HP–UHP Metamorphism and Tectonic Evolution of Orogenic Belts
High pressure (HP) and ultrahigh pressure (UHP) metamorphic rocks play a key role in understanding the tectonic evolution of orogenic belts. They have typically experienced complex changes during subduction and exhumation processes arising from recrystallization, deformation, fluid–rock interactions and even partial melting, and may therefore carry valuable records of evolving geodynamic systems in an orogenic belt. This special publication addresses the current work on HP–UHP metamorphism and its relation to the tectonic evolution of orogenic belts.
This special publication contains fifteen papers covering the important orogenic belts of the Himalaya, Dabie–Sulu, Tian Shan, North Qaidam and others that have been grouped into three parts: (I) new developments in the determination of metamorphic pressure–temperature (PT) conditions and their timing, (II) overview papers of well-known HP–UHP metamorphic belts and (III) research papers for some newly discovered HP–UHP belts.
The validity of Ti-in-zircon thermometry in low temperature eclogites
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Published:January 01, 2019
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CiteCitation
Meng Lin, Guibin Zhang, Shuguang Song, Huijuan Li, Lijuan Zhang, 2019. "The validity of Ti-in-zircon thermometry in low temperature eclogites", HP–UHP Metamorphism and Tectonic Evolution of Orogenic Belts, Lifei Zhang, Zeming Zhang, Hans-Peter Schertl, Chunjing Wei
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Abstract
The Ti-in-zircon thermometer has been widely applied to different high-grade metamorphism rocks owing to its simplicity. Based on the calibration of Ferry & Watson (2007; New thermodynamic models and revised calibrations for the Ti-in-zircon and Zr-in-rutile thermometers. Contributions to Mineralogy and Petrology, 154, 429–437), we used the Ti-in-zircon thermometer to estimate the metamorphic temperatures for low-temperature eclogites of North Qilian and Western Tianshan, China, and compiled HP/UHP eclogites from the literature. The Ti-in-zircon temperatures are generally higher than the estimations by other thermometers, especially when metamorphic temperatures are lower than 650°C. Although temperature exerts the dominant control on Ti content in zircon, other factors (e.g. lattice defect, other trace element substitutions in zircon, disequilibrium zircon growth, and precipitation from metamorphic fluids) may have contributed to the overestimated Ti-in-zircon temperatures.
- Asia
- cathodoluminescence
- China
- crystal chemistry
- eclogite
- Far East
- fluid phase
- geologic thermometry
- high pressure
- high-grade metamorphism
- ICP mass spectra
- lattice
- low temperature
- mass spectra
- metals
- metamorphic rocks
- metamorphism
- models
- nesosilicates
- orthosilicates
- oxides
- P-T conditions
- precipitation
- pressure
- Qilian Mountains
- rutile
- silicates
- spectra
- temperature
- thermodynamic properties
- Tien Shan
- titanium
- water-rock interaction
- zircon
- zircon group
- western Tien Shan
- northern Qilian Mountains
- Ti-in-zircon thermometry