Access the full text.
Sign up today, get DeepDyve free for 14 days.
B. Litvinovsky, I. Steele, S. Wickham (2000)
Silicic Magma Formation in Overthickened Crust: Melting of Charnockite and Leucogranite at 15, 20 and 25 kbarJournal of Petrology, 41
J. Charvet, H. Lapierre, Yunwen Yu (1994)
Geodynamic significance of the Mesozoic volcanism of southeastern ChinaJournal of Southeast Asian Earth Sciences, 9
Sihong Sihong, Yueqing Yueqing, Fengjun Fengjun, Jianhua Jianhua, Yan Yan, Fuxi Fuxi, Linzhu Linzhu (2001)
Geological characteristics of the Zhulazhaga gold deposit in Inner Mongolia, ChinaMineral Deposit, 20
Turner Turner, Foden Foden, Morrison Morrison (1992)
Derivation of some A‐type magmas by fractionation of basaltic magma: An example from the Pathaway Ridge, South AustraliaLithos, 28
Yuzhang Yuzhang, Guangfu Guangfu, Zhuliang Zhuliang, Jialin Jialin, Rong Rong, Chaomin Chaomin, Naiyi Naiyi (2006)
Determinations on Neoproterozoic post‐orogenic aluminum A‐type granite in Zhuji, Zhejiang ProvinceActa Geoscientia Sinica, 27
W. Xiao, B. Windley, Jie Hao, M. Zhai (2003)
Accretion leading to collision and the Permian Solonker suture, Inner Mongolia, China: Termination of the central Asian orogenic beltTectonics, 22
J. Clemens, J. Holloway, A. White (1986)
Origin of an A-type granite; experimental constraintsAmerican Mineralogist, 71
Jia-Min Hong (2001)
Discussion on geologic character and genesis of deposit in Jinchanggouliang Gold MineNonferrous Mines
P. King, A. White, B. Chappell, C. Allen (1997)
Characterization and Origin of Aluminous A-type Granites from the Lachlan Fold Belt, Southeastern AustraliaJournal of Petrology, 38
Gang Gang, Guangyue Guangyue (1991)
The lead isotope composition and ore genesis of gold deposits in Chifeng‐Chaoyang area in Northeast of ChinaThe geological prospecting cluster theory, 6
William Collins, S. Beams, A. White, B. Chappell (1982)
Nature and origin of A-type granites with particular reference to southeastern AustraliaContributions to Mineralogy and Petrology, 80
Jiansheng Jiansheng, Dezi Dezi, Yarning Yarning, Jincheng Jincheng (1996)
Petrology, geochemistry and genesis of Taohuadao alkali granite in zhoushan, Zhejiang ProvinceJournal Nanjing University (Natural Science), 32
R. Creaser, R. Price, R. Wormald (1991)
A-type granites revisited: Assessment of a residual-source modelGeology, 19
Jiang Yong-jian (2010)
Petrogenesis and Geodynamic Setting of Late Triassic Dykes of Jinchanggouliang,Eastern Inner Mongolia
M. Wiedenbeck, P. Allé, F. Corfu, W. Griffin, M. Meier, F. Oberli, A. Quadt, J. Roddick, W. Spiegel (1995)
THREE NATURAL ZIRCON STANDARDS FOR U‐TH‐PB, LU‐HF, TRACE ELEMENT AND REE ANALYSESGeostandards and Geoanalytical Research, 19
Zhijun Zhijun, Cuizhen Cuizhen, Hongli Hongli, Lin Lin, Xiang Xiang (1997)
The characteristics of granite of Ynshan Period in Zhuanshanzi gold field and its relation with gold depositGolden, 2
Yongsheng Liu, Zhaochu Hu, K. Zong, Changgui Gao, G. Shan, Xu Juan, Haihong Chen (2010)
Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MSChinese Science Bulletin, 55
Jingwen Jingwen, Zuoheng Zuoheng, Jinjie Jinjie, Yitian Yitian, Baogui Baogui (2003)
Mesozoic large‐scale metallogenic geodynamics background in North China: enlightenment from ages of the metal depositsScience in China (Series D), 33
Mao Jing (2005)
