Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/petrogenesis-of-the-xihuashan-granite-in-southern-jiangxi-province-0DgkWycMuE
References (91)
-
Renmin (2005)
291Geol. J. China Univ., 11
-
Liu Jia-yuan (2005)
COMPOSITION OF XIHUASHAN GRANITES AND ITS RELATIONSHIP TO TUNGSTEN METALLOGENESISContributions to Geology and Mineral Resources Research
-
Arm (1976)
41US Geol. Survey J. of Res., 4
-
Ruizhong (2007)
139Mineral Deposits, 2
-
Penelope King, B. Chappell, C. Allen, A. White (2001)
Are A‐type granites the high‐temperature felsic granites? Evidence from fractionated granites of the Wangrah SuiteAustralian Journal of Earth Sciences, 48
-
Chatterjee (1985)
516High Heat Production (HHP) Granites, Hydrothermal Circulation and Ore Genesis, 489
-
B. Jahn, Fu-Yuan Wu, D. Hong (2000)
Important crustal growth in the Phanerozoic: Isotopic evidence of granitoids from east-central AsiaJournal of Earth System Science, 109
-
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
-
C. Allègre, D. Othman (1980)
Nd–Sr isotopic relationship in granitoid rocks and continental crust development: a chemical approach to orogenesisNature, 286
-
Jianming (2007)
651Geol. China, 34
-
Ying (1992)
49Geochimica, 1
-
Ying (1995)
241J. Northwest Univ. (Natural Science Edition), 25
-
Man Li-yan (2007)
Re-Os isotope dating of the Da'ao tungsten-tin deposit in the Jiuyi Mountains,southern Hunan ProvinceGeology in China
-
Jian‐tang Peng, Mei‐Fu Zhou, R. Hu, Nengping Shen, Shunda Yuan, X. Bi, A. Du, W. Qu (2006)
Precise molybdenite Re–Os and mica Ar–Ar dating of the Mesozoic Yaogangxian tungsten deposit, central Nanling district, South ChinaMineralium Deposita, 41
-
Julian Ballard, M. Palin, I. Campbell (2002)
Relative oxidation states of magmas inferred from Ce(IV)/Ce(III) in zircon: application to porphyry copper deposits of northern ChileContributions to Mineralogy and Petrology, 144
-
R. Scheepers, C. Smtt (1995)
Fractionation of the rare earths in a suite of highly evolved metaluminous granitoids and felsic dykes from the Western Cape Province, South AfricaJournal of African Earth Sciences, 21
-
Mao Jing (2007)
Large-scale tungsten-tin mineralization in the Nanling region,South China:Metallogenic ages and corresponding geodynamic processes.Acta Petrologica Sinica
-
B. Chappell (1999)
Aluminium saturation in I- and S-type granites and the characterization of fractionated haplogranitesLithos, 46
-
X. Lei (2008)
Early Yanshanian NE Trending Sn/W-Bearing A-Type Granites in the Western-Middle Part of the Nanling Mts RegionGeological Journal of China Universities
-
Xian‐Hua Li, Zheng‐Xiang Li, Wu-Xian Li, Y. Liu, C. Yuan, G. Wei, Changshi Qi (2007)
U-Pb zircon, geochemical and Sr-Nd-Hf isotopic constraints on age and origin of Jurassic I- and A-type granites from central Guangdong, SE China: A major igneous event in response to foundering of a subducted flat-slab?Lithos, 96
-
Ying Ying (1992)
The origin of the Xihuashan granite stock with special reference to REE patternsGeochimica, 1
-
Pengtao Yang, Shuwen Liu, Qiugen Li, F. Zhang, Zong-qi Wang, Dongsheng Wang, Rui-ting Wang, Q. Yan, Zhen Yan (2011)
Ages of the Laocheng Granitoids and Crustal Growth in the South Qinling Tectonic Domain, Central China: Zircon U‐Pb and Lu‐Hf Isotopic ConstraintsActa Geologica Sinica ‐ English Edition, 85
-
Fu-Yuan Wu, B. Jahn, S. Wilde, C. Lo, T. Yui, Qiang Lin, W. Ge, Deyou Sun (2003)
