Full Access
U and Th Contents and Th/U Ratios of Zircon in Felsic and Mafic Magmatic Rocks: Improved Zircon-Melt Distribution Coefficients
WANG Xiang,
Williams L. GRIFFIN,
CHEN Jie,
HUANG Pinyun,
LI Xiang,
Corresponding Author
WANG Xiang
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
GEMOC ARC National Key Center, Department of Earth and Planetary Sciences, Macquarie University, Sydney, New South Wales, Australia
Corresponding author. E-mail: [email protected]Search for more papers by this authorWilliams L. GRIFFIN
GEMOC ARC National Key Center, Department of Earth and Planetary Sciences, Macquarie University, Sydney, New South Wales, Australia
Search for more papers by this authorCHEN Jie
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorHUANG Pinyun
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorLI Xiang
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorWANG Xiang,
Williams L. GRIFFIN,
CHEN Jie,
HUANG Pinyun,
LI Xiang,
Corresponding Author
WANG Xiang
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
GEMOC ARC National Key Center, Department of Earth and Planetary Sciences, Macquarie University, Sydney, New South Wales, Australia
Corresponding author. E-mail: [email protected]Search for more papers by this authorWilliams L. GRIFFIN
GEMOC ARC National Key Center, Department of Earth and Planetary Sciences, Macquarie University, Sydney, New South Wales, Australia
Search for more papers by this authorCHEN Jie
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorHUANG Pinyun
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorLI Xiang
State Key Laboratory for Mineral Deposit Research, Department of Earth Sciences, Nanjing University, Nanjing 210093, China
Search for more papers by this authorAbstract:
High-precision data on U and Th contents and Th/U ratios of zircon obtained using secondary ion mass spectrometry analysis have been collected from the literature. Zircon in the granitic rocks has median values of 350 ppm U, 140 ppm Th, and Th/U=0.52; the recommended zircon-melt partition coefficients are 81 for DU and 8.2 for DTh. In zircon from mafic and intermediate rocks, the median values are 270 ppm U, 170 ppm Th, and Th/U=0.81, and the recommended zirconmelt partition coefficients are 169 for DU and 59 for DTh The U and Th contents and Th/U ratios of magmatic zircon are low when zircon crystallizes in equilibrium with the melt. Increasing magma temperature should promote higher Th contents relative to U contents, resulting in higher Th/U ratios for zircon in mafic to intermediate rocks than in granitic rocks. However, when zircon crystallizes in disequilibrium with the melt, U and Th are more easily able to enter the zircon lattice, and their contents and Th/U ratios depend mainly on the degree of disequilibrium. The behavior of U and Th in magmatic zircon can be used as a geochemical indicator to determine the origins and crystallization environments of magmatic zircon.
References
- Ahrens, L.H., 1965. Some observations on the uranium and thorium distributions in accessory zircon from granitic rocks. Geochimica et Cosmochimica Acta, 29: 711–716.
- Ahrens, L.H., Cherry, R.D., and Erlank, A.J., 1967. Observations on the Th–U relationship in zircons from granitic rocks and from kimberlites. Geochimica et Cosmochimica Acta., 31: 2379–2387.
- Amelin, Y.V., Heaman, L.M., and Semenov, V.S., 1995. U–Pb geochronology of layered mafic intrusions in the eastern Baltic Shield: implications for the timing and duration of Paleoproterozoic continental rifting. Precambrian Research, 75: 31–46.
- Bea, F., Pereira, M.D., and Stroh, A., 1994. Mineral/leucosome trace element partitioning in a peraluminous migmatite (a laser ablation–ICP–MS study). Chemical Geology, 117: 291–312.
- Belousova, E.A., Griffin, W.L., O'Reilly, S.Y., and Fisher, N.I., 2002. Trace elements in zircon: Relationship to source rock type. Contributions to Mineralogy and Petrology, 143: 602–622.
- Benisek, A., and Finger, F., 1993. Factors controlling the development of prism faces in granite zircons: a microprobe study. Contributions to Mineralogy and Petrology, 114: 441–451.
-
Bibikova, E.V., 1984. The most ancient rocks in the USSR territory by U–Pb data on accessory zircons. In: A. Kröner,
G.N. Hanson and
A.M. Goodwin, (eds.): Archean Geochemistry,
Heidelberg
: Springer Verlag, 235–250.
