机构地区:[1]Facultyof Earth Sciences , China University of Geosciences , Wuhan430074, China,Yichang Institute of Geology and Mineral Resources , Yichang443003, ChinaJin Zhenmin [2]Facultyof Earth Sciences , China University of Geosciences , Wuhan430074 [3]Yichang Institute of Geology and Mineral Resources , Yichang443003, China [4]Beijing SHRIMP Center ,Institute of Geology, Chinese Academy ofGeological Sciences , Beijing100037, China
出 处:《Journal of China University of Geosciences》2006年第1期1-12,共12页中国地质大学学报(英文版)
基 金:This paper is supported by the National Natural Science Foundation ofChina ( No . 40072069 ) ;Chinese Geological Survey Project(200313000041) .
摘 要:Arguments persist on the genesis and ages for the banded-augen (rapakivi) anatectic granitoids (charnockite) extensively outcropped in the Yunkai (云开) region, western Guangdong (广东) Province. Their petrochemistry, SHRIMP dating, deformational and metamorphic structure were studled. The results show that most granitoids are A/CNK〉1. 1, CaO/Na2O= 0. 62-1. 61 (average 0.94〉0.3), Al2O3/TiO2 =16.6-60.6 (average 23.68), depleted high field strong elements Ta, Nb, Zr, strong peraluminous high-K calcalkaline and calcalkaline granitoids in the post-collisional tectonic environment of a subduction-collision orogenic belt in an active-continental margin. The temperatures of charnockite and gneissic garnet-bearing biotite monzonitic granite are obviously higher than those of banded-augen (rapakivi) biotite monzonitic granite, and charnockite and gneissic garnet-bearing biotite monzonitic granite with the evolutional characteristics of A-type granites. The forming ages from banded-augen (rapakivi) biotite monzonitic granite to charnockite and gneissic garnet-bearing biotite monzonitic granite, whose crystallizing zircon SHRIMP ages are (465±10) Ma, (467±10 ) Ma, (435±11 ) Ma and (413±8) Ma, respectively, become younger. This shows that there was an oceaniccontinental subduction-collision and post-collisional extension-delamination-underplating between the Yangtze and Cathaysia plates during the Caledonian, and the granitoids experienced compressional uplift and extensional exhumation during the lndosinian. This provides important evidence of subduction collision of the Yangtze plate to the Cathaysia plate during the Caledonian in South China.Arguments persist on the genesis and ages for the banded-augen (rapakivi) anatectic granitoids (charnockite) extensively outcropped in the Yunkai (云开) region, western Guangdong (广东) Province. Their petrochemistry, SHRIMP dating, deformational and metamorphic structure were studled. The results show that most granitoids are A/CNK〉1. 1, CaO/Na2O= 0. 62-1. 61 (average 0.94〉0.3), Al2O3/TiO2 =16.6-60.6 (average 23.68), depleted high field strong elements Ta, Nb, Zr, strong peraluminous high-K calcalkaline and calcalkaline granitoids in the post-collisional tectonic environment of a subduction-collision orogenic belt in an active-continental margin. The temperatures of charnockite and gneissic garnet-bearing biotite monzonitic granite are obviously higher than those of banded-augen (rapakivi) biotite monzonitic granite, and charnockite and gneissic garnet-bearing biotite monzonitic granite with the evolutional characteristics of A-type granites. The forming ages from banded-augen (rapakivi) biotite monzonitic granite to charnockite and gneissic garnet-bearing biotite monzonitic granite, whose crystallizing zircon SHRIMP ages are (465±10) Ma, (467±10 ) Ma, (435±11 ) Ma and (413±8) Ma, respectively, become younger. This shows that there was an oceaniccontinental subduction-collision and post-collisional extension-delamination-underplating between the Yangtze and Cathaysia plates during the Caledonian, and the granitoids experienced compressional uplift and extensional exhumation during the lndosinian. This provides important evidence of subduction collision of the Yangtze plate to the Cathaysia plate during the Caledonian in South China.
关 键 词:Yunkai orogenic belt CALEDONIAN strong peraluminous anatectic granitoids postcollisional tectonic environment extension-delamination-undcrplating
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