Your search keyword '"Chaoge Dong"' showing total 12 results

1. The Xitieshan volcanic sediment-hosted massive sulfide deposit, North Qaidam, China: Geology, structural deformation and geochronology

Author

Jiangang Fu, Yun Zhou, Ying Jiang, Chaoge Dong, Ce Wang, and Xinquan Liang

Subjects

geography, Felsic, geography.geographical_feature_category, Volcanogenic massive sulfide ore deposit, Geochemistry, Metamorphism, Pyroclastic rock, Geology, 010502 geochemistry & geophysics, 01 natural sciences, Volcanic rock, Geochemistry and Petrology, Clastic rock, Economic Geology, 010503 geology, Mafic, Petrology, 0105 earth and related environmental sciences, Zircon

Abstract

The Xitieshan deposit (~ 64 Mt at 4.86% Zn, 4.16% Pb, 58 g/t Ag, and 0.68 g/t Au) is hosted by the Middle to Late Ordovician Tanjianshan Group of the North Qaidam tectonic metallogenic belt, NW China. This belt is characterized by island arc volcanic, ultra-high pressure (UHP) metamorphic and ophiolitic rocks. The Tanjianshan Group constitutes a succession of metamorphosed bimodal volcanic and sedimentary rocks, which are interpreted to have formed on the margin of a back-arc ocean basin between the Qaidam block and the Qilian block. Four stratigraphic units are identified within the Ordovician Tanjianshan Group. From northeast to southwest they are: 1) unit a, or the lower volcanic-sedimentary rocks, comprising bimodal volcanic rocks (unit a-1) and sedimentary rocks (unit a-2) ranging from carbonates to black carbonaceous schist; 2) unit b, or intermediate-mafic volcaniclastic rocks, characterized by intermediate to mafic volcaniclastic rocks intercalated with lamellar carbonaceous schist and minor marble lenses; 3) unit c, a purplish red sandy conglomerate that unconformably overlies unit b, representing the product of the foreland basin sedimentation during the Early Silurian; 4) unit d, or mafic volcanic rocks, from base to up, comprising the lower mafic volcaniclastic rocks (unit d-1), middle clastic sedimentary rocks (unit d-2), upper mafic volcaniclastic rocks (unit d-3), and uppermost mafic volcanic rocks (unit d-4). Unit a-2 hosts most of the massive sulfides whereas unit b contains subordinate amounts. The massive stratiform lenses constitute most of the Xitieshan deposit with significant amount of semi-massive and irregularly-shaped sulfides and minor amounts in stringer veins. Pyrite, galena and sphalerite are the dominant sulfide minerals, with subordinate pyrrhotite and chalcopyrite. Quartz is a dominant gangue mineral. Sericite, quartz, chlorite, and carbonate alteration of host rocks accompanies the mineralization. U-Pb zircon geochronology yields three ages of 454 Ma, 452 Ma and 451 Ma for the footwall felsic volcanic rocks in unit a-1, sedimentary host rocks in unit a-2 and hanging-wall unit b, respectively. The Xitieshan deposit is considered to be coeval with the sedimentation of unit a-2 and unit b of the Tanjianshan Group. The Xitieshan deposit has been intensely deformed during two phases (main ductile shear and minor ductile-brittle deformation). The main ductile shear deformation controls the general strike of the ore zones, whereas minor deformation controls the internal geometry of the ore bodies. 40 Ar- 39 Ar age of muscovite from mylonitized granitic gneisses in the ductile shear zone is ~ 399 Ma, which is interpreted to date the Xitieshan ductile shear zone, suggesting that Early Devonian metamorphism and deformation post-dated the Tanjianshan Group. The Xitieshan deposit has many features similar to that of the Bathurst district of Canada, the Iberian Pyrite Belt of Spain, the Wolverine volcanogenic massive sulfide deposit in Canada. Based on its tectonic setting, host-rock types, local geologic setting, metal grades, geochronology, temperatures and salinities of mineralizing fluid and source of sulfur, the Xitieshan deposit has features similar to sedimentary exhalative (SEDEX) and VMS deposits and is similar to volcanic and sediment-hosted massive sulfide (VSHMS) deposits.

