岩浆锆石和磷灰石矿物化学及在斑岩矿床领域的应用

Aleinikoff J N, Selby D, Slack J F, Day D C, Pillers R M, Cosca M A, Seeger C M, Fanning C M, Samson I M. 2016. U-Pb, Re-Os, and Ar/Ar geochronology of rare earth element (REE)-rich breccia pipes and associated host rocks from the Mesoproterozoic Pea Ridge Fe-REE-Au deposit, St. Francois Mountains, Missouri. Economic Geology, 111(8): 1883~1914.

Andersen T. 2005. Detrital zircons as tracers of sedimentary provenance: Limiting conditions from statistics and numerical simulation. Chemical Geology, 216(3-4): 249~270.

Andersson S S, Wagner T, Jonsson E, Fusswinkel T, Whitehouse M J. 2019. Apatite as a tracer of the source, chemistry and evolution of ore-forming fluids: The case of the Olserum-Djupedal REE-phosphate mineralisation, SE Sweden. Geochimica et Cosmochimica Acta, 255: 163~187.

Ansberque C, Mark C, Caulfield J T, Chew D M. 2019. Combined in-situ determination of halogen (F, Cl) content in igneous and detrital apatite by SEM-EDS and LA-Q-ICPMS: A potential new provenance tool. Chemical Geology, 524: 406~420.

Audétat A, Pettke T. 2006. Evolution of a porphyry-Cu mineralized magma system at Santa Rita, New Mexico (USA). Journal of Petrology, 47(10): 2021~2046.

Audétat A. 2015. Compositional evolution and formation conditions of magmas and fluids related to porphyry Mo mineralization at Climax, Colorado. Journal of Petrology, 56 (8): 1519~1546.

Audétat A. 2019. The metal content of magmatic-hydrothermal fluids and its relationship to mineralization potential. Economic Geology, 114(6): 1033~1056.

Ayers J C, Peters T J. 2018. Zircon/fluid trace element partition coefficients measured by recrystallization of Mud Tank zircon at 1. 5 GPa and 800-1000℃. Geochimica et Cosmochimica Acta, 223: 60~74.

Baksheev I A, Prokof'Ev V Y, Zaraisky G P, Chitalin A F, Yapaskurt V O, Nikolaev Y N, Tikhomirov P L, Nagornaya E V, Rogacheva L I, Gorelikova N V. 2012. Tourmaline as a prospecting guide for the porphyry-style deposits. European Journal of Mineralogy, 24(6): 957~979.

Ballard J R, Palin M J, Campbell I H. 2002. Relative oxidation states of magmas inferred from Ce(IV)/Ce(III) in zircon: Application to porphyry copper deposits of northern Chile. Contributions to Mineralogy and Petrology, 144(3): 347~364.

Barnes J D, Sharp Z D. 2017. Chlorine isotope geochemistry. Reviews in Mineralogy and Geochemistry, 82: 345~378.

Bell E A, Boehnke P, Hopkins-Wielicki M D, Harrison T M. 2015. Distinguishing primary and secondary inclusion assemblages inJack Hills zircons. Lithos, 234-235: 15~26.

Bell E A, Boehnke P, Harrison T M, Wielicki M M. 2018. Mineral inclusion assemblage and detrital zircon provenance. Chemical Geology, 477: 151~160.

Belousova E A, Walters S, Griffin W L, O'Reilly S Y. 2001. Trace-element signatures of apatites in granitoids from the Mt Isa Inlier, northwestern Queensland. Australian Journal of Earth Sciences. 48(4): 603~619.

Belousova E A, Griffin W L, O'Reilly S Y, Fisher N I. 2002a. Igneous zircon: Trace element composition as an indicator of source rock type. Contributions to Mineralogy and Petrology, 143(5): 602~622.

Belousova E A, Griffin W L, O'Reilly S Y, Fisher N I. 2002b. Apatite as an indicator mineral for mineral exploration: Trace-element compositions and their relationship to host rock type. Journal of geochemical exploration, 76(1): 45~69.

Blevin P L, Chappell B W. 1992. The role of magma sources, oxidation states and fractionation in determining the granite metallogeny of eastern Australia. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 83(1-2): 305~316.

Blundy J, Wood B. 1994. Prediction of crystal-melt partition coefficients from elastic moduli. Nature, 372(6505): 452~454.

Bouzari F, Hart C J R, Bissig T, Barker S. 2016. Hydrothermal alteration revealed by apatite luminescence and chemistry: A potential indicator mineral for exploring covered porphyry copper deposits. Economic Geology, 111(6): 1397~1410.

Boyce J W, Liu Yang, Rossman G R, Guan Yunbin, Eiler J M, Stolper E M, Taylor L A. 2010. Lunar apatite with terrestrial volatile abundances. Nature, 466(7305): 466~469.

Boyce J W, Tomlinson S M, McCubbin F M, Greenwood J P, Treiman A H. 2014. The lunar apatite paradox. Science, 344: 400~402.

Brice J C. 1975. Some thermodynamic aspects of the growth of strained crystals. Journal of Crystal Growth, 28(2): 249~253.

Bromiley G D. 2021. Do concentrations of Mn, Eu and Ce in apatite reliably record oxygen fugacity in magmas? Lithos, 384-385: 105900.

Bruand E, Storey C, Fowler M. 2014. Accessory mineral chemistry of high Ba-Sr granites from northern Scotland: Constraints on petrogenesis and records of whole-rock signature. Journal of Petrology, 55(8): 1619~1651.

Bruand E, Storey C, Fowler M. 2016. An apatite for progress: Inclusions in zircon and titanite constrain petrogenesis and provenance. Geology, 44(2): 91~94.

Bruand E, Fowler M, Storey C, Darling J. 2017. Apatite trace element and isotope applications to petrogenesis and provenance. American Mineralogist, 102(1): 75~84.