Mesozoie large-scale metallogenic pulses in North China and corresponding geodynamic settingsActa Petrologica Sinica
Zhaochu Hu, Shan Gao, Yongsheng Liu, Shenghong Hu, Haihong Chen, Honglin Yuan (2008)
Signal enhancement in laser ablation ICP-MS by addition of nitrogen in the central channel gasJournal of Analytical Atomic Spectrometry, 23
J. Li (2006)
Permian geodynamic setting of Northeast China and adjacent regions: closure of the Paleo-Asian Ocean and subduction of the Paleo-Pacific PlateJournal of Asian Earth Sciences, 26
C. Frost, B. Frost, K. Chamberlain, B. Edwards (1999)
Petrogenesis of the 1·43 Ga Sherman Batholith, SE Wyoming, USA: a Reduced, Rapakivi-type Anorogenic GraniteJournal of Petrology, 40
Liegeois Liegeois (1998)
Preface‐some words on the post‐collisional magmatismLithos, 45
Zeng Qing (2009)
Ore-forming time of the Jiguanshan porphyry molybdenum deposit, northern margin of North China Craton and the Indosinian mineralization.Acta Petrologica Sinica
J. Li, Yan‐jing Chen, Q. Li, S. Mao, Y. Qin, Jh Guo, Z. Nan, Rs Yang (2008)
The C-H-O isotope systematics of the Yangshan gold deposit, Gansu and its implication for the ore-fluid originActa Petrologica Sinica
S. Turner, J. Foden, R. Morrison (1992)
Derivation of some A-type magmas by fractionation of basaltic magma: an example from the Padthaway R
C. Frost, B. Frost (1997)
Reduced rapakivi-type granites: The tholeiite connectionGeology, 25
Changshi Changshi, Xiaoming Xiaoming, Pengrong Pengrong, Rucheng Rucheng, Huan Huan (2003)
Subdivision, discrimination critera and genesis gor A type rock suitesGeological Journal of China Universities, 9
J. Pearce, N. Harris, A. Tindle (1984)
Trace Element Discrimination Diagrams for the Tectonic Interpretation of Granitic RocksJournal of Petrology, 25
Xiangdong Xiangdong, Meisheng Meisheng, Xiaomin Xiaomin (1999)
The evolution of Paleozoic tectonic Paleogeography in Jilin and Heilongjiang orogenic beltGlobal Geology, 18
Laicheng Laicheng, Weiming Weiming, Mingguo Mingguo, McNaughton McNaughton, Groves Groves (2003)
Zircon SHRIMP U‐Pb geochronalogy of the granitoid intrrastions from Jiangchanggouliang–Erdaogou gold orefield and its significanceActa Petrologica Sinica, 19
Ge Meng-chun (2009)
Collision Processes of North China and Siberian Plates:Evidence from LA-ICP-MS Zircon U-Pb Age on Deformed Granite in Xar Moron Suture Zone
I.S. I.S., Claesson Claesson (1987)
Isotopic evidence for the Precambrian provenance and Caledonian metamorphism of high grade paragneisses from the Seve Nappes, Scandinavian Caledonides. II. Ion Microprobe Zircon U‐Th‐PbContrib Mineral Petrol, 97
T. Ming (2012)
LA-ICP-MS zircon U-Pb age,geochemistry of andesite in Bilihe goldfield,Suniteyouqi,Inner Mongolia and its tectonic significanceActa Petrologica Sinica
Y. Kai, Xiao Rong-ge, He Zhongyin, Feng Gang, Wang Shuli (2013)
Geochemical Characteristics and Genesis of the Metallogenic Rocks in the Chagande'ersi Molybdenum Deposit in Wulatehouqi, Inner MongoliaActa Geologica Sinica ‐ English Edition, 87
T. Hongfeng (2005)
Trace Element Geochemistry of A-Type GranitesBulletin of Mineralogy,Petrology and Geochemistry
Mao Jingwen, Zhang Zuoheng, Wang Yitian, Jia Yefei, R. Kerrich (2003)
Nitrogen isotope and content record of Mesozoic orogenic gold deposits surrounding the North China cratonScience in China Series D: Earth Sciences, 46
J. Ping (2002)