Highly fractionated I-type granites in NE China (I): geochronology and petrogenesisLithos, 66
-
沈渭洲, 徐士进, 王银喜, 杨杰东 (1994)
Study on the Nd-Sr Isotope of the Xihuashan GraniteChinese Science Bulletin, 39
-
T. Green, S. Sie, C. Ryan, D. Cousens (1989)
Proton microprobe-determined partitioning of Nb, Ta, Zr, Sr and Y between garnet, clinopyroxene and basaltic magma at high pressure and temperature☆Chemical Geology, 74
-
Faure (1986)
45 -
Zhu Jin-Chu (2006)
The Huashan—Guposhan A-type Granitoid Belt in the Western Part of the Nanling Mountains:Petrology, Geochemistry and Genetic InterpretationsActa Geological Sinica
-
Shunda Yuan, Jian‐tang Peng, R. Hu, Huimin Li, Nengping Shen, Dongliang Zhang (2008)
A precise U–Pb age on cassiterite from the Xianghualing tin-polymetallic deposit (Hunan, South China)Mineralium Deposita, 43
-
J. Beard, G. Lofgren (1991)
Dehydration Melting and Water-Saturated Melting of Basaltic and Andesitic Greenstones and Amphibolites at 1, 3, and 6. 9 kbJournal of Petrology, 32
-
Robert Rapp, E. Watson (1986)
Monazite solubility and dissolution kinetics: implications for the thorium and light rare earth chemistry of felsic magmasContributions to Mineralogy and Petrology, 94
-
P. Webb, A. Tindle, S. Barritt, G. Brown, J. Miller (1985)
Radiothermal granites of the United Kingdom: comparison of fractionation patterns and variation of heat production for selected granites -
Xian‐Hua Li, Dunyi Liu, M. Sun, Wu-Xian Li, Xi-rong Liang, Y. Liu (2004)
Precise Sm–Nd and U–Pb isotopic dating of the supergiant Shizhuyuan polymetallic deposit and its host granite, SE ChinaGeological Magazine, 141
-
P. Sylvester (1998)
Post-collisional strongly peraluminous granitesLithos, 45
-
Jin-chu Zhu, Rucheng Wang, Peihua Zhang, Caifu Xie, Wenlan Zhang, K. Zhao, Lei Xie, Ce Yang, Xudong Che, Apeng Yu, Lubin Wang (2009)
Zircon U-Pb geochronological framework of Qitianling granite batholith, middle part of Nanling Range, South ChinaScience in China Series D: Earth Sciences, 52
-
AJ Kemp, AJ Kemp, C. Hawkesworth, Gavin Foster, B. Paterson, Jon Woodhead, J. Hergt, C. Gray, M. Whitehouse (2007)
Magmatic and Crustal Differentiation History of Granitic Rocks from Hf-O Isotopes in ZirconScience, 315
-
M. Ayres, N. Harris (1997)
REE fractionation and Nd-isotope disequilibrium during crustal anatexis: constraints from Himalayan leucogranitesChemical Geology, 139
-
P. Maruéjol, M. Cuney, L. Turpin (1990)
Magmatic and hydrothermal R.E.E. fractionation in the Xihuashan granites (SE China)Contributions to Mineralogy and Petrology, 104
-
B. Chappell, W. Stephens (1988)
Origin of infracrustal (I-type) granite magmasEarth and Environmental Science Transactions of the Royal Society of Edinburgh, 79
-
T. Sisson, K. Ratajeski, K. Ratajeski, W. Hankins, A. Glazner (2005)
Voluminous granitic magmas from common basaltic sourcesContributions to Mineralogy and Petrology, 148
-
J. Clemens (2003)
S-type granitic magmas—petrogenetic issues, models and evidenceEarth-Science Reviews, 61
-
Li Yi-dou, Sheng Jifu, L. Bel, G. Giuliani (2009)
Evidence for the Lower Continental Crustal Origin of the Xihuashan Granite, 60
-
F. Bea, M. Pereira, A. Stroh (1994)
Mineral/leucosome trace-element partitioning in a peraluminous migmatite (a laser ablation-ICP-MS study)Chemical Geology, 117
-
Di‐Cheng Zhu, X. Mo, Li-quan Wang, Zhidan Zhao, Y. Niu, Changyong Zhou, Yue-heng Yang (2009)