Bruand E, Fowler M, Storey C, Laurent O, Nebel O. 2020. Accessory mineral constraints on crustal evolution: Elemental fingerprints for magma discrimination. Geochemical Perspectives, 13: 7~12.

Buret Y, von Quadt A, Heinrich C, Selby D, Wälle M, Peytcheva I. 2016. From a long-lived upper-crustal magma chamber to rapid porphyry copper emplacement: Reading the geochemistry of zircon crystals at Bajo de la Alumbrera (NW Argentina). Earth and Planetary Science Letters, 450: 120~131.

Burnham A D. 2020. Key concepts in interpreting the concentrations of the rare earth elements in zircon. Chemical Geology, 551: 119765.

Burnham A D, Berry A J. 2012. An experimental study of trace element partitioning between zircon and melt as a function of oxygen fugacity. Geochimicaet Cosmochimica Acta, 95: 196~212.

Burnham A D, Berry A J. 2014. The effect of oxygen fugacity, melt composition, temperature and pressure on the oxidation state of cerium in silicate melts. Chemical Geology, 366: 52~60.

Burnham A D, Berry A J. 2017. Formation of Hadean granites by melting of igneous crust. Nature Geoscience, 10(6): 457~461.

Cao Kang, Yang Zhiming, Hou Zengqian, Yu Chao. 2022. Contrasting porphyry Cu fertilities in the Yidun arc, eastern Tibet: Insights from zircon and apatite compositions and implications for exploration. Society of Economic Geologists Special Publication, 2(24): 231~255.

Cao Mingjian, Li Guangming, Qin Kezhang, Seitmuratova E Y, Liu Yongsheng. 2012. Major and trace element characteristics of apatites in granitoids from central Kazakhstan: Implications for petrogenesis and mineralization. Resource Geology, 62(1): 63~83.

Carmichael I S E, Ghiorso M S. 1990. The effect of oxygen fugacity on the redox state of natural liquids and their crystallising phases. Reviews in Mineralogy and Geochemistry, 24: 191~2012.

Chapman J B, Gehrels G E, Ducea M N, Giesler N, Pullen A. 2016. A new method for estimating parent rock trace element concentrations from zircon. Chemical Geology, 439: 59~70.

Chelle-Michou C, Chiaradia M, Ovtcharova M, Ulianov A, Wotzlaw J F. 2014. Zircon petrochronology reveals the temporal link between porphyry systems and the magmatic evolution of their hidden plutonic roots (the Eocene Coroccohuayco deposit, Peru). Lithos, 198-199: 129~140.

Chelle-Michou C, Chiaradia M. 2017. Amphibole and apatite insights into the evolution and mass balance of Cl and S in magmas associated with porphyry copper deposits. Contributions to Mineralogy and Petrology, 172(11): 1~26.

Chen Lei, Zhang Yong. 2018. In situ major-, trace-elements and Sr-Nd isotopic compositions of apatite from the Luming porphyry Mo deposit, NE China: Constraints on the petrogenetic-metallogenic features. Ore Geology Reviews, 94: 93~103.

Chen Weiterry, Zhou Meifu. 2015. Mineralogical and geochemical constraints on mobilization and mineralization of rare Earth elements in the Lala Fe-Cu (Mo, Ree) deposit, SW China. American Journal of Science, 315: 671~711.

Chew D M, Drost K, Petrus J A. 2019. Ultrafast, ＞50 Hz LA-ICP-MS spot analysis applied to U-Pb dating of zircon and other U-bearing minerals. Geostandards and Geoanalytical Research, 43(1): 39~60.

Chew D M, Spikings R A. 2021. Apatite U-Pb thermochronology: A review. Minerals, 11: 1095.

Cherniak D J, Watson E B. 2003. Diffusion in zircon. In: Hanchar J M, Hoskin P W O, eds. Zircon. Mineralogical Society of America and Geochemical Society. Reviews in Mineralogy and Geochemistry, 53: 113~143.

Chiaradia M, Ulianov A, Kouzmanov K, Beate B. 2012. Why large porphyry Cudeposits like high Sr/Y magmas? Scientific Reports, 2(9): 685.

Chu Meifei, Wang Kuolung, Griffin W L, Chung Sunlin, O'Reilly S Y, Pearson N J, Iizuka Y. 2009. Apatitecomposition: Tracing petrogenetic processes in Transhimalayan granitoids. Journal of Petrology, 50(10): 1829~1855.

Cogné N, Chew D M, Stuart F M. 2014. The thermal history of the western Irish onshore. Journal of the Geological Society, 171: 779~792.

Colombini L L, Miller C F, Gualda G A, Wooden J L, Miller J S. 2011. Sphene and zircon in the Highland Range volcanic sequence (Miocene, southern Nevada, USA): Elemental partitioning, phase relations, and influence on evolution of silicic magma. Mineralogy and Petrology, 102: 29~50.

Cooke D R, Baker M, Hollings P, Sweet G, Chang Zhaoshan, Danyushevsky L V, Gilbert S E, Zhou Taofa, White N C, Gemmell B, Inglis S. 2014. New advances in detecting the distal geochemical footprints of porphyry systems-epidote mineral chemistry as a tool for vectoringand fertility assessments. In: Kelley K D Golden H C, eds. Building Exploration Capability for the 21st Century. SEG Special Publication, 18. Boulder, CO, USA: Society of Economic Geologists, 127~152.

Cooke D R, Wilkinson J J, Baker M, Agnew P, Martin H. 2020. Using mineral chemistry to aid exploration: A case study from the resolution porphyry Cu-Mo deposit, Arizona. Economic Geology, 115 (4): 813~840.

Corfu F, Hanchar J M, Hoskin P, Kinny P. 2003. Atlas of zircon textures. Reviews in Mineralogy and Geochemistry, 53(1): 469~500.

Cottrell E, Walter MJ, Walker D. 2009. Metal-silicate partitioning of tungsten at high pressure and temperature: implications for equilibrium core formation in Earth. Earth and Planetary Science Letters, 281(3-4): 275~287.

