The LA-ICPMS zircon U-Pb geochronology of three typically Indosinian granitic plutons yielded weighted mean ^206pb/^238U ages of 214.1±5.9 Ma and 210.3±4.7 Ma for the biotite monzonitic granites from the Xie...The LA-ICPMS zircon U-Pb geochronology of three typically Indosinian granitic plutons yielded weighted mean ^206pb/^238U ages of 214.1±5.9 Ma and 210.3±4.7 Ma for the biotite monzonitic granites from the Xiema and Xiangzikou plutons in Hunan Province, and 205.3±1.6 Ma for biotite granite from the Napeng pluton, western Guandong Province, respectively, showing a similar late Indosinian age of crystallization. In combination with other geochronological data from Indosinian granites within the South China Block (SCB), it is proposed that those late Indosinian granites with an age of -210 Ma and the early Indosinian granites (230-245 Ma) have the similar petrogenesis in identical tectonic setting. The Indosinian granites within the SCB might be the products of anatexis of the thickening crust in a compressive regime. These data provide a further understanding for the temporal and spatial distribution of the Indosinian granites and the dynamic evolution of the SCB.展开更多
The Tanjianshan Group,which was previously divided into a,b,c and d formations,has been controversial for a long time.It mainly distributes in the northern margin of Qaidam Basin and is an important early Paleozoic gr...The Tanjianshan Group,which was previously divided into a,b,c and d formations,has been controversial for a long time.It mainly distributes in the northern margin of Qaidam Basin and is an important early Paleozoic greenschist facies metamorphic volcanic sedimentary rock formation.Detailed field investigation and zircon LA-ICPMS U-Pb dating of the key strata suggest that the original lower part of a Formation (a-1) versus the original middle upper of d Formation (d-3 and d-4),the original upper part of a Formation (a-2) and b Formation versus the original lower part of d Formation (d-1 and d-2) of Tanjianshan Group are contemporaneous heterotopic facies volcanicclasolite deposit,respectively.The former formations formed during the middle-late Ordovician (463-458 Ma),while the latter ones formed in the late Ordovician (about 445 Ma).The original c formation of Tanjianshan Group,which formed after 430 Ma,is similar to the Maoniushan Formation of Kunlun Mountains and north Qaidam Basin.According to the rules of stratigraphic division and naming,new stratum formations of Tanjianshan Group are re-built and divided into Duancenggou (O1-2td),Zhongjiangou (O2-3tz) and Xitieshan (O3tx) formations.The original c Formation is separated from Tanjianshan Group and is renamed as the Wuminggou Formation (S3-D1W),which shows a discordant contact with underlying Tanjianshan Group and overlying Amunike Formation (D3a).The zircon U-Pb age frequency spectrogram of Tanjianshan Group indicates three prominent peaks of 430 Ma,460 Ma and 908 Ma,which is consistent with the metamorphic and magmatic crystallization ages obtained from para-and orthogneisses in north Qaidam HP-UHP metamorphic belt,implying that strong Caledonian and Jinningian tectonic and magmatic events have ever happened in North Qaidam.展开更多
1 Introduction Sediment provenance study,as an important part of basin analysis,is a key for source area definition,paleogeographic reconstruction,sediment transport route identification,and tectonic evolution(Haughto...1 Introduction Sediment provenance study,as an important part of basin analysis,is a key for source area definition,paleogeographic reconstruction,sediment transport route identification,and tectonic evolution(Haughton et al.,1991;Morton et al.,1999;Fontanelli et al.,2009;Cawood et al.,2012).The Qiongdongnan Basin(QDNB),lies in the northwestern passive continental margin of the South展开更多
Objective The NNW-SSE trending Yinggehai Basin, located on the continental shelf at water depths of 50-200 m in the northwestern South China Sea, is a Cenozoic conversion extensional basin. Over the past decades, a n...Objective The NNW-SSE trending Yinggehai Basin, located on the continental shelf at water depths of 50-200 m in the northwestern South China Sea, is a Cenozoic conversion extensional basin. Over the past decades, a number of hydrocarbon reservoirs have been discovered in the deepwater area of the basin, including the Lingtou Formation (Eocene), Yacheng and Lingshui formations (Oligocene), Sanya, Meishan and Huangliu formations (Miocene) and Yinggehai Formation (Pliocene), which are covered by Quaternary sediments and underlain by pre- Paleogene strata.展开更多
1 Introduction Over the past decades, a number of hydrocarbon reservoirs have been discovered in the deepwater area of the Yinggehai-Song Hong Basin, South China Sea. The NW-oriented Yinggehai-Song Hong Basin, located...1 Introduction Over the past decades, a number of hydrocarbon reservoirs have been discovered in the deepwater area of the Yinggehai-Song Hong Basin, South China Sea. The NW-oriented Yinggehai-Song Hong Basin, located on the continental shelf at water depths of 50-200 m in the northwestern South China Sea, is one of the largest Cenozoic pull-part basins in the world.展开更多
基金This study was financially supported by the National Natural Science Foundation of China(grants 40421303 and 40234046).