Published

2017

2. Zircon U–Pb, molybdenite Re–Os and muscovite Ar–Ar isotopic dating of the Xitian W–Sn polymetallic deposit, eastern Hunan Province, South China and its geological significance

Author

Xinquan Liang, Chaoge Dong, Ying Jiang, Shichong Wu, Yun Zhou, Haofeng Zhu, Jiangang Fu, Ce Wang, and Yehua Shan

Subjects

010504 meteorology & atmospheric sciences, Geochemistry and Petrology, Economic Geology, Geology, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences

Published

2016

3. Detrital zircon U–Pb geochronology, Lu–Hf isotopes and REE geochemistry constrains on the provenance and tectonic setting of Indochina Block in the Paleozoic

Author

Xinquan Liang, David A. Foster, Jiangang Fu, Shunv Wen, Phan Van Quynh, Yun Zhou, Ce Wang, Ying Jiang, and Chaoge Dong

Subjects

Provenance, 010504 meteorology & atmospheric sciences, Paleozoic, Geochemistry, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Precambrian, Gondwana, Geophysics, Basement (geology), Geochronology, Phanerozoic, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Zircon

Abstract

In situ U–Pb geochronology, Lu–Hf isotopes and REE geochemical analyses of detrital zircons from Cambrian–Devonian sandstones in the Truong Son Belt, central Vietnam, are used to provide the information of provenance and tectonic evolution of the Indochina Block. The combined detrital zircon age spectra of all of the samples ranges from 3699 Ma to 443 Ma and shows with dominant age peaks at ca. 445 Ma and 964 Ma, along with a number of age populations at 618–532 Ma, 1160–1076 Ma, 1454 Ma, 1728 Ma and 2516 Ma. The zircon age populations are similar to those from time equivalent sedimentary sequences in continental blocks disintegrated from the East Gondwana during the Phanerozoic. The younger zircon grains with age peaks at ca. 445 Ma were apparently derived from middle Ordovician–Silurian igneous and metamorphic rocks in Indochina. Zircons with ages older than about 600 Ma were derived from other Gondwana terrains or recycled from the Precambrian basement of the Indochina Block. Similarities in the detrital zircon U–Pb ages suggest that Paleozoic strata in the Indochina, Yangtze, Cathaysia and Tethyan Himalayas has similar provenance. This is consistent with other geological constrains indicating that the Indochina Block was located close to Tethyan Himalaya, northern margin of the India, and northwestern Australia in Gondwana.

Published

2016

4. Late Cretaceous lithospheric extension in SE China: Constraints from volcanic rocks in Hainan Island

Author

Jiangang Fu, Shunv Wen, Yongfeng Cai, Yun Zhou, Ce Wang, Xinquan Liang, Tongbin Shao, Ying Jiang, Chaoge Dong, and Alfred Kröner

Subjects

Basalt, Peridotite, geography, geography.geographical_feature_category, Felsic, Mantle wedge, Geochemistry, Partial melting, Geology, Volcanic rock, Craton, Geochemistry and Petrology, Zircon

Abstract

Petrological, geochemical and in-situ zircon U–Pb dating and Hf-isotope analyses have been carried out on a suite of basalt–andesite–rhyolite volcanic rocks exposed in the Liuluocun area, Hainan Island, SE China. Zircon analyses show that these volcanic rocks crystallized in the Early Cretaceous (ca. 102 Ma). The basalts are characterized by low MgO contents and mg-numbers but high rare earth element, high field strength element and large ion lithophile element contents and Nb–Ta negative anomalies. They have relatively uniform Sr–Nd isotope compositions with e Nd (t) values of − 4.09 to − 3.63. The andesites show enrichment of high field strength element and rare earth element with negligible Eu anomalies. They have e Nd (t) values of − 2.35 to − 3.88 and e Hf (t) values of − 9.73 to − 1.13. The rhyolites have high K 2 O and SiO 2 contents. They are characterized by prominent Eu, P and Ti negative anomalies and enrichment in large ion lithophile element, and show e Hf (t) values of − 7.51 to + 0.47 and e Nd (t) values of − 2.49 to − 2.69. Petrogenetic analysis indicates that the Liuluocun volcanic rocks were produced by incomplete reaction of the mantle wedge peridotite with felsic melts derived from partial melting of subducted sediment. All these characteristics, combined with geological observations, suggest that their formation was related to regional lithospheric extension in the South China Craton during the Early Cretaceous, which may have been caused by subduction of the Paleo-Pacific plate beneath the continental plate of China.