10.1007/978-3-642-70001-9_11 Google Scholar
- Black, L.P., and Shaw, R.D., 1995. An assessment, based on U–Pb zircon data, of Rb–Sr dating in the Arunta Inlier, central Australia. Precambrian Research, 71: 3–15.
- Blundy, J., and Wood, B., 2003. Mineral-melt partitioning of uranium, thorium and their daughters. In: B. Bourdon, G.M. Henderson, C.C. Lundstrom and S.P. Turner, (eds.): U-series geochemistry, Reviews in mineralogy and geochemistry, 52: 59–123.
- Burton, J.A., Prim, R.C., and Slichter, W.P., 1953. The distribution of solute in crystals grown from the melt. Part I. Theoretical. Journa of Chemistry and Physics, 21: 1987–1991.
- Carpéna, J., Gagnol, I., Mailhé, D. et Pupin, J.P., 1987. L'uranium marqueur de la croissance cristalline: mise en évidence par les traces de fission dans les zircons gemmes d'Espaly (Haute-Loire, France). Bulletin de Minéralogie, 110: 459–463.
- Chen Bin, Tian Wei, Zhai Mingguo and Arakawa, Y., 2005. Zircon U–Pb geochronology and geochemistry of the Mesozoic magmatism in the Taihang Mountains and other places of the North China craton with implications for petrogenesis and geodynamic setting. Acta Petrologica Sinica, 21: 13–24 (in Chinese with English abstract).
- Chen, Y.D., and Williams, I.S., 1990. Zircon inheritance in mafic inclusions from Bega Batholith granites, southeastern Australia: an ion microprobe study. Journal of Geophysical Research, 95: 17787–17796.
- Claesson, S., Vetrin, V., Bayanova, T., and Downes, H., 2000. U–Pb zircon age from a Devonian carbonatite dyke, Kola peninsula, Russia; a record of geological evolution from the Archean to the Palaeozoic. Lithos, 51: 95–108.
- Compston, W., Williams, I.S., and Meyer, C., 1984. U–Pb geochronology of zircons from lunar Breccia 73217 using a sensitive high mass-resolution ion microprobe. Journal of Geophysical Research, 89 (supplement), 13525–13534.
- Compston, D.M., 1995. Time constraints on the evolution of the Tennant Creek Block, northern Australia. Precambrian Research, 71: 107–129.
- Condie, K.C., 1993. Chemical composition and evolution of the upper continental crust: contrasting results from surface samples and shales. Chemical Geology, 104: 1–37.
- Connors, K.A., and Page, R.W., 1995. Relationships between magmatism, metamorphism and deformation in the western Mount Isa Inlier, Australia. Precambrian Research, 71: 131–153.
- Correia Neves, J.M., and Nunes, J.E.L., 1974. High hafnium members of the zircon–hafnon series from the granite pegmatites of Zambéria, Mozambique. Contributions to Mineralogy and Petrology, 48: 73–84.
- Da Silva, L.C., Gresse, P.G., Scheepers, R., McNaughton, N.J., Hartmann, L.A., and Fletcher, I., 2000. U-Pb SHRIMP and Sm-Nd age constraints on the timing and sources of the Pan-African Cape Granite Suite, South Africa. Journal of African Earth Sciences, 30: 795–815.
- Deng Xiguang, Chen Zhigang, Li Xianhua and Liu Dunyi, 2004. SHRIMP U–Pb zircon dating of the Darongshan-Shiwandashan granitoid belt in southeastern Guangxi, China. Geological Review, 50: 426–432 (in Chinese with English abstract).
- Eichhorn, R., Loth, G., Holl, R., Finger, F., Schermaier, A., and Kennedy, A., 2000. Multistage Variscan magmatism in the central Tauern Window (Austria) unveiled by U/Pb SHRIMP zircon data. Contributions to Mineralogy and Petrology, 139: 418–435.
- Elburg, M.A., 1996. U-Pb ages and morphologies of zircon in microgranitoid enclaves and peraluminous host granite: evidence for magma mingling. Contributions to Mineralogy and Petrology, 123: 177–189.
- Fowler, A., Prokoph, A., Stern, R., and Dupuis, C., 2002. Organization of oscillatory zoning in zircon: Analysis, scaling, geochemistry, and model of a zircon from Kipawa, Quebec, Canada. Geochimica et Cosmochimica Acta, 66: 311–328.