Petrogenesis of highly fractionated I-type granites in the Zayu area of eastern Gangdese, Tibet: Constraints from zircon U-Pb geochronology, geochemistry and Sr-Nd-Hf isotopesScience in China Series D: Earth Sciences, 52
-
Collins Collins (2008)
Richards S.W. Geodynamic significance of S‐type granites in circum‐Pacific orogensGeology, 36
-
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
-
E. Mckee, J. Rytuba, Xu Keqin (1987)
Geochronology of the Xihuashan composite granitic body and tungsten mineralization, Jiangxi Province, South ChinaEconomic Geology, 82
-
P. Jian (2007)
~(40)Ar/~(39)Ar isotopic dating of tin mineralization in Furong deposit of Hunan Province and its geological significanceMineralium Deposita
-
J. Arth (1976)
Behavior of trace elements during magmatic processes - A summary of theoretical models and their applicationsJournal research U. S. geological survey, 4
-
Zhao Zhenhua, xiong xiaolin, H. Xiaodong, Wang Yixian, W. Qiang, Bao Zhiwei, B. Jahn (2002)
Controls on the REE tetrad effect in granites : Evidence from the Qianlishan and Baerzhe Granites, ChinaGeochemical Journal, 36
-
B. Chappell, A. White (1974)
Two contrasting granite types -
Ying Ying (1995)
Inclaves and their origin in Xihuashan granite bodyJ. Northwest Univ. (Natural Science Edition), 25
-
L. Changshi, Zhu Jinchu, Shen Weizhou, Xu Shi-jin (2009)
Classification and Source Materials of Continental Crust Transformation Series Granitoids in South ChinaActa Geologica Sinica-english Edition, 3
-
P. Sylvester (1989)
Post-Collisional Alkaline GranitesThe Journal of Geology, 97
-
M. Wolf, D. London (1994)
APATITE DISSOLUTION INTO PERALUMINOUS HAPLOGRANITIC MELTS : AN EXPERIMENTAL STUDY OF SOLUBILITIES AND MECHANISMSGeochimica et Cosmochimica Acta, 58
-
J. Whalen, Kenne Currie, B. Chappell (1987)
A-type granites: geochemical characteristics, discrimination and petrogenesisContributions to Mineralogy and Petrology, 95
-
Xian‐Hua Li, Sun‐Lin Chung, Hanwen Zhou, C. Lo, Y. Liu, Changmin Chen (2004)
Jurassic intraplate magmatism in southern Hunan-eastern Guangxi: 40Ar/39Ar dating, geochemistry, Sr-Nd isotopes and implications for the tectonic evolution of SE ChinaGeological Society, London, Special Publications, 226
-
Hu Rui-zhong (2008)
The Time Ranges of Granitoid Emplacement and Related Nonferrous Metallic Mineralization in Southern HunanGeological Review
-
G. Mahood, W. Hildreth (1983)
Large partition coefficients for trace elements in high-silica rhyolitesGeochimica et Cosmochimica Acta, 47
-
E. Mearns (1986)
SmNd ages for norwegian garnet peridotiteLithos, 19
-
T. Green, N. Pearson (1986)
Rare-earth element partitioning between sphene and coexisting silicate liquid at high pressure and temperatureChemical Geology, 55
-
Chappell (1974)
173Pacific Geol., 8
-
G. Hanson (1978)
The application of trace elements to the petrogenesis of igneous rocks of granitic compositionEarth and Planetary Science Letters, 38
-
J. Whalen, G. Jenner, F. Longstaffe, Francine Robert, C. Gariépy (1996)
Geochemical and Isotopic (O, Nd, Pb and Sr) Constraints on A-type Granite Petrogenesis Based on the Topsails Igneous Suite, Newfoundland AppalachiansJournal of Petrology, 37
-
Qi Liang, Hu Jing, D. Grègoire (2000)
Determination of trace elements in granites by inductively coupled plasma mass spectrometry.Talanta, 51 3
-
R. Flynn, C. Burnham (1978)
An experimental determination of rare earth partition coefficients between a chloride containing vapor phase and silicate meltsGeochimica et Cosmochimica Acta, 42
