Mesozoic to cenozoic mineralization in china: Preface

[1]  Yun-hui Zhang,et al.  Zircon U−Pb and sericite Ar−Ar geochronology, geochemistry and S−Pb−Hf isotopes of the Zebuxia Pb−Zn deposit, Tibet, southwestern China , 2022, Ore Geology Reviews.

[2]  Zhu Xiangping,et al.  Mineralization of Ion-adsorption Type Rare Earth Deposits in Western Yunnan, China , 2022, Ore Geology Reviews.

[3]  Bin Lin,et al.  Multiple isotopic dating constrains the time framework (Age) of a porphyry system: A case study from the Sangri Cu-Mo deposit, Bangongco-Nujiang metallogenic belt, Tibet, China , 2022, Ore Geology Reviews.

[4]  D. Groves,et al.  Global metallogeny in relation to secular evolution of the Earth and supercontinent cycles , 2022, Gondwana Research.

[5]  Yi Zhao,et al.  In situ Sr–O isotopic and elemental compositions of apatite and zircon from Pengcuolin granodiorites: implications for Jurassic metallogenic variation in the southern Tibet , 2022, Ore Geology Reviews.

[6]  D. Groves,et al.  Genesis of orogenic gold systems in the Daduhe belt: evidence of long-lived fertile mantle lithosphere as a source of diverse metallogeny on the western margin of the Yangtze Craton, China , 2022, Ore Geology Reviews.

[7]  T. Tsunogae,et al.  Genesis and magmatic-hydrothermal evolution of the Shapoling Mo deposit, East Qinling, China: Insights from geochronology, petrogenesis and fluid evolution , 2022, Ore Geology Reviews.

[8]  Mamta Santosh,et al.  The link between Paleo-Tethys subduction and regional metallogeny in the SW Yangtze Block: New evidence from the Zubu carbonate-hosted F-Pb-Zn deposit , 2022, Ore Geology Reviews.

[9]  J. Qiu,et al.  Identifying the principal factors controlling uranium enrichment: Semi-quantitative mineralogy and geochemistry of the sandstone-type Qianjiadian uranium deposit, northeast China , 2022, Ore Geology Reviews.

[10]  Chengjiang Zhang,et al.  Geochemical, zircon U–Pb–Hf–O isotopic evidence and molybdenite Re–Os dating from the Cuojiaoma batholith, eastern Tibetan Plateau: Implications for molybdenum potential and tectonic evolution , 2022, Ore Geology Reviews.

[11]  Sung Won Kim,et al.  Bastnäsite U-Th-Pb age, sulfur isotope and trace elements of the Huangshui’an deposit: Implications for carbonatite-hosted Mo-Pb-REE mineralization in the Qinling Orogenic Belt, China , 2022, Ore Geology Reviews.

[12]  L. Bagas,et al.  A newly identified Permian distal skarn deposit in the Western Tianshana, China: New evidence from geology, garnet U-Pb geochronology and S-Pb-C-H-O isotopes of the Arqiale Pb-Zn-Cu deposit , 2022, Ore Geology Reviews.

[13]  Chunhua Liu,et al.  Origin and tectonic setting of Pingqiao fluorite-lithium deposit in the Guizhou, southwest Yangtze Block, China , 2022, Ore Geology Reviews.

[14]  C. Li,et al.  Geochemistry of hydrothermal zircon as a proxy to fingerprint ore fluids in late Mesozoic decratonic gold deposits , 2022, Ore Geology Reviews.

[15]  Mamta Santosh,et al.  Apatite as a fingerprint of granite fertility and gold mineralization: Evidence from the Xiaoqinling Goldfield, North China Craton , 2022, Ore Geology Reviews.

[16]  Li Tang,et al.  Geology and genesis of auriferous porphyritic monzogranite and its correlation with the Qiyugou porphyry-breccia system in East Qinling, central China , 2022, Ore Geology Reviews.

[17]  Shou‐ting Zhang,et al.  Vein-type fluorite mineralization of the Linxi district in the Great Xing'an Range, Northeast China: Insights from geochronology, mineral geochemistry, fluid inclusion and stable isotope systematics , 2022, Ore Geology Reviews.

[18]  Feng Bai,et al.  Origin of the subduction-related Tieli nephrite deposit in Northeast China: Constraints from halogens, trace elements, and Sr isotopes in apatite group minerals , 2022, Ore Geology Reviews.

[19]  Yu Zhao,et al.  Distal gold mineralization associated with porphyry system: The case of Hongzhuang and Yuanling deposits, East Qinling, China , 2022, Ore Geology Reviews.