- Fu Jianming, Ma Changqian, Xie Caifu, Zhang Yeming and Peng Songbai, 2004. SHRIMP U–Pb zircon dating of the Jiuyishan composite granite in Hunan and its geological significance. Geotectonica et Metallogenia, 28: 370–378 (in Chinese with English abstract).
- Garver, J.I., and Kamp, P.J.J., 2002. Integration of zircon color and zircon fission-track zonation patterns in orogenic belts: application to the Southern Alps, New Zealand. Tectonophysics, 349: 203–219.
- Goldschmidt, V.M., 1937. The principles of distribution of chemical elements in minerals and rocks. Journal of Chemical Society, 655–673.
- Guan Kang, Luo Zhenkuan, Miao Laicheng and Huang Jiazhan, 1998. SHRIMP in zircon chronology for Guojialing suite granite in Jiaodong Zhaoye district. Scientia Geologica Sinica, 33: 318–328 (in Chinese with English abstract).
- Han Baofu, Ji Jianqing, Song Biao, Chen Lihui and Li Zonghuai, 2004. SHRIMP zircon U-Pb ages of Kalatongke No.1 and Huangshandong Cu-Ni-bearing mafic-ultramafic complexes, North Xinjiang, and geological implications. Chinese Science Bulletin, 49: 2424–2429.
- Heaman, L.M., Bowins, R., and Crocket, J., 1990. The chemical composition of igneous zircon suites: Implications for geochemical tracer studies. Geochimica et Cosmochimica Acta, 54: 1597–1607.
- Hidaka, H., Shimizu, H., and Adachi, M., 2002. U-Pb geochronology and REE geochemistry of zircons from Palaeoproterozoic paragneiss clasts in the Mesozoic Kamiaso conglomerate, central Japan: evidence for an Archean provenance. Chemical Geology, 187: 279–293.
- Hinton, R.W., and Upton, G.J., 1991. The chemistry of zircon: variations within and between large crystals from syenite and alkali basalt xenoliths. Geochimica et Cosmochimica Acta, 55: 3287–3302.
- Hoskin, P.W.O., and Ireland, T.R., 2000. Rare earth element chemistry of zircon and its use as a province indicator. Geology, 28: 627–630.
- Hoskin, P.W.O., and Schaltegger, U., 2003. The composition of zircon and igneous and metamorphic petrogenesis. Reviews in mineralogy and geochemistry, 53: 27–62.
- Hu Fangfang, Fan Hongrui, Yang Jinhui, Wan Yusheng, Liu Dunyi, Zhai Mingguo and Jin Chengwei, 2004. Mineralizing age of the Rushan lode gold deposit in the Jiaodong Peninsula: SHRIMP U-Pb dating on hydrothermal zircon. Chinese Science Bulletin, 49: 1629–1636.
- Jensen, B.B., 1973. Patterns of trace element partitioning. Geochimica et Cosmochimica Acta, 37: 2227–2242.
- Klötzli, U.S., 1999. Th/U zonation in zircon derived from evaporation analysis: a model and its implications. Chemical Geology, 158: 325–333.
- Koester, E., Soliani, J.E., Leite, J.A.D., Hartmann, L.A., Fernandes, L.A.D., McNaughton, N.J., Santos, J.O.S., and Oliveira, L.D., 2001. SHRIMP U-Pb age for the emplacement of the Santana Granite and reactivation of the Porto Alegre Suture, southern Brazil. Journal of South American Earth Sciences, 14: 91–99.
-
Krasnobayev, A.A., 1980. Mineralogical geochemical features of zircons from kunberlites and problems of their origin.
International Geology Review, 22: 1199–1209.
10.1080/00206818209466991 Google Scholar
- Kröner, A., O'Brien, P.J., Nemchin, A.A., and Pidgeon, R.T., 2000. Zircon ages for high pressure granulites from South Bohemia, Czech Republic, and their connection to Carboniferous high temperature processes. Contributions to Mineralogy and Petrology, 138: 127–142.
- Larsen, L.H., and Effimoff, I., 1973. Composition and habits of individual zircons and zircon crystallization in the northern Boulder batholith, Montana. Geological society of American, Abstracts with Programs, 5: 707–708.
- Lee, J.K.W., Williams, I.S., and Ellis, D., 1997. Pb, U and Th diffusion in natural zircon. Nature, 390: 159–162.
