Structural Networks Constraints on Alteration and Mineralization Processes in the Jiaojia Gold Deposit, Jiaodong Peninsula, China

[1]  D. Groves,et al.  Geochronological and sulfur isotopic evidence for the genesis of the post-magmatic, deeply sourced, and anomalously gold-rich Daliuhang orogenic deposit, Jiaodong, China , 2019, Mineralium Deposita.

[2]  H. Fan,et al.  Linking lithospheric thinning and magmatic evolution of late Jurassic to early cretaceous granitoids in the Jiaobei Terrane, southeastern North China Craton , 2019, Lithos.

[3]  D. Groves,et al.  Regional structural control on the distribution of world‐class gold deposits: An overview from the Giant Jiaodong Gold Province, China , 2019 .

[4]  Liang Dapeng,et al.  Mineralization characteristics and geological significance in 3000m depth of Jiaojia gold metallogenic belt, Jiaodong Peninsula , 2019, Acta Petrologica Sinica.

[5]  M. Santosh,et al.  Decratonic gold mineralization: Evidence from the Shangzhuang gold deposit, eastern North China Craton , 2018 .

[6]  Wei-Dong Ma,et al.  Hydrothermal fluid evolution of the Jintingling gold deposit in the Jiaodong peninsula, China: Constraints from U-Pb age, CL imaging, fluid inclusion and stable isotope , 2017, Journal of Asian Earth Sciences.

[7]  Kui-Feng Yang,et al.  Involvement of anomalously As-Au-rich fluids in the mineralization of the Heilan’gou gold deposit, Jiaodong, China: Evidence from trace element mapping and in-situ sulfur isotope composition , 2017, Journal of Asian Earth Sciences.

[8]  Y. Zhang,et al.  Rapid exhumation of the northern Jiaobei Terrane, North China Craton in the Early Cretaceous: Insights from Al-in-hornblende barometry and U-Pb geochronology , 2017, Journal of Asian Earth Sciences.

[9]  Yue-heng Yang,et al.  Tectonic transition from a compressional to extensional metallogenic environment at ∼120 Ma revealed in the Hushan gold deposit, Jiaodong, North China Craton , 2017, Journal of Asian Earth Sciences.

[10]  Li‐Qiang Yang,et al.  Timing and mechanism of gold mineralization at the Wang'ershan gold deposit, Jiaodong Peninsula, eastern China , 2017 .

[11]  Yue-heng Yang,et al.  Geochronological framework of the Xiadian gold deposit in the Jiaodong province, China: Implications for the timing of gold mineralization , 2017 .

[12]  H. Fan,et al.  Fluid evolution and ore genesis of the giant Sanshandao gold deposit, Jiaodong gold province, China: Constrains from geology, fluid inclusions and H–O–S–He–Ar isotopic compositions , 2016 .

[13]  H. Fan,et al.  Exhaustive gold mineralizing processes of the Sanshandao gold deposit, Jiaodong Peninsula, eastern China: Displayed by hydrothermal alteration modeling , 2016 .

[14]  Yue-heng Yang,et al.  Titanite-scale insights into multi-stage magma mixing in Early Cretaceous of NW Jiaodong terrane, North China Craton , 2016 .

[15]  Hu Fangfang,et al.  Mesozoic gold mineralization in the Jiaodong and Korean peninsulas , 2016 .

[16]  D. Groves,et al.  Orogenic gold: Common or evolving fluid and metal sources through time , 2015 .

[17]  R. Zhu,et al.  Decratonic gold deposits , 2015, Science China Earth Sciences.

[18]  M. Santosh,et al.  Genesis of two different types of gold mineralization in the Linglong gold field, China: Constrains from geology, fluid inclusions and stable isotope , 2015 .

[19]  Li‐Qiang Yang,et al.  Fluid immiscibility and gold deposition in the Xincheng deposit, Jiaodong Peninsula, China: A fluid inclusion study , 2015 .

[20]  M. Santosh,et al.  The ‘Jiaodong type’ gold deposits: Characteristics, origin and prospecting , 2015 .

[21]  Qingfei Wang,et al.  Origin of the Jiaodong-type Xinli gold deposit, Jiaodong Peninsula, China: Constraints from fluid inclusion and C–D–O–S–Sr isotope compositions , 2015 .

[22]  Li‐Qiang Yang,et al.  Hydrothermal Alteration and Gold Mineralization in the Jiaojia Gold Deposit, Jiaodong Peninsula, China , 2014 .

[23]  M. Santosh,et al.  The dilemma of the Jiaodong gold deposits: Are they unique? , 2014 .

