Zircon behaviour and the thermal histories of mountain chains

Using the U-Pb geochronology of zircon we can understand the growth and collapse of mountain chains, both recent and ancient. In the high-temperature metamorphic rocks that underlie mountain ranges, zircon may survive from precursor rocks, recrystallize, or grow anew. All these possibilities must be...

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Veröffentlicht in:	Elements (Quebec) 2007-02, Vol.3 (1), p.25-30
Hauptverfasser:	Harley, Simon L, Kelly, Nigel M, Möller, Andreas
Format:	Artikel
Sprache:	eng
Schlagworte:	age exhumation geochronology high temperature landform evolution Mineralogy mountains nesosilicates orthosilicates plate collision plate tectonics pressure silicates temperature thermal history U/Pb ultrahigh pressure zircon zircon group
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creator	Harley, Simon L Kelly, Nigel M Möller, Andreas
description	Using the U-Pb geochronology of zircon we can understand the growth and collapse of mountain chains, both recent and ancient. In the high-temperature metamorphic rocks that underlie mountain ranges, zircon may survive from precursor rocks, recrystallize, or grow anew. All these possibilities must be considered in the interpretation of zircon ages. Microtextural characterisation and microanalysis, coupled with considerations of mineral equilibria and trace element distributions between zircon and neighbouring silicate minerals, provide insights into the factors controlling zircon modification and growth. Zircon ages do not usually correspond to the peak of metamorphism but instead provide information on the history of cooling from high temperatures, including the timing and rates of exhumation of the deep roots of mountain chains.
doi_str_mv	10.2113/gselements.3.1.25
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subjects	age exhumation geochronology high temperature landform evolution Mineralogy mountains nesosilicates orthosilicates plate collision plate tectonics pressure silicates temperature thermal history U/Pb ultrahigh pressure zircon zircon group
title	Zircon behaviour and the thermal histories of mountain chains
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