- Li Xianhua, Zhou Guoqing, Zhao Jianxin, Fanning, C.M., and Compston, W., 1994. SHRIMP ion microprobe zircon U-Pb age of the NE JiangXi ophiolite and its tectonic implications. Chinese Journal of Geochemistry, 23: 125–131 (in Chinese with English abstract).
- Li Xianhua, Zhou Hanwen, Li Zhengxiang, Liu Ying and Kinny, P.D., 2001. Zircon U-Pb age and petrochemical characteristics of the Neoproterozoic bimodal volcanics from western Yangtze block. Geochimica, 30: 315–322 (in Chinese with English abstract).
- Li Xianhua, Li Zhengxiang, Zhou Hanwen, Liu Ying and Kinny, P.D., 2002. U-Pb zircon geochronology, geochemistry and Nd isotopic study of Neoproterozoic bimodal volcanic rocks in the Kangdian Rift of South China; implications for the initial rifting of Rodinia. Precambrian Research, 113: 135–154.
- Li Xianhua, Liu Dunyi, Sun Min, Li Wuxian, Liang Xirong and Liu Ying, 2004. Precise Sm-Nd and U-Pb isotopic dating of the supergiant Shizhuyuan polymetallic deposit and its host granite, SE China. Geological Magazine, 141: 225–231.
- Li Zonghuai, Han Baofu and Song Biao, 2004. SHRIMP zircon U-Pb dating of the Ertaibei granodiorite and its enclaves from eastern Junggar, Xinjiang, and geological implications. Acta Petrologica Sinica, 20: 1263–1270 (in Chinese with English abstract).
- Li Zhengxiang, Li Xianhua, Kinny, P.D., Wang, J., Zhang, S., and Zhou, H., 2003. Geochronology of Neoproterozoic syn-rift magmatism in the Yangtze Craton, South China and correlations with other continents: evidence for a mantle superplume that broke up Rodinia. Precambrian Research, 122: 85–109.
- Liu Chengdong, Mo Xuanxue, Luo Zhaohua, Yu Xuehui, Chen Hongwei, Li Shuwei and Zhao Xin, 2004. Mixing events between the crust- and mantle-derived magmas in eastern Kunlun: Evidence from zircon SHRIMP II chronology. Chinese Science Bulletin, 49: 828–833.
-
Liu Qisheng,
Wu Zhenhan,
Hu Daogong,
Ye Peisheng,
Jiang Wan,
Wang Yanbin and
Zhang Hancheng, 2004. SHRIMP U–Pb zircon dating on Nyainqentanglha granite in central Lhasa block.
Chinese Science Bulletin, 49: 76–82.
10.1007/BF02901746 Google Scholar
- Liu Yongqing, Li Peixian and Tian Shugang, 2003. SHRIMP U-Pb zircon age of late Mesozoic tuff (lava) in Luanping Basin, northern Hebei, and its implications. Acta Petrologica et Mineralogica, 22: 237–244 (in Chinese with English abstract).
- Lund, K., Aleinikoff, J.N., Kunk, M.J., Unruh, D.M., Zeihen, G.D., Hodges, W.C., du Bray, E.A., and O'Neill, J.M., 2002. SHRIMP U-Pb and 40Ar/39Ar age constraints for relating plutonism and mineralization in the Boulder Batholith region, Montana. Economic Geology, 97: 241–267.
- Lyakhovich, V.V., 1973. Rare elements in the accessory minerals of the granitoids. Nedra, Moscow, 309 pp.
- Mahood, G., and Hildreth, W., 1983. Large partition coefficient for trace elements in high-silica rhyolites. Geochimica et Cosmochimica Acta, 47: 11–30.
- Muench, O.B., 1931. The analysis of cyrtolite for lead and uranium. American Journal of Science, 21: 350–357.
- Miao Laicheng, Luo Zhenkuang, Huang Jiazhan, Wang, L.G., McNaughton, N.J., and Groves, D.I., 1997. SHRIMP U-Pb zircon dating on the granitic plutons in the gold deposit zone in the Zhaoye area, Shandong and its implication. Science in China (Series D), 27: 207–213 (in Chinese).
- Muir, R.J., Ireland, T.R., Weaver, S.D., and Bradshaw, J.D., 1996. Ion microprobe dating of Paleozoic granitoids: Devonian magmatism in New Zealand and correlations with Australia and Antarctica. Chemical Geology, 127: 191–210.
- Mumpton, F.A., and Roy, R., 1961. Hydrothermal stability studies of the zircon-thorite group. Geochimica et Cosmochimica Acta, 21: 217–238.
