemical architecture of metamorphic zircons which otherwise cannot be recognized by the single microbeam technique. This enables discrimination of metamorphic growth from different subtypes of metamorphic recrystallization. Magmatic cores with U-Pb ages of 769 +/- 9 Ma have positive [delta] super(18)O values of 0.1-10.1ppt, high Th/U and super(176)Lu/ super(177)Hf ratios, high REE contents, and steep MREE-HREE patterns with negative Eu anomalies. They are interpreted as crystallizing from positive [delta] super(18)O magmas during protolith emplacement. In contrast, newly grown domains have concordant U-Pb ages of 204 +/- 4 to 252 +/- 7 Ma and show negative [delta] super(18)O values of -10.0ppt to -2.2ppt, low Th/U and super(176)Lu/ super(177)Hf ratios, low REE contents, and flat HREE patterns with weak to no Eu anomalies. They are interpreted as growing from negative [delta] super(18)O fluids that were produced by metamorphic dehydration of high-T glacial-hydrothermally altered rocks during continental subduction-zone metamorphism. Differences in [delta] super(18)O between different domains within single grains vary from 0.8ppt to 12.5ppt, suggesting different degrees of O isotope exchange between the positive [delta] super(18)O magmatic core and the negative [delta] super(18)O metamorphic fluid during the metamorphism. The magmatic zircons underwent three subtypes of metamorphic recrystallization, depending on their accessibility to negative [delta] super(18)O fluids. The zircons recrystallized in solid-state maintained positive [delta] super(18)O values, and REE and Lu-Hf isotopes of protolith zircon, but their U-Pb ages are lowered. The zircons recrystallized through dissolution exhibit negative [delta] super(18)O values similar to the metamorphic growths, almost completely reset U-Pb ages, and partially reset REE systems. The zircons recrystallized through replacement show variably negative [delta] super(18)O values, and partially reset REE, and U-Pb and Lu-Hf isotopic systems. Therefore, this study places robust constraints on the origin of metamorphic zircons in eclogite-facies rocks and provides a methodological framework for linking the different types of metamorphic zircons to petrological processes during continental collision.</abstract><doi>10.1016/j.gca.2011.06.003</doi></addata></record>
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subjects Age
Fluid dynamics
Fluid flow
Isotopes
Metamorphic
Microorganisms
Recrystallization
Zircon
title Metamorphic growth and recrystallization of zircons in extremely super(18)O-depleted rocks during eclogite-facies metamorphism: Evidence from U-Pb ages, trace elements, and O-Hf isotopes
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