TY - JOUR
T1 - Late Paleozoic magmatic record of East Junggar, NW China and its significance
T2 - Implication from zircon U-Pb dating and Hf isotope
AU - Xiao, Yan
AU - Zhang, Hongfu
AU - Shi, Ji'an
AU - Su, Benxun
AU - Sakyi, Patrick Asamoah
AU - Lu, Xinchuan
AU - Hu, Yan
AU - Zhang, Zhou
PY - 2011/9
Y1 - 2011/9
N2 - Late Paleozoic magmatic rocks (including basic dykes, basaltic andesite, rhyolite, keratophyre and syenite-porphyry with minor tuff) are widespread in the western margin of the East Junggar terrane. In-situ zircon U-Pb dating and Hf isotope analyses were carried out for these magmatic rocks from the Baijiangou and Zhangpenggou localities of East Junggar, integrating with geochemical data, to investigate their tectonic evolution as well as crustal accretionary process of this region in the Late Paleozoic. Inherited zircons from basic dykes range in age from 435Ma to 300Ma. The Zhangpenggou rhyolite and keratophyre have typical arc-like geochemical signatures and were formed in the Early Carboniferous (332Ma and 336Ma, respectively), suggesting they are products of subduction-related magmatism. The Baijiangou rhyolites were formed in the Late Carboniferous (315Ma and 323Ma) and their formation ages are similar to those of the syenite-porphyries (307Ma and 312Ma). The Hf model ages and the formation ages of zircons from these magmatic rocks are alike, with positive εHf(t) values vary from +0.7 to +16.6, implying that voluminous growth of juvenile crust happened in the East Junggar terrane during the Late Paleozoic. The absence of Precambrian inherited zircons in basic dykes indicates the lack of Precambrian basement beneath the East Junggar terrane. Taking geochronological studies on regional ophiolites into account, the East Junggar terrane is considered as a Devonian-Carboniferous oceanic island arc which has been continuously accreted to the southern active margin of the Siberian Craton since the Early Carboniferous.
AB - Late Paleozoic magmatic rocks (including basic dykes, basaltic andesite, rhyolite, keratophyre and syenite-porphyry with minor tuff) are widespread in the western margin of the East Junggar terrane. In-situ zircon U-Pb dating and Hf isotope analyses were carried out for these magmatic rocks from the Baijiangou and Zhangpenggou localities of East Junggar, integrating with geochemical data, to investigate their tectonic evolution as well as crustal accretionary process of this region in the Late Paleozoic. Inherited zircons from basic dykes range in age from 435Ma to 300Ma. The Zhangpenggou rhyolite and keratophyre have typical arc-like geochemical signatures and were formed in the Early Carboniferous (332Ma and 336Ma, respectively), suggesting they are products of subduction-related magmatism. The Baijiangou rhyolites were formed in the Late Carboniferous (315Ma and 323Ma) and their formation ages are similar to those of the syenite-porphyries (307Ma and 312Ma). The Hf model ages and the formation ages of zircons from these magmatic rocks are alike, with positive εHf(t) values vary from +0.7 to +16.6, implying that voluminous growth of juvenile crust happened in the East Junggar terrane during the Late Paleozoic. The absence of Precambrian inherited zircons in basic dykes indicates the lack of Precambrian basement beneath the East Junggar terrane. Taking geochronological studies on regional ophiolites into account, the East Junggar terrane is considered as a Devonian-Carboniferous oceanic island arc which has been continuously accreted to the southern active margin of the Siberian Craton since the Early Carboniferous.
KW - Central asian orogenic belt
KW - Island arc
KW - Juvenile crust
KW - Subduction-related magmatism
KW - The east junggar terrane
UR - http://www.scopus.com/inward/record.url?scp=79960330205&partnerID=8YFLogxK
U2 - 10.1016/j.gr.2010.12.008
DO - 10.1016/j.gr.2010.12.008
M3 - Article
AN - SCOPUS:79960330205
SN - 1342-937X
VL - 20
SP - 532
EP - 542
JO - Gondwana Research
JF - Gondwana Research
IS - 2-3
ER -