Davidson J, Turner S, Handley H, Macpherson C, Dosseto A. 2007. Amphibole “sponge” in arc crust? Geology, 35(9): 787~790.

Davidson J, Turner S, Plank T. 2013. Dy/Dy*: Variations arising from mantle sources and petrogenetic processes. Journal of Petrology, 54(3): 525~537.

Dill H G. 1994. Can REE patterns and U-Th variations be used as a tool to determine the origin of apatite in clastic rocks? Sedimentary Geology, 92(s3-4): 175~196.

Dilles J H, Kent A J, Wooden J L, Tosdal R, Koleszar A, Lee R G, Farmer L P. 2015. Zircon compositional evidence for sulfur-degassing from ore-forming arc magmas. Economic Geology. 110 (1): 241~251.

Doherty A L, Webster J D, Goldoff B A, Piccoli P M. 2014. Partitioning behavior of chlorine and fluorine in felsic melt-fluid(s)-apatite systems at 50 MPa and 850~950℃. Chemical Geology, 384: 94~111.

Dong Ping. 2005. Halogen-element (fluorine, chlorine, and bromine) behaviour in apatites, scapolite, and sodalite: An experimental investigation with field applications. Doctoral dissertation of University of Saskatchewan (Canada).

Du Jingguo, Wang Gongwen, Jia Lihui. 2019. In situ major and trace element compositions of apatites from Luanchuan orecluster: Implications for porphyry Mo mineralization. Ore Geology Reviews, 115: 103174.

Duan Zhanzhan, Wei Chuanjing, Rehman H U. 2017. Metamorphic evolution and zircon ages of pelitic granulites in eastern Hebei, North China Craton: Insights into the regional Archean P-T-t history. Precambrian Research, 292: 240~257.

Es'kova E M. 1959. Geochemistry of Nb and Ta in the nepheline syenite massifs of the Vishnevyie Mountains. Geokhimiya, 2: 130~139.

Ewart A, Griffin W L. 1994. Application of proton-microprobe data to trace-element partitioning in volcanic rocks. Chemical Geology, 117(1-4): 251~284.

Feng Yantong, Zhang Wen, Hu Zhaochu Liu Yongsheng, Luo Tao, He Tao, Liu Hong, Yu Kun, 2022. A new analytical mode and application of the laser ablation inductively coupled plasma mass spectrometer in the earth sciences. Science China Earth Sciences, 65(1): 182~196.

Fernandes P, Cogne N, Chew D M, Rodrigues B, Jorge R C G S, Marques J, Jamal D, Vasconcelos L. 2015. The thermal history of the Karoo Moatize-Minjova Basin, Tete Province, Mozambique: An integrated vitrinite reflectance and apatite fission track thermochronology study. Journal of African Earth Sciences, 112(A): 55~72.

Ferry J M, Watson E B. 2007. New thermodynamic models and revised calibrations for the Ti-in-zircon and Zr-in-rutile thermometers. Contributions to Mineralogy and Petrology, 154(4): 429~437.

Finch R J, Hanchar J M. 2003. Structure and chemistry of zircon and zircon-group minerals. Reviews in Mineralogy and Geochemistry, 53: 1~25.

Fleet M E. 2005. XANES spectroscopy of sulfur in Earth materials. Canadian Mineralogist, 43: 1811~1838.

Fleet M E, Pan Yuanming. 1995. Site preference of rare earth elements in fluorapatite. American Mineralogist, 80(3): 329~335.

Fleet M E, Liu Xiaoyang, Pan Yuanming. 2000. Rare-earth elements in chlorapatite [Ca10(PO4)6Cl2]: Uptake, site preference, and degradation of monoclinic structure. American Mineralogist, 85(10): 1437~1446.

Fleischer M, Altschuler Z S. 1986. The lanthanides and yttrium in minerals of the apatite group-an analysis of the available data. Neues Jb. Mineral. Monat, 467~480.

Franz G, Morteani G, Rhede D. 2015. Xenotime-(Y) formation from zircon dissolution-precipitation and HREE fractionation: An example from a metamorphosed phosphatic sandstone, Espinhao fold belt (Brazil). Contributions to Mineralogy and Petrology, 170(4): 1~22.

Frondel. 1953, Hydroxyl substitution in thorite and zircon. American Mineralogist, 38: 1007~1018.

Frost B R, Lindsley D. 1991. Occurance of iron-titanium oxides in igneous rocks. Reviews in Mineralogy and Geochemistry, 25: 433~468.

Fujimaki H. 1986. Partition coefficients of Hf, Zr, and REE between zircon, apatite, and liquid. Contributions to Mineralogy and Petrology, 94(1): 42~45.

Gao Xue, Yang Liqiang, Wang Chenguang, He Wenyan, Bao Xingshang, Zhang Shaoying. 2020. Halogens and trace elements of apatite from Late Mesozoic and Cenozoic porphyry Cu-Mo-Au deposits in SE Tibet, China: Constraints on magmatic fertility and granitoid petrogenesis. Journal of Asian Earth Sciences, 203(10): 104552.

Ghiorso M S, Evans B W. 2008. Thermodynamicsof rhombohedral oxide solid solutions and a revision of the Fe-Ti two-oxide geothermometer and oxygen-barometer. American Journal of Science, 308(9): 957~1039.

Ghiorso M S, Gualda G A R. 2013. A method for estimating the activity oftitania in magmatic liquids from the compositions of coexisting rhombohedral and cubic iron-titanium oxides. Contributions to Mineralogy and Petrology, 165: 73~81.

Gillespie J, Nemchina A A, Kinny P D, Martin L, Aleshin M, Roberts M P, Ireland T R, Whitehouse M J, Jeon H, Cavosie A J, Kirkland C L. 2021. Strontium isotope analysis of apatite via SIMS. Chemical Geology, 559: 119979.