Published

2015

5. Provenance of Upper Miocene to Quaternary sediments in the Yinggehai-Song Hong Basin, South China Sea: Evidence from detrital zircon U–Pb ages

Author

Ping Liu, Yun Zhou, Jiangang Fu, Ce Wang, Ying Jiang, Yuhong Xie, Chaoge Dong, Xinquan Liang, Chuanxin Tong, and Jianxiang Pei

Subjects

geography, Provenance, geography.geographical_feature_category, Detritus (geology), Geology, Late Miocene, Oceanography, Paleontology, Craton, Geochemistry and Petrology, Clastic rock, Quaternary, Cenozoic, Zircon

Abstract

The Yinggehai-Song Hong (Y-SH) Basin, located on the northwestern shelf of the South China Sea, is one of the world's largest pull-apart basins. In order to identify the provenance of the Upper Miocene to Quaternary sediments of the basin, ten sediment samples were collected from drill cores in the Dongfang gas field. U–Pb dating of detrital zircon grains extracted from the ten samples using a laser ablation inductively coupled mass spectrometer (LA-ICP-MS) yields ages ranging from the Archean to Cenozoic (2898 ± 46 Ma to 26 ± 1 Ma). The zircon U–Pb age spectra of the Upper Miocene to Quaternary show a similar pattern with major peaks clustered at ca. 32 Ma, ca. 99 Ma, ca. 160 Ma, ca. 247 Ma, ca. 422 Ma and three “broad” age groups, 600–1000 Ma, 1700–2100 Ma and 2200–2800 Ma, suggestive of a wide range of igneous rock ages in the source areas. The detrital zircon ages provide diagnostic criteria for identification of the various source areas and reveal that the detritus was derived from multiple sources. Comparison of the results with the rock types and their ages surrounding the potential source areas indicates that the clastic material was derived from three dominant age sources: (1) Yangtze Craton, (2) Hainan Island and (3) Indochina Block. The Yangtze Craton was a major and continuous source area contribution to the basin. Comparing the age characteristics and its source areas since 10 Ma, the largely stable provenance also suggests that if the Red River capture ever existed it should have happened before the Late Miocene.

Published

2014

6. WITHDRAWN: Zircon U–Pb, molybdenite Re–Os and muscovite Ar–Ar isotopic dating of the Xitian W–Sn polymetallic deposit, eastern Hunan Province, South China and its geological significance

Author

Haofeng Zhu, Jiangang Fu, Ying Jiang, Yehua Shan, Chaoge Dong, Yun Zhou, Shichong Wu, Ce Wang, and Xinquan Liang

Subjects

Isochron, 020209 energy, Geochemistry, Geology, Skarn, 02 engineering and technology, 010502 geochemistry & geophysics, 01 natural sciences, Mantle (geology), Devonian, Geochemistry and Petrology, Greisen, Molybdenite, 0202 electrical engineering, electronic engineering, information engineering, Economic Geology, Radiometric dating, 0105 earth and related environmental sciences, Zircon

Abstract

The Xitian tungsten–tin (W–Sn) polymetallic deposit, located in eastern Hunan Province, South China, is a recently explored region containing one of the largest W–Sn deposits in the Nanling W–Sn metallogenic province. The mineral zones in this deposit comprise skarn, greisen, structurally altered rock and quartz-vein types. The deposit is mainly hosted by Devonian dolomitic limestone at the contact with the Xitian granite complex. The Xitian granite complex consists of Indosinian (Late Triassic, 230–215 Ma) and Yanshanian (Late Jurassic–Early Cretaceous, 165–141 Ma) granites. Zircons from two samples of the Xitian granite dated using laser ablation-inductively coupled mass spectrometer (LA-ICPMS) U–Pb analysis yielded two ages of 225.6 ± 1.3 Ma and 151.8 ± 1.4 Ma, representing the emplacement ages of two episodic intrusions of the Xitian granite complex. Molybdenites separated from ore-bearing quartz-veins yielded a Re–Os isochron age of 149.7 ± 0.9 Ma, in excellent agreement with a weighted mean age of 150.3 ± 0.5 Ma. Two samples of muscovites from ore-bearing greisens yielded 40Ar/39Ar plateau ages of 149.5 ± 1.5 Ma and 149.4 ± 1.5 Ma, respectively. These isotopic ages obtained from hydrothermal minerals are slightly younger than the zircon U–Pb age of 151.8 ± 1.4 Ma of the Yanshanian granite in the Xitian area, indicating that the W–Sn mineralization is genetically related to the Late Jurassic magmatism. The Xitian deposit is a good example of the Early Yanshanian regional W–Sn ore-forming event (160–150 Ma) in the Nanling region. The relatively high Re contents (8.7 to 44.0 ppm, average of 30.5 ppm) in molybdenites suggest a mixture of mantle and crustal sources in the genesis of the ore-forming fluids and melts. Based upon previous geochemical studies of Early Yanshanian granite and regional geology, we argue that the Xitian W–Sn polymetallic deposit can be attributed to back-arc lithosphere extension in the region, which was probably triggered by the break-off of the flat-slab of the Palae-Pacific plate beneath the lithosphere.

