Five generations of monazite in Langtang gneisses: implications for chronology of the Himalayan metamorphic core

Monazite grains from Greater Himalayan Sequence gneisses, Langtang valley, Nepal, were chemically mapped and then dated in situ via Th–Pb ion‐microprobe analysis. Correlation of ages and chemistry reveals at least five different generations of monazite, ranging from c. 9 to >300 Ma. Petrological...

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Bibliographic Details
Published inJournal of metamorphic geology Vol. 23; no. 5; pp. 399 - 406
Main Authors KOHN, M. J., WIELAND, M. S., PARKINSON, C. D., UPRETI, B. N.
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Science Inc 01.06.2005
Blackwell Publishing Ltd
Subjects
geochronology
Himalaya
melting
Metamorphic rocks
metamorphism
Minerals
monazite
Petrology
Himalaya Mountains
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Summary:Monazite grains from Greater Himalayan Sequence gneisses, Langtang valley, Nepal, were chemically mapped and then dated in situ via Th–Pb ion‐microprobe analysis. Correlation of ages and chemistry reveals at least five different generations of monazite, ranging from c. 9 to >300 Ma. Petrological models of monazite chemistry provide a link between these generations and the thermal evolution of these rocks, yielding an age for the melting of Greater Himalayan rocks within the Main Central Thrust sheet (c. 16 Ma), and for the timing of thrust sheet emplacement that are younger than commonly viewed. Chemical characterization of monazite is vital prior to chronological microanalysis, and many ages previously reported for monazite from the Greater Himalayan Sequence are interpretationally ambiguous.
Bibliography:ark:/67375/WNG-K6T4VN4Q-Q
ArticleID:JMG584
istex:9A203EFDD522F7C5A7F28CEE9A3EEE587C2BE246
ISSN:0263-4929
1525-1314
DOI:10.1111/j.1525-1314.2005.00584.x