Goldoff B, Webster J D, Harlov D E. 2012. Characterization of fluor-chlorapatites by electron probe microanalysis with a focus on time-dependent intensity variation of halogens. American Mineralogist, 97: 1103~1115.

Grimes C B, John B E, Kelemen P B, Mazdab F K, Wooden J L, Cheadle M J, Hanghøj K, Schwartz J. 2007. Trace element chemistry of zircons from oceanic crust: A method for distinguishing detrital zircon provenance. Geology, 35(7): 643~646.

Grimes C B, Wooden J L, Cheadle M J, John B E. 2015. “Fingerprinting” tectono-magmatic provenance using trace elements in igneous zircon. Contributions to Mineralogy and Petrology, 170: 46.

Halden N M, Hawthorne F C. 1993. The fractal geometry of oscillatory zoning in crystals: Application to zircon. American Mineralogist, 78(9-10): 1113~1116.

Hammouda T, Chantel J, Devidal J. 2010. Apatite solubility in carbonatitic liquids and trace element partitioning between apatite and carbonatite at high pressure. Geochimicaet Cosmochimica Acta, 74(24): 7220~7235.

Harlov D E, Andersson U B, Förster H-J, Nyström J O, Dulski P, Broman C. 2002. Apatite-monazite relations in the Kiirunavaara magnetite apatite ore, northern Sweden. Chemical Geology, 191(1-3): 47~72.

Harlov D E, Förster H J. 2003. Fluid-induced nucleation of (Y+REE) phosphate minerals within apatite: Nature and experiment. Part II. Fluorapatite. American Mineralogist, 88: 1209~1229.

Harlov D E, Wirth R, Förster H. 2005. An experimental study of dissolutionreprecipitation in fluorapatite: Fluid infiltration and the formation of monazite. Contributions to Mineralogy and Petrology, 150: 268~286.

Harlov D E. 2015. Apatite: a fingerprint for metasomatic processes. Elements, 11: 171~176.

Hayden L A, Watson E B. 2007. Rutile saturation in hydrous siliceous melts and its bearing on Ti-thermometry of quartz and zircon. Earth and Planetary Science Letters, 258: 561~568.

Heaman L M, Bowins R, Crocket J. 1990. The chemical composition of igneous zircon suites: Implications for geochemical tracer studies. Geochimica et Cosmochimica Acta, 54(6): 1597~1607.

Hedenquist J W, Watanabe Y, Arribas A. 2020. Hypogene alunite from theel salvador district, chile, indicates potential for a blind porphyry copper center. Economic Geology, 115(2): 231~239.

Henrichs I A, Chew D M, O'Sullivan G J, Mark C, McKenna C, Guyett P. 2019. Trace-element (Mn-Sr-Y-Th-REE) and U-Pb isotope systematics of metapelitic apatite during progressive greenschist-to amphibolite-facies Barrovian metamorphism. Geochemistry, Geophysics, Geosystems, 20(8): 4103~4129.

Hoskin P. 2000. Patterns of chaos: Fractal statistics and the oscillatory chemistry of zircon. Geochimica et Cosmochimica Acta, 64: 1905~1923.

Hou Zengqian, Duan Lianfeng, Zheng Yuanchuan, Zhu Dicheng, Yang Zhiming, Yang, Zhusen, Wang Baodi, Pei Yingru, Zhao Zhidan, McCuaig T C. 2015. Lithospheric architecture of the Lhasa terrane and its control on ore deposits in the Himalayan-Tibetan orogen. Economic Geology, 110(6): 1541~1575.

Hsu Y J, Zajacz Z, Ulmer P, Heinrich C A. 2019. Chlorine partitioning between granitic melt and H2O-CO2-NaCl fluids in the Earth's upper crust and implications for magmatic-hydrothermal ore genesis. Geochimica et Cosmochimica Acta, 261: 171~190.

Hughes J M, John M. 2015a. The many facets of apatite. American Mineralogist, 100(5-6): 1033~1039.

Hughes J M, Rakovan J F. 2015b. Structurally robust, chemically diverse: Apatite and apatite supergroup minerals. Elements, 11(3): 165~170.

Imai A. 2004. Variation of Cl and SO3 contents of microphenocrystic apatite in intermediate to silicic igneous rocks of Cenozoic Japanese island arcs: Implications for porphyry Cu metallogenesis in the Western Pacific Island arcs. Resource Geology, 54(3): 357~372.

Imai A, Listanco E L, Fujii T. 1993. Petrologic and surfur isotopic significance of highly oxidized and silfur-rich magma of Mt. Pinatabo, Philippines. Geology, 21(8): 699~702.

Imai A. 2002. Metallogenesis of porphyry Cu deposits of the western Luzon arc, Philippines: K-Ar ages, SO3 contents of microphenocrystic apatite and significance of intrusive rocks. Resource Geology, 52(2): 147~161.

Ishihara S. 1981. The granitoid series and mineralization. Economic Geology, 75: 458~484.

Jiang Xiaoyan, Li He, Ding Xing, Wu Kai, Guo Jia, Liu Jiqiang, Sun Weidong. 2018. Formation of A type granites in the Lower Yangtze River Belt: A perspective from apatite geochemistry. Lithos, 304-307: 125~134.

Jugo P J. 2009. Sulfur content at sulfide saturation in oxidized magmas. Geology, 37(5): 415~418.

Jugo P J, Luth R W, Richards J P. 2005. Experimental data on the speciation of sulfur as a function of oxygen fugacity in basaltic melts. Geochimicaet Cosmochimica Acta, 69(2): 497~503.

Jugo P J, Wilke M, Botcharnikov R E. 2010. Sulfur K-edge XANES analysis of natural and synthetic basaltic glasses: Implications for S speciation and S content as function of oxygen fugacity. Geochimica et Cosmochimica Acta, 74: 5926~5938.

Kirkland C L, Smithies R H, Taylor R, Evans N, McDonald B. 2015. Zircon Th/U ratios in magmatic environs. Lithos, 212-215: 397~414.