-
Jinhai Yu, Xi‐sheng Xu, S. O’Reilly, W. Griffin, Ming Zhang (2003)
Granulite xenoliths from Cenozoic Basalts in SE China provide geochemical fingerprints to distinguish lower crust terranes from the North and South China tectonic blocksLithos, 73
-
A. Ewart, W. Griffin (1994)
Application of proton-microprobe data to trace-element partitioning in volcanic rocksChemical Geology, 117
-
W. Collins, S. Richards (2008)
Geodynamic significance of S-type granites in circum-Pacific orogensGeology, 36
-
Zhenhua Zhao, Z. Bao, Boyou Zhang (1998)
Geochemistry of the Mesozoic basaltic rocks in southern Hunan ProvinceScience in China Series D: Earth Sciences, 41
-
H. Yurimoto, E. Duke, J. Papike, C. Shearer (1990)
Are discontinuous chondrite-normalized REE patterns in pegmatitic granite systems the results of monazite fractionation?Geochimica et Cosmochimica Acta, 54
-
Yu-chuan Chen (2008)
Spatial-Temporal Distribution of Mesozoic Ore Deposits in South China and Their Metallogenic SettingsGeological Journal of China Universities
-
Qu Xiao-ming (2008)
RELATIVE OXIDATION STATES OF ORE-BEARING PORPHYRIES INFERRED FROM CE(IV)/CE(III) RATIO IN ZIRCON: APPLICATION TO THE PORPHYRY COPPER BELT AT GANGDESE,TIBET -
Jiang Shao (2008)
Characteristics and Genesis of Mesozoic A-Type Granites and Associated Mineral Deposits in the Southern Hunan and Northern Guangxi Provinces along the Shi-Hang Belt,South ChinaGeological Journal of China Universities
-
Qiu Rui-zhao (2002)
EVOLUTION OF RARE EARTH ELEMENTS OF GRANITOID IN XIANGHUALING AREA, HUNAN -
Peirong (2004)
493Science in Sci. China (D): Earth Sciences, 34
-
Renmin Renmin, Peirong Peirong, Wenlan Wenlan, Junming Junming, Jinfu Jinfu, Zhanshi Zhanshi, Shengyan Shengyan (2005)
Metallogeneses and their geodynamic settings related to Mesozoic granitoids in the Nanling RangGeol. J. China Univ., 11
-
Ru Wang, F. Fontan, Xiaoming Chen, Huan Hu, C. Liu, Shijin Xu, P. Parseval (2003)
ACCESSORY MINERALS IN THE XIHUASHAN Y-ENRICHED GRANITIC COMPLEX, SOUTHERN CHINA: A RECORD OF MAGMATIC AND HYDROTHERMAL STAGES OF EVOLUTIONCanadian Mineralogist, 41
-
L. Bel, Li Yi-dou, Sheng Ji-fou (1984)
Granitic evolution of the Xihuashan-Dangping (Jiangxi, China) Tungsten-Bearing system, 33
-
U. Schaltegger, U. Krähenbühl (1990)
Heavy rare-earth element enrichment in granites of the Aar Massif (Central Alps, Switzerland)Chemical Geology, 89
-
Peirong Peirong, xinmin xinmin, Wenlan Wenlan, Huimin Huimin, Chunfang Chunfang, Tao Tao, Weifeng Weifeng, Min Min (2004)
Petrogenesis and significance of Early‐Yanshanian syenite‐granite complex in the east part of Nanling RegionScience in Sci. China (D): Earth Sciences, 34
-
Xian‐Hua Li, Wu-Xian Li, Zheng‐Xiang Li (2007)
On the genetic classification and tectonic implications of the Early Yanshanian granitoids in the Nanling Range, South ChinaChinese Science Bulletin, 52
-
X. Mo, Z. Hou, Y. Niu, G. Dong, Xiaoming Qu, Zhidan Zhao, Zhi-Ming Yang (2007)
Mantle contributions to crustal thickening during continental collision: Evidence from Cenozoic igneous rocks in southern TibetLithos, 96
-
Mao Jingwen, Xie Guiqing, L. Xiaofeng, Z. Changqing, Wang Yitian (2006)
Mesozoic Large‐scale Mineralization and Multiple Lithospheric Extensions in South ChinaActa Geologica Sinica ‐ English Edition, 80
-
Guo Jia-song (2009)
Geochemistry Characteristics of Xihuashan Tungsten Granite and Its Relationship To Tungsten MetallogenesisJournal of East China Institute of Technology