Published

2016

7. Research advance in sediment provenance of the Qiongdongnan Basin

Author

Chaoge Dong, Ce Wang, Hao Xie, Xinquan Liang, and Xirong Liang

Subjects

Provenance, 010504 meteorology & atmospheric sciences, Geochemistry, Sediment, Geology, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Geomorphology, 0105 earth and related environmental sciences

Published

2017

8. Zircon U-Pb and Molybdenite Re-Os Dating of the Xitian W-Sn Polymetallic Deposit, Eastern Hunan Province, China and Its Geological Significance

Author

Ying Jiang, Chaoge Dong, Xinquan Liang, Ce Wang, Jiangang Fu, and Yun Zhou

Subjects

Molybdenite, Geochemistry, Geology, China, Zircon

Published

2014

9. Detrital Zircon U-Pb Geochronology: New Insight into the Provenance of Sanya Formation in the Yinggehai Basin

Author

Ce, WANG, primary, Xinquan, LIANG, additional, Jiangang, FU, additional, Ying, JIANG, additional, and Chaoge, DONG, additional

Published

2016

10. Detrital Zircon Provenance of Pliocene Yinggehai Formation in the Ledong Gas Field of the Yinggehai-Song Hong Basin

Author

Ce Wang, Jiangang Fu, Xinquan Liang, Yun Zhou, Ying Jiang, and Chaoge Dong

Subjects

Natural gas field, Provenance, Geochemistry, Geology, Structural basin, Petrology, Zircon

Published

2015

11. LA-ICPMS Zircon U-Pb and Molybdenite Re-Os Isotopic Dating of the Tungsten Deposits in the Dengfuxian W-Sn Orefield, Eastern Hunan Province, South China, and Their Geological Implications

Author

Ce Wang, Ying Jiang, Chaoge Dong, Xinquan Liang, Jiangang Fu, and Yun Zhou

Subjects

South china, chemistry, Molybdenite, Geochemistry, chemistry.chemical_element, Geology, Radiometric dating, Tungsten, Zircon

Published

2014

12. Provenance of Upper Miocene to Quaternary sediments in the Yinggehai-Song Hong Basin, South China Sea: Evidence from detrital zircon U--Pb ages.

Author

Ce Wang, Xinquan Liang, Yuhong Xie, Chuanxin Tong, Jianxiang Pei, Yun Zhou, Ying Jiang, Jiangang Fu, Chaoge Dong, and Ping Liu

Subjects

*MIOCENE Epoch, *QUATERNARY Period, *PROVENANCE (Geology), *URANIUM-lead dating, *MARINE sediments

Abstract

The Yinggehai-Song Hong (Y-SH) Basin, located on the northwestern shelf of the South China Sea, is one of the world's largest pull-apart basins. In order to identify the provenance of the Upper Miocene to Quaternary sediments of the basin, ten sediment samples were collected from drill cores in the Dongfang gas field. U--Pb dating of detrital zircon grains extracted from the ten samples using a laser ablation inductively coupled mass spectrometer (LA-ICP-MS) yields ages ranging from the Archean to Cenozoic (2898 ± 46 Ma to 26 ± 1 Ma). The zircon U--Pb age spectra of the Upper Miocene to Quaternary show a similar pattern with major peaks clustered at ca. 32 Ma, ca. 99 Ma, ca. 160 Ma, ca. 247 Ma, ca. 422 Ma and three "broad" age groups, 600-1000 Ma, 1700-2100 Ma and 2200-2800 Ma, suggestive of a wide range of igneous rock ages in the source areas. The detrital zircon ages provide diagnostic criteria for identification of the various source areas and reveal that the detritus was derived from multiple sources. Comparison of the results with the rock types and their ages surrounding the potential source areas indicates that the clastic material was derived from three dominant age sources: (1) Yangtze Craton, (2) Hainan Island and (3) Indochina Block. The Yangtze Craton was a major and continuous source area contribution to the basin. Comparing the age characteristics and its source areas since 10 Ma, the largely stable provenance also suggests that if the Red River capture ever existed it should have happened before the Late Miocene. [ABSTRACT FROM AUTHOR]

Published

2014