Klemme S, Dalpé C. 2003. Trace-element partitioning between apatite and carbonatite melt. American Mineralogist, 88: 639~646.

Konecke B A, Fiege A, Simon A C, Parat F, Stechern A. 2017. Co-variability of S6+, S4+, and S2+ in apatite as a function of oxidation state: implications for a new oxybarometer. American Mineralogist, 102(3): 548~557.

Konecke B A, Fiege A, Simon A C, Linsler S, Holtz F. 2019. An experimental calibration of a sulfur-in-apatite oxybarometer for mafic systems. Geochimica et Cosmochimica Acta, 265: 242~258.

Kouzmanov K, Pokrovski G S. 2012. Hydrothermal controls on metal distribution in porphyry Cu (-Mo-Au) Systems. Society of Economic Geologists Special Publication 16: 573~618.

Kusebauch C, John T, Whitehouse M J, Engvik A. 2015a. Apatite as probe for the halogen composition of metamorphic fluids (Bamble Sector, SE Norway). Contributions to Mineralogy and Petrology, 170(4): 1~20.

Kusebauch C, John T, Whitehouse M J, Klemme S, Putnis A. 2015b. Distribution of halogens between fluid and apatite during fluid-mediated replacement processes. Geochimicaet Cosmochimica Acta, 170: 225~246.

Kutoglu A. 1974, Structure refi nement of the apatite Ca5(VO4)3(OH). Neues Jahrbuch für Mineralogie - Monatshefte, 5: 210~218.

La Tourrette T Z, Burnett D S, Bacon C R. 1991. Uranium and minor-element partitioning in Fe-Ti oxides and zircon from partially melted granodiorite, Crater Lake, Oregon. Geochimicaet Cosmochimica Acta, 55(2), 457~469.

Lee R G, Byrne K, D'Angelo M, Hart C J R, Alfaro M. 2021. Using zircon trace element composition to assess porphyry copper potential of the Guichon Creek batholith and Highland Valley Copper deposit, south-central British Columbia. Mineralium Deposita, 56(2): 215~238.

Leng Chengbiao, Cooke D R, Hou Zenqian, Evans N J, Zhang Xingchun, Chen Weiterry, Danišík M, McInnes B I A, Yang Jiehua. 2018. Quantifying exhumation at the giant Pulang porphyry Cu-Au deposit using U-Pb-He dating. Economic Geology, 113(5): 1077~1092.

Li Huijuan, Hermann J. 2017. Chlorine and fluorine partitioning between apatite and sediment melt at 2. 5 GPa, 800℃: A new experimentally derived thermodynamic model. American Mineralogist, 102(3): 580~594.

Li Jinxiang, Li Guangming, Evans N J, Zhao Junxing, Qin Kezhang, Xie Jing. 2021. Primary fluid exsolution in porphyry copper systems: Evidence from magmatic apatite and anhydrite inclusions in zircon. Mineralium Deposita, 56(2): 407~415.

Li Linlin, Shi Yuruo, Anderson J L, Ubide T, Nemchin A A, Caulfield J, Wang Xuance, Zhao Jianxin. 2021. Dating mafic magmatism by integrating baddeleyite, zircon and apatite U-Pb geochronology: A case study of Proterozoic mafic dykes/sills in the North China Craton. Lithos, 105820: 380~381.

Li Qiuli. 2016. “High-Ueffect” during SIMS zircon U-Pb dating. Bulletin of Mineralogy, Petrology and Geochemistry, 35(3): 405~412 (in Chinese with English abstract).

Li Qiuyun, Yang Zhiming, Wang Rui, Sun Maoyu, Qu Huanchun. 2021. Zircon trace elemental and Hf-O isotopic compositions of the Miocene magmatic suite in the giant Qulong porphyry copper deposit, southern Tibet. Acta Petrologicaet Mineralogica, 40(6): 1023~1048 (in Chinese with English abstract).

Li Weikai, Cheng Yuanqi, Yang Zhiming. 2019. Geo-integrated software for analysis of magmatic oxygen fugacity. Geochemistry, Geophysics, Geosystems, 20(5): 2542~2555.

Li Weiran, Costa F. 2020. A thermodynamic model for F-Cl-OH partitioning between silicate melts and apatite including non-ideal mixing with application to constraining melt volatile budgets. Geochimica et Cosmochimica Acta, 269: 203~222.

Li Weiran, Costa F, Nagashima K, 2021. Apatite crystals reveal melt volatile budgets and magma storage depths at Merapi volcano, Indonesia. Journal of Petrology, 62(4): 1~35.

Li Xianhua, Li Yang, Li Qiuli, Wu Liguang, Wang Hao, Yang Chuan, Wei Gangjian, Zhang Wanfeng. 2022. Progress and prospects of radiometric geochronology. Acta Geologica Sinica, 96(1): 104~122 (in Chinese with English abstract).

Li Xiaochun, Zhou Meifu. 2015. Multiple stages of hydrothermal REE remobilization recorded in fluorapatite in the Paleoproterozoic Yinachang Fe-Cu-(REE) deposit, Southwest China. Geochimicaet Cosmochimica Acta, 166: 53~73.

Li Yang, Li Xianhua, Selby D, Li Jianwei. 2018. Pulsed magmatic fluid release for the formation of porphyry deposits: Tracing fluid evolution in absolute time from the Tibetan Qulong Cu-Mo deposit. Geology, 46(1): 7~10.

Liu Xuelong, Yang Zhiming, Lu Yingxiang, Mei Shehua, Zhang Na, Zhu Jun, Chen Jianhang, Liu Sihan, Li Zhenhuan. 2021. Apatite and zircon fission track chronology of the Late Cretaceous porphyry Mo-Cu deposits in the Zhongdian area, Yunnan. Acta Geologica Sinica, 95(11): 3366~3379.