- Nasdala, L., Wenzel, T., Pidgeon, R.T., and Kronz, A., 1999. Internal structures and dating of complex zircons from Meissen Massif monzonites, Saxony. Chemical Geology, 156: 331–341.
-
Niu Baogui,
He Zhengjun,
Song Biao,
Ren Jishun and
Xiao Liwei, 2004. SHRIMP geochronology of volcanics of the Zhangjiakou and Yixian Formations, northern Hebei province, with a discussion on the age of the Xing'anling Group of the Great Hinggan Mountains and volcanic strata of the southeastern coastal area.
Acta Geological Sinica (English edition), 78: 1214–1228.
10.1111/j.1755-6724.2004.tb00778.x Google Scholar
- Pavlenko, A.S., Vainskhtein, E.E., and Shevaleevskii, I.D., 1957. On the hafnium–zirconium ratio in zircons of igneous and metamorphic rocks. Geochemistry, (5): 411–431.
- Pidgeon, R.T., and Compston, W., 1992. A SHRIMP ion microprobe study of inherited and magmatic zircons from four Scottish Caledonian granites. Transactions of the Royal Society of Edinburgh: Earth Sciences, 83: 473–483.
- Pidgeon, R.T., Macambira, M.J.B., and Lafon, J.M., 2000. Th-U-Pb isotopic systems and internal structures of complex zircons from an enderbite from the Pium Complex, Carajas province, Brazil: evidence for the ages of granulite facies metamorphism and the protolith of the enderbite. Chemical Geology, 166: 159–171.
- Piuzana, D., Pimentel, M.M., Fuck, R.A., and Armstrong, R., 2003. SHRIMP U-Pb and Sm-Nd data for the Araxília Belt, central Brazil. Precambrian Research, 125: 139–160.
- Roddick, J.C., and Bevier, M.L., 1995. U-Pb dating of granites with inherited zircon: Conventional and ion microprobe results from two Paleozoic plutons, Canadian Appalachians. Chemical Geology, 119: 307–329.
- Rogers, J.J.W., and Adams, J.A.S., 1969. Uranium. In: K.H. Wedepohl, (ed.): Geochemistry, Berlin : Springer Verlag, 92.
- Rubatto, D., Gebauer, G., and Compagnoni, R., 1999. Dating of eclogite-facies zircons: the age of Alpine metamorphism in the Sesia-Lanzo Zone (western Alps). Earth and Planetary Science Letters, 167: 141–158.
- Rubatto, D., 2002. Zircon trace element geochemistry: partitioning with garnet and the link between U–Pb ages and metamorphism. Chemical Geology, 184: 123–138.
- Rubatto, D., and Hermann, J., 2003. Zircon formation during fluid circulation in eclogites (Monviso, Western Alps): Implications for Zr and Hf budget in subduction zones. Geochimica et Cosmochimica Acta, 67: 2173–2187.
- Sawka, W.N., 1988. REE and trace element variations in accessory minerals and hornblende from the strongly zoned McMurry Meadows Pluton, California. Transactions of the Royal Society of Edinburgh: Earth Sciences, 79: 157–168.
- Scheepers, R., and Armstrong, R., 2002. New U-Pb SHRIMP zircon ages of the Cape Granite Suite: implications for the magmatic evolution of the Saldania Belt. South African Journal of Geology, 105: 241–256.
- Shannon, R.D., 1976. Revised effective ionic radii and systematic studies of interatomic distances in halide and chalcogenides. Acta Crystallographica (Section A), 32: 751–767.
- Singh, S., Barley, M.E., Brown, S.J., Jain, A.K., and Manickavasagam, R.M., 2002. SHRIMP U-Pb in zircon geochronology of the Chor granitoid: evidence for Neoproterozoic magmatism in the Lesser Himalayan granite belt of NW India. Precambrian Research, 118: 285–292.
- Song Minchun and Zhao Qingling, 2004. Zircon SHRIMP U-Pb dating of the Guanshan diorite-prophyrite, Rizhao, Shandong: indosinian magmato-thermal event and its constraints on the exhumation history of UHP metamorphic rocks. Geological Bulletin of China, 23: 1254–1258 (in Chinese with English abstract).
- Speer, J.A., and Cooper, B., 1982. Crystal structure of synthetic hafnon, HfSiO4, comparison with zircon and the actinide orthosilicates. American Mineralogist, 67: 804–808.