-
T. Andersen (2002)
Correction of common lead in U-Pb analyses that do not report 204PbChemical Geology, 192
-
C. Miller, Susanne McDowell, Russel Mapes (2003)
Hot and cold granites? Implications of zircon saturation temperatures and preservation of inheritanceGeology, 31
-
Arm Arm (1976)
Behavior of trace elements during magmatic processes: a summary of theoretical models and their applicationsUS Geol. Survey J. of Res., 4
-
Yuchuan (1989)
1 -
Chatterjee Chatterjee, Strong Strong (1985)
Review of some chemical and mineralogical characteristics of granitoid rocks hosting Sn, W, U, Mo deposits in Newfoundland and Nova ScotiaHigh Heat Production (HHP) Granites, Hydrothermal Circulation and Ore Genesis, 489
-
Xian‐Hua Li, Wu-Xian Li, Xuan‐Ce Wang, Qiu-li Li, Yu Liu, G. Tang (2009)
Role of mantle-derived magma in genesis of early Yanshanian granites in the Nanling Range, South China: in situ zircon Hf-O isotopic constraintsScience in China Series D: Earth Sciences, 52
-
Huichao Rui (2007)
Some problems concerning relationship between Mesozoic-Cenozoic lithospheric extension and uranium metallogenesis in South ChinaMineralium Deposita
- Publisher
- Wiley
- Copyright
- © 2012 Geological Society of China
- ISSN
- 1000-9515
- eISSN
- 1755-6724
- DOI
- 10.1111/j.1755-6724.2012.00617.x
- Publisher site
- See Article on Publisher Site
Abstract
Abstract: Mesozoic granitic intrusions are widely distributed in the Nanling region, South China, Yanshanian granites are closely connected with the formation of tungsten deposits. The Xihuashan granite is a typical representative of tungsten‐bearing granite. The Xihuashan granite consists mainly of medium‐grained porphyritic biotite granite, medium‐grained biotite granite and fine‐grained two‐mica granite, which correspond to LA‐ICP‐MS zircon U‐Pb ages of 155.5±0.4 Ma, 153.0±0.6 Ma and 152.8±0.9 Ma, respectively. Rocks from the Xihuashan mining area displays high SiO2 (73.85% to 76.49%) and Na2O+K2O contents (8.09% to 9.43%), belonging to high‐K calc‐alkaline series. They are metaluminous to weakly peraluminous with A/CNK values ranging from 0.96 to 1.06. All granites in this study area are rich in Rb, Th, U and Pb, and depleted in Ba, Sr, P, Ti, Nb and Eu, especially depleted in medium‐grained biotite granite and fine‐grained two‐mica granite. The medium‐grained porphyritic biotite granites usually have high LREE concentrations, whereas medium‐grained biotite granite and fine‐grained two‐mica granite displays high HREE contents. Our geochemical data reveal that the studied rocks are highly fractionated I‐type granite. The magma underwent strong magma differentiation with decreasing temperature and increasing oxygen fugacity, which may explain the formation of three types of distinct granites. Variations of Rb, Sr and Ba concentrations in different type granites were controlled by fractional crystallization of biotite and feldspar. Fractional crystallization of monazite, allanite and apatite resulted in LREE changes in granite, and formation of garnet mainly caused HREE changes. Granites from the Xihuashan mining area have relatively high εNd(t) values (–9.77 to –11.46), indicating that they were probably generated by partial melting of underlying Proterozoic metasedimentary rocks with minor addition of juvenile crust or mantle‐derived magmas.
Journal
Acta Geologica Sinica (English Edition) – Wiley
Published: Feb 1, 2012