文摘The LA-ICPMS zircon U-Pb geochronology of three typically Indosinian granitic plutons yielded weighted mean ^206pb/^238U ages of 214.1±5.9 Ma and 210.3±4.7 Ma for the biotite monzonitic granites from the Xiema and Xiangzikou plutons in Hunan Province, and 205.3±1.6 Ma for biotite granite from the Napeng pluton, western Guandong Province, respectively, showing a similar late Indosinian age of crystallization. In combination with other geochronological data from Indosinian granites within the South China Block (SCB), it is proposed that those late Indosinian granites with an age of -210 Ma and the early Indosinian granites (230-245 Ma) have the similar petrogenesis in identical tectonic setting. The Indosinian granites within the SCB might be the products of anatexis of the thickening crust in a compressive regime. These data provide a further understanding for the temporal and spatial distribution of the Indosinian granites and the dynamic evolution of the SCB.
基金funded by the National Natural Science Foundation of China (41173066, 41272110 and 41072070)Project Fund of Western Mining Corporation
文摘The Tanjianshan Group,which was previously divided into a,b,c and d formations,has been controversial for a long time.It mainly distributes in the northern margin of Qaidam Basin and is an important early Paleozoic greenschist facies metamorphic volcanic sedimentary rock formation.Detailed field investigation and zircon LA-ICPMS U-Pb dating of the key strata suggest that the original lower part of a Formation (a-1) versus the original middle upper of d Formation (d-3 and d-4),the original upper part of a Formation (a-2) and b Formation versus the original lower part of d Formation (d-1 and d-2) of Tanjianshan Group are contemporaneous heterotopic facies volcanicclasolite deposit,respectively.The former formations formed during the middle-late Ordovician (463-458 Ma),while the latter ones formed in the late Ordovician (about 445 Ma).The original c formation of Tanjianshan Group,which formed after 430 Ma,is similar to the Maoniushan Formation of Kunlun Mountains and north Qaidam Basin.According to the rules of stratigraphic division and naming,new stratum formations of Tanjianshan Group are re-built and divided into Duancenggou (O1-2td),Zhongjiangou (O2-3tz) and Xitieshan (O3tx) formations.The original c Formation is separated from Tanjianshan Group and is renamed as the Wuminggou Formation (S3-D1W),which shows a discordant contact with underlying Tanjianshan Group and overlying Amunike Formation (D3a).The zircon U-Pb age frequency spectrogram of Tanjianshan Group indicates three prominent peaks of 430 Ma,460 Ma and 908 Ma,which is consistent with the metamorphic and magmatic crystallization ages obtained from para-and orthogneisses in north Qaidam HP-UHP metamorphic belt,implying that strong Caledonian and Jinningian tectonic and magmatic events have ever happened in North Qaidam.
基金funded by the China Postdoctoral Science Foundation (No. 2016M602551)the CPSF-CAS Joint Foundation for Excellent Postdoctoral Fellows (No. 2016LH00022)the Nation Natural Science Foundation of China (No. 41576040)
文摘1 Introduction Sediment provenance study,as an important part of basin analysis,is a key for source area definition,paleogeographic reconstruction,sediment transport route identification,and tectonic evolution(Haughton et al.,1991;Morton et al.,1999;Fontanelli et al.,2009;Cawood et al.,2012).The Qiongdongnan Basin(QDNB),lies in the northwestern passive continental margin of the South
基金financially supported by the National Natural Science Foundation of China(grant No. 41576040)the National Science and Technology Major Project of China(grant No.2011ZX05023-004-11)
文摘Objective The NNW-SSE trending Yinggehai Basin, located on the continental shelf at water depths of 50-200 m in the northwestern South China Sea, is a Cenozoic conversion extensional basin. Over the past decades, a number of hydrocarbon reservoirs have been discovered in the deepwater area of the basin, including the Lingtou Formation (Eocene), Yacheng and Lingshui formations (Oligocene), Sanya, Meishan and Huangliu formations (Miocene) and Yinggehai Formation (Pliocene), which are covered by Quaternary sediments and underlain by pre- Paleogene strata.
基金financially supported by the National Science and Technology Major Project of China(No.2011ZX05023-004-11)the Nation Natural Science Foundation of China(Nos.40872080 and 41072081)
文摘1 Introduction Over the past decades, a number of hydrocarbon reservoirs have been discovered in the deepwater area of the Yinggehai-Song Hong Basin, South China Sea. The NW-oriented Yinggehai-Song Hong Basin, located on the continental shelf at water depths of 50-200 m in the northwestern South China Sea, is one of the largest Cenozoic pull-part basins in the world.