Liu Yongsheng, Hu Zhaochu, Zong Keqing, Gao Changgui, Gao Shan, Xu Juan, Chen Haihong. 2010. Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MS. Chinese Science Bulletin, 55(15): 1535~1546.

Liu Yu, Li Qiuli, Tang Guoqiang, Li Xianhua. 2020a. Concurrent determination of U-Pb age and REE mass fractions of zircon by high mass resolution SIMS. Geostandards and Geoanalytical Research, 44(3): 421~437.

Liu Yu, Li Xianhua, Li Qiuli, Tang Guoqiang. 2020b. Breakthrough of 2- to 3-μm scale U-Pb zircon dating using Cameca IMS-1280HR SIMS. Surface and Interface Analysis, 52(5): 214~223.

Loader M A, Wilkinson J J, Armstrong R N. 2017. The effect of titanite crystallisation on Eu and Ce anomalies in zircon and its implications for the assessment of porphyry Cu deposit fertility. Earth and Planetary Science Letters, 472: 107~119.

Long Yijie, Yang Wei, Lin Yangting, Yang Jinhui, Hao Jialong, Zhang Jianchao. 2019. Sub-micron trace elemental distributions and U-Pb dating of zircon from the oldest rock in the Anshan area, North China Craton. Precambrian Research, 322: 1~17.

Loucks R R. 2014. Distinctive composition of copper-ore-forming arc magmas. Journal of the Geological Society of Australia, 61(1): 5~16.

Loucks R R, Fiorentini M L, Rohrlach B D. 2018. Divergent T-fo2 paths during crystallisation of H2O-rich and H2O-poor magmas as recorded by Ce and U in zircon, with implications for TitaniQ and TitaniZ geothermometry. Contributions to Mineralogy and Petrology, 173: 104.

Loucks R R, Fiorentini M L, Henríquez G J. 2020. New magmatic oxybarometer using trace elements in zircon. Journal of Petrology, 61(3): 1~30.

Lu Yongjun, Loucks R R, Fiorentini M L, Yang Zhiming, Hou Zengqian. 2015. Fluid flux melting generated post-collisional high-Sr/Y copper-ore-forming water-rich magmas in Tibet. Geology, 43: 583~586.

Lu Yongjun, Loucks R R, Fiorentini M, McCuaig T C, Evans N J, Yang Zhiming, Hou Zengqian, Kirkland C L, Parra-Avila L A, Kobussen A. 2016. Zircon compositions as a pathfinder for porphyry Cu±Mo±Au deposits. Society of Economic Geologists, Special Publication, 329~347.

Lu Yongjun, Smithies R H, Wingate M, Evans N J, McCuaig T C, Champion D C, Outhwaite M. 2019. Zircon fingerprinting of magmatic-hydrothermal systems in the Archean Yilgarn Craton. Geological Survey of Western Australia, 197.

Luo Yan, Ayers J C. 2009. Experimental measurements of zircon/melt trace-element partition coefficients. Geochimica et Cosmochimica Acta, 73: 3656~3679.

Mahood G, Hildreth W. 1983. Large partition coefficients for trace elements in high-silica rhyolites. Geochimica et Cosmochimica Acta, 47(1): 11~30.

Mao Mao, Rukhlov A S, Rowins S M, Spence J, Coogan L A. 2016. Apatite trace element compositions: A robust new tool for mineral exploration. Economic Geology, 111(5): 1187~1222.

Marks M A W, Scharrer M, Ladenburger S, Markl G. 2016. Comment on “Apatite: A new redox proxy for silicic magmas?” \[Geochimica et Cosmochimica Acta 132 (2014) 101~119\]. Geochimica et Cosmochimica Acta, 183: 267~270.

Marshall A S, Macdonald R, Rogers N W, Fitton J G, Tindle A G, Nejbert K Hinton R W. 2009. Fractionation of peralkaline silicic magmas: The Greater Olkaria Volcanic Complex, Kenya Rift Valley. Journal of Petrology, 50(2): 323~359.

Mathez E A, Webster J D. 2005. Partitioning behavior of chlorine and fluorine in the system apatite-silicate melt-fluid. Geochimicaet Cosmochimica Acta, 69(5): 1275~1286.

McCubbin F M, Steele A, Nekvasil H, Schnieders A, Rose T, Fries M, Carpenter P K, Jolliff B L. 2010. Detection of structurally bound hydroxyl in apatite from Apollo Mare basalt 15058, 128 using Tof-SIMS. American Mineralogist, 95(8-9): 1141~1150.

McCubbin F M, Hauri E H, Elardo S M, Vander Kaaden K E, Wang Jianhua, Shearer C K. 2012. Hydrous melting of the martian mantle produced both depleted and enriched shergottites. Geology, 40(8): 683~686.

McCubbin F M, Vander Kaaden K E, Tartèse, R, Boyce J W, Mikhail S, Whitson E S, Bell A S, Anand M, Franchi I A, Wang Jianhua, Hauri E H. 2015. Experimental investigation of F, Cl, and OH partitioning between apatite and Fe-rich basaltic melt at 1. 0-1. 2 GPa and 950-1000℃. American Mineralogist, 100(8-9): 1790~1802.

Meng Juntong, Xia Xiaoping, Ma Lin, Jiang Ziqi, Xu Jian, Cui Zexian, Yang Qing, Zhang Wanfeng, Zhang Le. 2021. A H2O-in-zircon perspective on the heterogeneous water content of crust-derived magmas in southern Tibet. Science China Earth Science, 64: 1184~1194 (in Chinese with English abstract).

Miles A J, Graham C M, Hawkesworth C J, Gillespie M, Hinton R, Bromiley G. 2014. Apatite: A new redox proxy for silicic magmas? Geochimica et Cosmochimica Acta, 132: 101~119.

Mohammadi N, Lentz D R, Mcfarlane C, Yang Xueming. 2021. Biotite composition as a tool for exploration: An example from Sn-W-Mo-bearing Mount Douglas granite, New Brunswick, Canada. Lithos, 382-383: 105926.

