Isotope Geochronologic and Geochemical Constraints on the Magmatic Associations of the Collisional Orogenic Zone in the West Kunlun Orogen, China

The Jiajiwaxi pluton in the southern portion of the West Kunlun Range can be divided into two collision–related intrusive rock series, i.e., a gabbro–quartz diorite–granodiorite series that formed at 224±2.0 Ma and a monzonitic granite–syenogranite series that formed at 222±2.0 Ma. The systematic an...

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Published inActa geologica Sinica (Beijing) Vol. 92; no. 2; pp. 482 - 498
Main Authors WANG, Chan, LIU, Hao, DENG, Jianghong, LIU, Xianfan, ZHAO, Fufeng, WANG, Chun, TIAN, Xin
Format Journal Article
LanguageEnglish
Published Richmond Wiley Subscription Services, Inc 01.04.2018
EditionEnglish ed.
Subjects
Accretion
Chronostratigraphy
Collision dynamics
collisional orogeny
Diorite
Fault zones
Gabbro
Geochemistry
Geochronology
Geochronometry
Granite
Island arcs
isotope geochronology
Isotopes
Lava
lithogeochemistry
Magma
magmatic association
Melting
Orogeny
Palaeozoic
Plutons
Sediments
Subduction
Subduction (geology)
Subduction zones
Triassic
West Kunlun orogen
Zircon
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Summary:The Jiajiwaxi pluton in the southern portion of the West Kunlun Range can be divided into two collision–related intrusive rock series, i.e., a gabbro–quartz diorite–granodiorite series that formed at 224±2.0 Ma and a monzonitic granite–syenogranite series that formed at 222±2.0 Ma. The systematic analysis of zircon U‐Pb geochronology and bulk geochemistry is used to discuss the magmatic origin (material source and thermal source), tectonic setting, genesis and geotectonic implications of these rocks. The results of this analysis indicate that the parent magma of the first series, representing a transition from I‐type to S‐type granites, formed from thermally triggered partial melting of deep crustal components in an early island–arc–type igneous complex, similar to an I‐type granite, during the continental collision orogenic stage. The parent magma of the second series, corresponding to an S‐type granite, formed from the partial melting of forearc accretionary wedge sediments in a subduction zone in the late Palaeozoic–Triassic. During continued collision, the second series magma was emplaced into the first series pluton along a central fault zone in the original island arc region, forming an immiscible puncture‐type complex. The deep tectonothermal events associated with the continent–continent collision during the orogenic cycle are constrained by the compositions and origins of the two series. The new information provided by this paper will aid in future research into the dynamic mechanisms affecting magmatic evolution in the West Kunlun orogenic belt.
Bibliography:About the first author
WANG Chan, female; born in 1988 in Qiqihar City, Heilongjiang Province; PhD candidate of School of Earth Science, Chengdu University of Technology. She is engaged in study of magmatic petrology in western Kunlun and Yunnan, China. Email
271980531@qq.com
phone: 18380323800.
ISSN:1000-9515
1755-6724
DOI:10.1111/1755-6724.13538