Mount Making and Procedure of the SHRIMP DatingGeological Review
Jingbin Jingbin, Xin Xin (2006)
After the collision of the northern Xinjiang tectonic evolution and mineralization of post‐collision in the north of XinjiangActa Geologica Sinica, 80
Li Ze-ming (2011)
Mesozoic Granitic Magmatism and Molybdenum Ore-Forming Processes in the Xilamulun Metallogenic BeltJournal of Jilin University
W. Qiang (2008)
Some aspects on geochemistry of Nb and Ta
Y-J Chen (2006)
Orogenic-type deposits and their metallogenic model and exploration potentialGeology in China
Yongsheng Liu, Zhaochu Hu, Shan Gao, D. Günther, Juan Xu, Changgui Gao, Haihong Chen (2008)
In situ analysis of major and trace elements of anhydrous minerals by LA-ICP-MS without applying an internal standardChemical Geology, 257
Honglin Yuan, Shan Gao, Xiaoming Liu, Huiming Li, D. Günther, Fu-Yuan Wu (2004)
Accurate U‐Pb Age and Trace Element Determinations of Zircon by Laser Ablation‐Inductively Coupled Plasma‐Mass SpectrometryGeostandards and Geoanalytical Research, 28
M. Loiselle, D. Wones (1979)
Characteristics and origin of anorogenic granites, 11
Wu Hy, Zhang Lc, Chen Zg, B. Wan (2008)
Geochemistries,tectonic setting and mineralization potentiality of the ore-bearing monzogranite in the Kulitu molybdenum(copper)deposit of Xar moron metallogetic belt,Inner Mongolia.Acta Petrologica Sinica, 24
Sihong Sihong, Fengjun Fengjun, Yan Yan (2004)
Gold deposits in the Beishan Mountain, north western ChinaResource Geology, 54
A. Yakubchuk, A. Cole, R. Seltmann, V. Shatov (2002)
Tectonic Setting, Characteristics, and Regional Exploration Criteria for Gold Mineralization in the Altaid Orogenic Collage The Tien Shan Province as a Key Example
Zhuyin Chu, Fu-Yuan Wu, R. Walker, R. Rudnick, L. Pitcher, I. Puchtel, Yue-heng Yang, S. Wilde (2009)
Temporal Evolution of the Lithospheric Mantle beneath the Eastern North China CratonJournal of Petrology, 50
Zhenjun Sun, Henan Yu, Guosheng Sun (2014)
Study on Characteristics of Ore-forming Fluids in Chifeng-Chaoyang Gold Belt, Northern Margin of North China PlatformActa Geologica Sinica-english Edition, 88
J. Liégeois (1998)
Some words on the post-collisional magmatismLithos, 45
Jin-Hui Yang, Fu-Yuan Wu, Sun‐Lin Chung, S. Wilde, M. Chu (2006)
A hybrid origin for the Qianshan A-type granite, northeast China: Geochemical and Sr–Nd–Hf isotopic evidenceLithos, 89
K. Condie (1989)
Geochemical changes in baslts and andesites across the Archean-Proterozoic boundary: Identification and significanceLithos, 23
Mao Jing, Mlr Key (2013)
Metallogenic regularity and minerogenetic series of ore deposits in Inner Mongolia and adjacent areasMineralium Deposita
Huaqin Huaqin, Fuwen Fuwen, Hong Hong, Houqun Houqun (1999)
Study on isotopic chronology of the Mazhuangshan gold mineralization, eastern XinjiangGeological Science, 4
Zhiwei (2003)
Geochemistry and tectonic setting of the Fugang aluminous A-type granite, Guangdong Province, China-a preliminary studyGeology Geochemistry, 31
Jinsuo Jinsuo, Hongjie Hongjie (2000)
The characteristics and genesis of gold mine in JianchanggouliangMineral Resources and Geology, 77
Sun Jing (2006)
He-Ar isotopic geochemistry of fluid inclusions research of Jinchanggouliang gold deposit, Inner MongoliaMineralium Deposita
Shuguang Shuguang, Yaoling Yaoling, Chunjing Chunjing, Jianqing Jianqing, Suli Suli (2010)