Murali A V, Parthasarathy R, Mahadevan T M, Das M S. 1983. Trace element characteristics, REE patterns and partition coefficients of zircons from different geological environments—a case study on Indian zircons. Geochimica et Cosmochimica Acta, 47(11): 2047~2052.

Mutch E J F, Blundy J D, Tattitch B C, Cooper F J, Brooker R A. 2016. An experimental study of amphibole stability in low-pressure granitic magmas and a revised Al-in-hornblende geobarometer. Contributions to Mineralogy and Petrology, 171: 85.

Nagasawa H. 1970. Rare earth concentrations in zircons and apatites and their host dacites and granites. Earth and Planetary Science Letters, 9(4): 359~364.

Nandedkar R H, Hürlimann N, Ulmer P, Müntener O. 2016. Amphibole-melt trace element partitioning of fractionating calc-alkaline magmas in the lower crust: An experimental study. Contributions to Mineralogy and Petrology, 171(8-9): 71.

Nardi L V S, Formoso M L L, Müller I F, Fontana E, Jarvis K, Lamarão C. 2013. Zircon/rock partition coefficients of REEs, Y, Th, U, Nb, and Ta in granitic rocks: Uses for provenance and mineral exploration purposes. Chemical Geology, 335: 1~7.

Nathwani C L, Loader M A, Wilkinson J J, Buret, Y, Sievwright R H, Hollings P. 2020. Multi-stage arc magma evolution recorded by apatite in volcanic rocks. Geology, 48: 324~327.

Odlum M L, Levy D A, Stockli D F, Stockli L D, DesOrmeau J W. 2022. Deformation and metasomatism recorded by single-grain apatite petrochronology. Geology, 50(6): 697~703.

Ohmoto H. 1986. Stable isotope geochemistry of ore deposits. Reviews in Mineralogy and Geochemistry, 16: 491~559.

O'Sullivan G, Chew D M, Kenny G, Henrichs I, Mulligan D. 2020. The trace element composition of apatite and its application to detrital provenance studies. Earth-Science Reviews, 201: 103044.

Pan Lichuan, Hu Ruizhong, Wang Xinsong, Bi Xianwu, Zhu Jingjing, Li Chusi. 2016. Apatite trace element and halogen compositions as petrogenetic-metallogenic indicators: Examples from four granite plutons in the Sanjiang region, SW China. Lithos, 254: 118~130.

Pan Yuanming, Fleet M E. 2002. Compositions ofthe apatite-group minerals: Substitution mechanisms and controlling factors. Reviews in Mineralogy and Geochemistry, 48: 13~49

Parat F, Holtz F O. 2004. Sulfur partitioning between apatite and melt and effect of sulfur on apatite solubility at oxidizing conditions. Contributions to Mineralogy and Petrology, 147(2): 201~212.

Parat F, Holtz F. 2005. Sulfur partition coefficient between apatite and rhyolite: The role of bulk S content. Contributions to Mineralogy and Petrology, 150(6): 643~651.

Parat F, Holtz F, Streck M J. 2011. Sulfur-bearing magmatic accessory minerals. Reviews in Mineralogy and Geochemistry, 73: 285~314.

Paris E, Giuli G, Carroll M R, Davoli I. 2001. The valence and speciation of sulfur in glasses by X-ray absorption spectroscopy. Canadian Mineralogist, 39(2): 331~339.

Peng Genyong, Luhr J F, Mcgee J J. 1997. Factors controlling sulfur concentrations in volcanic apatite. American Mineralogist, 82(11-12): 1210~1224.

Piccoli P M, Candela P A. 1994. Apatite in felsic rocks: a model for the estimation of initial halogen concentrations in the bishop tuff (long valley) and tuolumne intrusive suite (Sierra Nevada Batholith) magmas. American Journal of Science, 294: 92~135.

Piccoli P M, Candela P A. 2002. Apatite in igneous systems. Reviews in Mineralogy and Geochemistry, 48(1): 255~292.

Prowatke S, Klemme S. 2006. Trace element partitioning between apatite and silicate melts. Geochimicaet Cosmochimica Acta, 70(17): 4513~4527.

Putirka K. 2016. Amphibole thermometers and barometers for igneous systems and some implications for eruption mechanisms of felsic magmas at arc volcanoes. American Mineralogist, 101: 841~858.

Pyle J M, Spear F S, Wark D A. 2002. Electron microprobe analysis of REE in apatite, monazite and xenotime: protocols and pitfalls. Reviews in Mineralogy and Geochemistry, 48: 337~362.

Quintero R R, Kitajima K, Lackey J S, Kozdon R, Strickland A, Valley J W. 2021. Oxygen isotope ratios in zircon and garnet: a record of assimilation and fractional crystallization in the Dinkey Dome peraluminous granite, Sierra Nevada, California. American Mineralogist, 106(5): 715~729.

Reubi O, Blundy J. 2009. A dearth of intermediate melts at subduction zone volcanoes and the petrogenesis of arc andesites. Nature, 461: 1269~1273.

Richards J P. 2003. Tectono-magmatic precursors for porphyry Cu (Mo-Au) deposit formation. Economic Geology, 98(8): 1515~1533.

Richards J P. 2015. The oxidation state, and sulfur and Cu contents of arc magmas: Implications for metallogeny. Lithos, 233: 27~45.

Richards J P, Boyce A J, Pringle M S. 2001. Geologic evolution of the Escondida area, northern Chile: A model for spatial and temporal localization of porphyry Cu mineralization. Economic Geology, 96(2): 271~305.

Richards J P. 2011. High Sr/Y arc magmas and porphyry Cu±Mo±Au deposits: Just add water. Economic Geology and the Bulletin of the Society of Economic Geologists, 106: 1075~1081.

Richards J P, Spell T, Rameh E, Razique A, Fletcher T. 2012. High Sr/Y magmas reflect arc maturity, high magmatic water content, and porphyry Cu±Mo±Au potential: Examples from the Tethyan arcs of central and eastern Iran and Western Pakistan. Economic Geology, 107(2): 295~332.