[20]  Shou‐ting Zhang,et al.  Application of field-portable geophysical and geochemical methods for tracing the Mesozoic-Cenozoic vein-type fluorite deposits in shallow overburden areas: a case from the Wuliji'Oboo deposit, Inner Mongolia, NE China , 2022, Ore Geology Reviews.

[21]  D. Groves,et al.  Mineral systems: Their advantages in terms of developing holistic genetic models and for target generation in global mineral exploration , 2022, Geosystems and Geoenvironment.

[22]  Fan Yang,et al.  Uplift-exhumation and preservation of the Yumugou Mo-W deposit, East Qinling, China: Insights from multiple apatite low-temperature thermochronology , 2021, Ore Geology Reviews.

[23]  Li Tang,et al.  Genesis of a Ag-Pb-Zn-F system: Insights from in situ sulfur isotope and trace elements of pyrite, and rare earth elements of fluorite in the Baiyine’lebu deposit, Inner Mongolia, China , 2021, Ore Geology Reviews.

[24]  L. Bagas,et al.  Origin of the Early to Middle Triassic polyhalite minerals in the Sichuan Basin, SW China: New evidence from calcium and sulphur isotopes and microfabrics , 2021, Ore Geology Reviews.

[25]  L. Bagas,et al.  Time scales of multistage magma-related hydrothermal fluids at the giant Yulong porphyry Cu-Mo deposit in eastern Tibet: Insights from titanium diffusion in quartz , 2021, Ore Geology Reviews.

[26]  Hao Song,et al.  Genesis of visible gold in pyrite in the Zhaoxian gold deposit, Jiaodong gold province, China: Constraints from EBSD micro-structural and LA-ICP-MS elemental analyses , 2021, Ore Geology Reviews.

[27]  H. Fan,et al.  Intrusion-related orogenic gold deposit in the East Kunlun belt, NW China: a multiproxy investigation , 2021, Ore Geology Reviews.

[28]  D. Groves,et al.  Towards a universal model for orogenic gold systems: A perspective based on Chinese examples with geodynamic, temporal, and deposit-scale structural and geochemical diversity , 2021, Earth-Science Reviews.

[29]  Zhiyong Zhang,et al.  Paleo-Tethys subduction induced slab-drag opening the Neo-Tethys: Evidence from an Iranian segment of Gondwana , 2021, Earth-Science Reviews.

[30]  Y. Niu,et al.  Eastern China continental lithosphere thinning is a consequence of paleo-Pacific plate subduction: A review and new perspectives , 2021, Earth-Science Reviews.

[31]  Rongqing Zhang,et al.  Genesis of the Cuonadong tin polymetallic deposit in the Tethyan Himalaya: Evidence from geology, geochronology, fluid inclusions and multiple isotopes , 2021 .

[32]  Shou‐ting Zhang,et al.  Origin and evolution of a porphyry-breccia system: Evidence from zircon U-Pb, molybdenite Re-Os geochronology, in situ sulfur isotope and trace elements of the Qiyugou deposit, China , 2021 .

[33]  M. Santosh,et al.  Ancient deep roots for Mesozoic world-class gold deposits in the north China craton: An integrated genetic perspective , 2020 .

[34]  R. Walker,et al.  Destruction of the North China Craton in the Mesozoic , 2019, Annual Review of Earth and Planetary Sciences.

[35]  P. Ni,et al.  Hydrothermal ore deposits in collisional orogens. , 2019, Science bulletin.

[36]  Qingfei Wang,et al.  Gold mineralization in China: Metallogenic provinces, deposit types and tectonic framework , 2016 .

[37]  S. Wilde,et al.  The late Paleozoic to Mesozoic evolution of the eastern margin of the Central Asian Orogenic Belt in China , 2015 .

[38]  Qing Wang,et al.  Corrigendum: Magmatic record of India-Asia collision , 2015, Scientific Reports.

[39]  W. Xiao,et al.  The western Central Asian Orogenic Belt: A window to accretionary orogenesis and continental growth , 2014 .

[40]  Mao Jingwen,et al.  Major types and time–space distribution of Mesozoic ore deposits in South China and their geodynamic settings , 2013, Mineralium Deposita.

[41]  A. Yin Cenozoic tectonic evolution of Asia: A preliminary synthesis , 2010 .

[42]  M. Santosh,et al.  Fault-controlled carbonate-hosted barite-fluorite mineral systems: The Shuanghe deposit, Yangtze Block, South China , 2022 .