Metamorphism, anatexis, zircon ages and tectonic evolution of the Gongshan block in the northern Indochina continent‐Aneastem extension of the Lhasa BlockLithos, 23
J.Lawford Anderson, E. Bender (1989)
Nature and origin of Proterozoic A-type granitic magmatism in the southwestern United States of AmericaLithos, 23
G. Eby (1992)
Chemical subdivision of the A-type granitoids:Petrogenetic and tectonic implicationsGeology, 20
Changchun Changchun, Sshiqi Sshiqi, Tao Tao (2002)
Stable isotope characteristics of the Jinchanggouliang gold deposit in Inner Mongolia and its originJournal of geomechanics, 8
Collins Collins, Beams Beams, White White, Chappell Chappell (1982)
Nature and origin of A‐type granites with particular reference to Southeastern Australia, ContriMineral. Petrol, 80
Yanlin Yanlin, Wenxiu Wenxiu, Kelin Kelin (1996)
Types and geological characteristics of gold deposits in Chifeng regionMineral Resources and Geology, 56
S. Foley, A. Peccerillo (1992)
Potassic and ultrapotassic magmas and their originLithos, 28
Nie Feng (2005)
Re-discussions on the time limitation of gold mineralization occurring within the Hadamenggou deposit,south-central Inner Mongolia autonomous region.Acta Petrologica Sinica
Fu-Yuan Wu, Deyou Sun, Hui-ming Li, B. Jahn, S. Wilde (2002)
A-type granites in northeastern China: age and geochemical constraints on their petrogenesisChemical Geology, 187
Zhenjun Zhenjun, Xueyuan Xueyuan, Henan Henan, Guosheng Guosheng, Jihao Jihao, lina lina, Huaiyu Huaiyu, Rong Rong (2014)
Characteristics of ore‐forming fluid and stable isotope studies of Jinchanggouliang gold deposit in Inner MongoliaGolbal Geology, 33
Yongsheng Liu, Shan Gao, Zhaochu Hu, Changgui Gao, K. Zong, Dong-bing Wang (2010)
Continental and Oceanic Crust Recycling-induced Melt^Peridotite Interactions in the Trans-North China Orogen: U^Pb Dating, Hf Isotopes and Trace Elements in Zircons from Mantle XenolithsJournal of Petrology, 51
Baoxin Baoxin (1992)
The adularia – sericite type low temperature epithermal gold deposits in eastern ChinaPrecious metals geological, 4
Wang Mei-ying (2007)
Present situation of researches on A-type granites:a review
Qingdong Zeng, Jianming Liu, Zuolun Zhang, Weijun Chen, Wei‐Qi Zhang (2011)
Geology and geochronology of the Xilamulun molybdenum metallogenic belt in eastern Inner Mongolia, ChinaInternational Journal of Earth Sciences, 100
I. Williams, S. Claesson (1987)
Isotopic evidence for the Precambrian provenance and Caledonian metamorphism of high grade paragneisses from the Seve Nappes, Scandinavian CaledonidesContributions to Mineralogy and Petrology, 97
H. Ohmoto (1986)
Stable isotope geochemistry of ore depositsReviews in Mineralogy & Geochemistry, 16
Whalen Whalen, Currie Currie, Chappell Chappell (1987)
A‐type granites: Geochemical characteristics discrimination and petrogenesis: Contrib MineralPetrol, 95
Lianchang Lianchang, Huaying Huaying, Peng Peng, Xiaojing Xiaojing, Zhiguang Zhiguang, Bo Bo (2010)
Ore‐forming processes and mineralition of complex tectonic system during the Mesozoic: A case from Xilamulun Cu‐Mo metallogenic beltActa Petrologica Sinica, 26
Xingshi Xingshi, Peng Peng, Jinggui Jinggui, Chen Chen, Peilong Peilong, Yixin Yixin (2011)
Element geochemistry and genesis of Early Peleozic granite in Yingchengzi goldfield, Eastern Zhangguangcailing mountain and its tectonic significanceJournal of Jilin University (Earth Science), 41