- Su Li, Song Shuguang, Song Biao, Zhou Dingwu and Hao Jianrong, 2004. SHRIMP zircon U–Pb ages of garnet pyroxenite and Fushui gabbroic complex in Song-shugou region and constraints on tectonic evolution of Qinling orogenic belt. Chinese Science Bulletin, 49: 1307–1310.
- Thrane, K., 2002. Relationships between Archean and Palaeoproterozoic crystalline basement complexes in the southern part of the East Greenland Caledonides: an ion microprobe study. Precambrian Research, 113: 19–42.
- Trendall, A.F., Basei, M.A.S., de Laeter, J.R., and Nelson, D.R., 1998. SHRIMP zircon U-Pb constraints on the age of the Carajás formation, Grão Para Group, Amazon Craton. Journal of South American Earth Sciences, 11: 265–277.
- Tyler, I.M., Page, R.W., and Griffin, T.J., 1999. Depositional age and provenance of the Marboo Formation from SHRIMP U-Pb zircon geochronology: Implications for the early Palaeoproterozoic tectonic evolution of the Kimberley region, Western Australia. Precambrian Research, 95: 225–243.
- Vavra, G., Gebauer, D., Schmid, R., and Compston, W., 1996. Multiple zircon growth and recrystallization during polyphase Late Carboniferous to Triassic metamorphism in granulites of the Ivrea Zone (Southern Alps): an ion microprobe (SHRIMP) study Contributions to Mineralogy and Petrology, 122: 337–358.
- Vavra, G., Schmid, R., and Gebauer, D., 1999. Internal morphology, habit and U-Th-Pb microanalysis of amphibolite-to-granulite facies zircons: geochronology of the Ivrea Zone (Southern Alps). Contributions to Mineralogy and Petrology, 134: 380–404.
- Wan Yusheng, Liu Dunyi and Jian Ping, 2004. Comparison of SHRIMP U-Pb dating of monazite and zircon. Chinese Science Bulletin, 49: 1501–1506.
- Wang Jian, Li Xianhua, Duan, T.Z., Liu Dunyi, Song Biao, Li Zhongxiong and Gao Yonghua, 2003. Zircon SHRIMP U-Pb dating for the Cangshuipu volcanic rocks and its implications for the lower boundary age of the Nanhua strata in South China. Chinese Science Bulletin, 48: 1663–1669.
- Wang Xiang and Kienast, J.R., 1999. Morphology and geochemistry of zircon: a case study on zircon from the microgranitoid enclaves. Science in China (Series D), 42: 544–552.
- Wang Xiang, Griffin, W.L., O'Reilly, S.Y., Zhou Xinmin, Xu Xisheng, Jackson, S.E., and Pearson, N.J., 2002. Morphology and geochemistry of zircons from late Mesozoic igneous complexes in coastal SE China: implications for petrogenesis. Mineralogical Magazine, 66: 235–251.
- Wang Xiang, Griffin, W.L., O'Reilly, S.Y., and Li Wuxian, 2007. Three stages of zircon growth in magmatic rocks from the Pingtan Complex, eastern China. Acta Geological Sinica (English edition), 81: 68–80.
- Wang Yanbin, Liu Dunyi, Zeng Pusheng, Yang Zhusheng, Meng Yifeng and Tian Shihong, 2004. SHRIMP U-Pb geochronology of Xiaotongguanshan quartz-dioritic intrusions in Tongling district and its petrogenetic implications. Acta Petrologica et Mineralogica, 23: 298–304 (in Chinese with English abstract).
- Wasserburg, G.J., 1963. Diffusion processes in lead-uranium systems. Journal of Geophysical Research, 68: 4823–4846.
- Weaver, B.L., and Tarney, J., 1984. Empirical approach to estimating the composition of the continental crust. Nature, 310: 575–577.
- Wilde, S.A., and Youssef, K., 2000. Significance of SHRIMP U-Pb dating of the Imperial Porphyry and associated Dokhan Volcanics, Gebel Dokhan, north Eastern Desert, Egypt. Journal of African Earth Sciences, 31: 403–413.
- Wilde, S.A., Valley, J.W., Peck, W.H., and Graham, C.M., 2001. Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago. Nature, 409: 175–178.
- Wilde, S.A., Wu Fuyuan and Zhang Xingzgou, 2003. Late Pan-African magmatism in northeastern China: SHRIMP U-Pb zircon evidence from granitoids in the Jiamusi Massif. Precambrian Research, 122: 311–327.
