Age and geochemistry of the Zhaheba ophiolite complex in eastern Junggar of the Central Asian Orogenic Belt (CAOB): implications for the accretion process of the Junggar terrane

We report new field observations, zircon U–Pb ages and geochemical data for the discrete members of the Zhaheba ophiolite complex in northeastern Junggar of the Central Asian Orogenic Belt (CAOB) with the aim to understand the accretion process of the eastern Junggar terrane. The zircon age data rev...

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Bibliographic Details
Published in:Geological magazine 2017-05, Vol.154 (3), p.419-440
Main Authors: YE, XIAN-TAO, ZHANG, CHUAN-LIN, ZOU, HAI-BO, YAO, CHUN-YAN, DONG, YONG-GUAN
Format: Article
Language:English
Subjects:
absolute age
Accretion
Accretion disks
Asia
Basalt
basalts
Central Asian orogenic belt
China
chrome spinel
crystal chemistry
dates
Devonian
Far East
Geochemistry
Geochronology
hafnium
igneous rocks
isotope ratios
isotopes
Junggar
Junggar Terrane
Kelameili Ophiolite
metaigneous rocks
metals
metamorphic rocks
metasomatic rocks
mid-ocean ridge basalts
nesosilicates
O-18/O-16
ophiolite
ophiolite complexes
Ordovician
Original Articles
orogenic belts
orthosilicates
oxides
oxygen
Paleozoic
petrology
rock, sediment, soil
serpentinite
silicates
stable isotopes
tectonics
U/Pb
volcanic rocks
Volcanoes
Xinjiang China
Zhaheba Complex
Zhaheba-Almantai Ophiolite
zircon
zircon group
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Summary:We report new field observations, zircon U–Pb ages and geochemical data for the discrete members of the Zhaheba ophiolite complex in northeastern Junggar of the Central Asian Orogenic Belt (CAOB) with the aim to understand the accretion process of the eastern Junggar terrane. The zircon age data reveal that the cumulates of the Zhaheba ophiolite crystallized at ~485 Ma while the volcanic sequences erupted at ~400 Ma. Thus, the volcanic sequences are not members of the Zhaheba ophiolite. Chromian spinels from the serpentinite have comparable elemental compositions to those of spinels from MORB-type ophiolites. Similarly, the rift affinity of clinopyroxene and positive zircon ε Hf(t) (13–20) and mantle δ 18O (+5.37‰) values of the cumulates imply that the cumulates crystallized from primitive magmas derived from a depleted mantle source. Elemental and Nd isotopic compositions indicate that the basalts in the Zhaheba area were derived from partial melting of a mantle wedge metasomatized by adakitic melts and/or subduction-related fluids. The data presented in this contribution, together with previous studies, indicate that the Zhaheba–Almantai and Kelameili ophiolites were MORB-type, which implies that there were at least two mid-ocean ridges during Ordovician to early Devonian times in the Junggar Ocean. In the earlier stage, intra-oceanic subduction led to the formation of the intra-oceanic arc, and then the Kelameili ophiolite accreted to an intra-oceanic accretionary wedge. In the later stage, the Zhaheba–Almantai ophiolite accreted to the accretionary wedge along the southern margin of the Iritish suture zone during the roll-back of the subduction zone from north to south.
ISSN:0016-7568
1469-5081
DOI:10.1017/S0016756816000042