Jianping Jianping, Jiajun Jiajun, Xiangdong Xiangdong, Bin Bin, Shengmei Shengmei (2011)
The biotite Ar‐Ar age and its geological significance of Haoyaoer hole gold deposit in Inner MongoliaActa Mineralogica Sinica, SI
Y. Hiroki, Kazue Watanabe, R. Matsumoto (2004)
Lithology, Biostratigraphy, and Magneto stratigraphy of Gas Hydrate‐Bearing Sediments in the Eastern Nankai TroughResource Geology, 54
Yanjing (1998)
The Mesozoic ore-forming geodynamics background of gold deposit in granite greenstone block in the north China cratonScience in China (Series D), 28
Li Jin, Sun Gui (2007)
Shuangjingzi middle Triassic syn-collisional crust-derived granite in the east Inner Mongolia and its constraint on the timing of collision between Siberian and Sino-Korean paleo-plates.Acta Petrologica Sinica
Wanrong Hou, Chunhua Liu, Yufeng Zhai, Fu-Lai Liu, Chun‐Qiang Zhao, Hongye Bian (2014)
Study on the Metallogenic Geochronology of the Jinchanggouliang Gold Deposit in Inner MongoliaActa Geologica Sinica-english Edition, 88
Zhi Zhi, Zhongxin Zhongxin, Fuhe Fuhe (1989)
The genesis of Erdaogou gold deposit in Liaoning ProvinceJournal of changchun college of geology, 1
R. Goldfarb (2013)
Franco Pirajno: The geology and tectonic settings of China’s mineral depositsMineralium Deposita, 48
A. Dickin (1994)
Nd isotope chemistry of Tertiary igneous rocks from Arran, Scotland: implications for magma evolution and crustal structureGeological Magazine, 131
Shiguang Shiguang, Baofu Baofu, DAwei DAwei, Baoliang Baoliang, Yayun Yayun (1994)
Geochemistry and tectonic significance of alkali granites along Ulungur River, XinjiangGeological Science, 29
Discovered and mined in recent years, the Jinchangliang gold deposit has not yet been studied in its genetic type. In this paper, the geological features of ore deposit, S isotopic composition, metallogenic age and elements geochemical of the granite closely related to mineralization were discussed. The results of the geological features of ore deposit and S isotopic composition show that ore‐bearing hydrothermal solution was closely related with the intrusion of magmatic. The granite is characteristic of high silica SiO2=72.38%–72.98%, high aluminum and Al2O3=14.22%–14.35%, low calcium CaO=0.16% –0.26%, and low value of FeOT/MgO (6.86–7.73), and rich in alkalis Na2O+K2O=9.11%–9.24%, suggesting that it is high‐K calc‐alkaline, highly fractionated, weak aluminum A‐type granite. The REE patterns are inclined to right and show intense fractionation between LREE and HREE, without obvious negative Eu anomaly (δEu=0.80–0.84). The primitive mantle‐normalized spidergrams are characterized by depletion of Ba, U, Ta, Nb, Zr, Ti and P, which implies that the granite has the characteristics of the crust‐mantle mixing. S isotopes also indicate that the material source of gold deposit is closely related to the granite rocks. The LA‐ICP‐MS Zircon U‐Pb age of the Damiao rock mass medium‐fine grained monzogranite (belonging to the early Indo‐China) is (245±1) Ma. It shows that Jinchangliang gold deposit was not formed in Yanshanian, but the early Indo‐China. Specifically speaking, the deposit was formed in the collision stage of the North China plate and the Siberian plate.
Acta Geologica Sinica (English Edition) – Wiley
Published: Dec 1, 2015
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.