- Wingate, M.T.D., Campbell, I.H., Compston, W., and Gibson, G.M., 1998. Ion microprobe U–Pb ages for Neoproterozoic basaltic magmatism in south-central Australia and implications for the breakup of Rodinia. Precambrian Research, 87: 135–159.
- Wood, D.A., Joron, J.L., and Treuil, M., 1979. A re-appraisal of the use of trace elements to classify and discriminate between magma series erupted in different tectonic settings. Earth and Planetary Science Letters, 45: 326–336.
-
Wu Cailai,
Yang Jingsui,
Wooden, J.L.,
Shi Rendeng,
Chen Songyong,
Meibom, A., and
Martinson, C., 2004. Zircon U-Pb SHRIMP dating of the Yematan batholith in Dulan, North Qaidam, NW China.
Chinese Science Bulletin, 49: 1736–1740.
10.1007/BF03184308 Google Scholar
- Wu Fuyuan, Jahn, B.M., Wilde, S.A., Lo Chinghua, Yui Tzenfu, Lin Qiang, Ge Wenchun and Sun Deyou, 2003. Highly fractionated I-type granites in NE China (I): geochronology and petrogenesis. Lithos, 66: 241–273.
- Wu Rongxin, Zheng Yongfei and Wu Yuanbao, 2005. Zircon U-Pb age, element and oxygen isotope geochemistry of Neoproterozoic granites at Shiershan in south Anhui province. Geological Journal of China University, 11: 364–382 (in Chinese with English abstract).
- Xia Bin, Lin Qingcha and Zhang Yuquan, 2005. Zircon SHRIMP dating of diopside granite in Ailaoshan–Jinshajiang rock belt and its geological implications: example for Yuzhaokuai, Matouwan and Shilicun diopside granites. Geotectonica et Metallogenia, 29: 35–43 (in Chinese with English abstract).
- Xu Wenliang, Wang Qinghai, Yang Debin, Liu Xiaochun and Guo Jinhui, 2005. SHRIMP zircon U-Pb dating in Jingshan “migmatitic granite”, Bengbu and its geological significance. Science in China (Series D), 48: 185–191.
-
Yang Jinhui,
Wu Fuyuan,
Zhang Yanbin,
Zhang Qi and
Wilde, S.A., 2004. Identification of Mesoproterozoic zircons in a Triassic dolerite from the Liaodong Peninsula, Northeast China.
Chinese Science Bulletin, 49: 1958–1962.
10.1007/BF03184289 Google Scholar
- Young, D.N., Fanning, C.M., Shaw, R.D., Edgoose, C.J., Blake, D.H., Page, R.W., and Camacho, A., 1995. U-Pb zircon dating of tectonomagmatic events in the northern Arunta Inlier, central Australia. Precambrian Research, 71: 45–68.
- Zhai Mingguo, Ni Zhiyao, OH Changwhan, Guo Jinghui and Choi Seongyu, 2005. SHRIMP zircon age of a Proterozoic rapakivi granite batholith in the Gyeonggi massif (South Korea) and its geological implications. Geological Magazine, 142: 23–30.
- Zhang Qi, Jian Ping, Liu Dunyi, Wang Yuanlong, Qian Qing, Wang Yan and Xue Huaimin, 2003. SHRIMP dating of volcanic rocks from Ningwu area and its geological implications. Science in China, 46: 830–837.
- Zhang Yuanquan, Xia Bin, Liang Huaying, Liu Hongying and Lin Qingcha, 2004. Characteristics of zircons for dating from Daping mylonitized alkaline granite in Yunnan and their geologic implications. Geological Journal of China University, 10: 378–384 (in Chinese with English abstract).
- Zhao, Z.F., Zheng, Y.F., Wei, C.S., and Wu, Y.B., 2004. Zircon U-Pb age, element and oxygen isotope geochemistry of Mesozoic intermediate-felsic rocks in the Dabie Mountains. Acta Petrologica Sinica, 20: 1151–1174 (in Chinese with English abstract).
- Zhou Meifu, Yan Danping, Kennedy, A.K., Li Yunqian and Ding Jun, 2002. SHRIMP U-Pb zircon geochronological and geochemical evidence for Neoproterozoic arc-magmatism along the western margin of the Yangtze Block, South China. Earth and Planetary Science Letters, 196: 51–67.