[24]  Z. Bing Hydrothermal alteration in the Jiaojia gold deposit Jiaodong China , 2014 .

[25]  Yang-chun Li Mesozoic gold metallogenic system of the Jiaodong gold province,eastern China , 2014 .

[26]  A. Hofmann,et al.  Lithospheric and asthenospheric sources of lamprophyres in the Jiaodong Peninsula: A consequence of rapid lithospheric thinning beneath the North China Craton? , 2014 .

[27]  J. W. Hedenquist,et al.  Modeling the Formation of Advanced Argillic Lithocaps: Volcanic Vapor Condensation Above Porphyry Intrusions , 2013 .

[28]  J. Palandri,et al.  The Butte Magmatic-Hydrothermal System: One Fluid Yields All Alteration and Veins , 2013 .

[29]  Yue-heng Yang,et al.  Evolution of the lithospheric mantle beneath the southeastern North China Craton:Constraints from mafic dikes in the Jiaobei terrain , 2013 .

[30]  M. Santosh,et al.  Hydrothermal alteration associated with Mesozoic granite-hosted gold mineralization at the Sanshandao deposit, Jiaodong Gold Province, China , 2013 .

[31]  Rufei Liu,et al.  Expressway Surface Point Extraction from Mobile Laser Scanning Point Clouds , 2013 .

[32]  T. Ye Fractal Analysis of East-West Ductile Shear Zone in Guachehe Town Area, Tongcheng, Anhui and Its Applicability of Strain-rate Estimation , 2013 .

[33]  S. Wilde,et al.  Reactivation of the Archean lower crust: Implications for zircon geochronology, elemental and Sr-Nd-Hf isotopic geochemistry of late Mesozoic granitoids from northwestern Jiaodong Terrane, the North China Craton , 2012 .

[34]  Wei Lin,et al.  Metamorphic core complexes vs. synkinematic plutons in continental extension setting: insights from key structures (Shandong Province, eastern China) , 2011 .

[35]  M. A. Mamtani Strain-rate estimation using fractal analysis of quartz grains in naturally deformed rocks , 2010 .

[36]  Song Mingchun The Deep Oversize Gold Deposit in the Jiaojia Field,Shandong Province and Its Enlightenment for the Jiaojia-type Gold Deposits , 2010 .

[37]  R. Sillitoe Porphyry Copper Systems , 2010 .

[38]  Changqing Zhang,et al.  The relationship of mantle-derived fluids to gold metallogenesis in the Jiaodong Peninsula: Evidence from D–O–C–S isotope systematics , 2008 .

[39]  Alan J. Wilson,et al.  Sulfur isotopic zonation in the Cadia district, southeastern Australia: exploration significance and implications for the genesis of alkalic porphyry gold–copper deposits , 2007 .

[40]  J. Palandri,et al.  Sulfide Mineral Precipitation from Hydrothermal Fluids , 2006 .

[41]  Fan Hong Fan HR,Hu FF,Yang JH,Shen K and Zhai MG.2005.Fluid evolution and large-scale gold metallogeny during Mesozoic tectonic transition in the eastern Shandong province. , 2005 .

[42]  Guo Jing Evolution of syn-to post-collisional magmatism from north Sulu UHP belt,eastern China:zircon U-Pb geochronology. , 2005 .

[43]  J. Tullis,et al.  The recrystallized grain size piezometer for quartz , 2003 .

[44]  Jin-Hui Yang,et al.  Ore-forming fluids associated with granite-hosted gold mineralization at the Sanshandao deposit, Jiaodong gold province, China , 2003 .

[45]  R. Heilbronner,et al.  The eastern Tonale fault zone: a ‘natural laboratory’ for crystal plastic deformation of quartz over a temperature range from 250 to 700 °C , 2002 .

[46]  Deng Jun NESTED FRACTAL STRUCTURE AND SELF-ORDERED EFFECT OF METALLOGENIC SYSTEM , 2000 .

[47]  Richard J. Goldfarb,et al.  Orogenic gold deposits : A proposed classification in the context of their crustal distribution and relationship to other gold deposit types , 1998 .

[48]  T. Masuda,et al.  Fractal analysis of experimentally, dynamically recrystallized quartz grains and its possible application as a strain rate meter , 1998 .

[49]  J. H. Kruhl,et al.  The fractal shape of sutured quartz grain boundaries: application as a geothermometer , 1996 .

[50]  Christopher H. Scholz,et al.  The brittle-plastic transition and the depth of seismic faulting , 1988 .