Richards J P, López G P, Zhu Jingjing, Creaser R A, Locock A J, Mumin A H. 2017. Contrasting tectonic settings and sulfur contents of magmas associated with Cretaceous porphyry Cu ± Mo ± Au and intrusion-related iron oxide Cu-Au deposits in northern Chile. Economic Geology, 112(2): 295~318.

Ricketts J W, Kelley S A, Karlstrom K E, SchmandtB, Donahue M S, van Eijk J. 2016. Synchronous opening of the Rio Grande rift along its entire length at 25-10 Ma supported by apatite (U-Th)/He and fission-track thermochronology, and evaluation of possible driving mechanisms. Geological Society of America Bulletin, 128(3-4): 397~424.

Ridolfi F, Puerini M, Renzulli A, Menna M, Toulkeridis T. 2008. The magmatic feeding system of El Reventador volcano (Sub-Andean zone, Ecuador) constrained by texture, mineralogy and thermobarometry of the 2002 erupted products. Journal of Volcanology and Geothermal Research, 176(1): 94~106.

Ridolfi F, Renzulli A, Puerini M. 2010. Stability and chemical equilibrium of amphibole in calc-alkaline magmas: An overview, new thermobarometric formulations and application to subduction-related volcanoes. Contributions to Mineralogy and Petrology, 160(1): 45~66.

Robinson K L, Taylor G J. 2014. Heterogeneous distribution of water in the Moon. Nature Geoscience, 7(6): 401~408.

Rochín-BañagaH, Davis D W, Schwennicke T. 2021. First U-Pb dating of fossilized soft tissue using a new approach to paleontological chronometry. Geology, 49(9): 1027~1031.

RØnsbo J G. 1989. Coupled substitutions involving REEs and Na and Si in apatites in alkaline rocks from the Ilimaussaq intrusion, South Greenland, and the petrological implications. American Mineralogist, 74: 896~901.

Rubatto D. 2017. Zircon: The metamorphic mineral. Reviews in Mineralogy and Geochemistry, 83(1): 261~295.

Rubatto D, Hermann J. 2007. Experimental zircon/melt and zircon/garnet trace element partitioning and implications for the geochronology of crustal rocks. Chemical Geology, 241(1-2): 38~61.

Rutherford M. 1988. The May 18, 1980, eruption of Mount St. Helens: 3. Stability and chemistry of amphibole in the magma chamber. Journal of Geophysical Research Solid Earth, 93(B10): 11949~11959.

Rutherford M J, Hill P M. 1993. Magmas ascent rates from amphibole breakdown: An experimental study applied to the 1980-1986 Mt. St. Helens eruptions. Journal of Geophysical Research Solid Earth, 98(B11): 19667~19685.

Sano Y, Terada K, Fukuoka T. 2002. High mass resolution ion microprobe analysis of rare earth elements in silicate glass, apatite and zircon: Lack of matrix dependency. Chemical Geology, 184(3): 217~230.

Schaltegger U, Ovtcharova M, Gaynor S P, Schoene B, Wotzlaw J F, Davies J F, Farina F, Greber N D, Szymanowski D, Chelle-Michou C. 2021. Long-term repeatability and interlaboratory reproducibility of high-precision ID-TIMS U-Pb geochronology. Journal of Analytical Atomic Spectrometry, 36(7): 1466~1477.

Seedorff E, Dilles J H, Proffett Jr J M, Einaudi M T, Barton M. 2005. Porphyry deposits: Characteristics and origin of hypogene features. Economic Geology 100th Anniversary Volume, 251~298.

Selverstone J, Sharp Z D. 2015. Chlorine isotope behavior during prograde metamorphism of sedimentary rocks. Earth and Planetary Science Letters, 417: 120~131.

Sha Liankun, Chappell B W. 1999. Apatite chemical composition, determined by electron microprobe and laser-ablation inductively coupled plasma mass spectrometry, as a probe into granite petrogenesis. Geochimica et Cosmochimica Acta, 63(22): 3861~3881.

Shannon R D. 1976. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallographica Section A, 32(5): 751~767.

Sievwright R. 2017. Developing magnetite chemistry as an exploration tool for porphyry copper deposits. PhD thesis of Imperial College London.

Sillitoe R H. 2010. Porphyry Copper Systems. Economic Geology, 105(1): 3~41.

Simon A C, Ripley E M. 2011. The role of magmatic sulfur in the formation of ore deposits. Reviews in Mineralogy and Geochemistry, 73: 513~578.

Singer D A, Berger V I, Moring B C. 2008. Porphyry copper deposits of the world: Database and grade and tonnage models, 2008: U. S. Geological Survey, Open-File Report, 2008~1155.

Smithies R H, Lu Yongjun, Kirkland C L, Johnson T E, Mole D R, Champion D C, Martin L, Jeon H, Wingate M T D, Johnson S P. 2021. Oxygen isotopes trace the origins of Earth's earliest continental crust. Nature, 592: 70~75.

Smythe D J, Brenan J M. 2015. Cerium oxidation state in silicate melts: Combined fo2, temperature and compositional effects. Geochimica et Cosmochimica Acta, 170: 173~187.

Smythe D J, Brenan J M. 2016. Magmatic oxygen fugacity estimated using zircon-melt partitioning of cerium. Earth and Planetary Science Letters, 453: 260~266.

Speer J A. 1982. Zircon. In: Ribbe P H, ed. Orthosilicates. Rev Mineral, 5: 67~112.

Stock M J, Humphreys M C S, Smith V C, Johnson R D, Pyle D M. 2015. New constraints on electron-beam induced halogen migration in apatite. American Mineralogist, 100: 281~293.

Stock M J, Humphreys M C S, Smith V C, Isaia R, Brooker R A, Pyle D M. 2018. Tracking volatile behaviour in sub-volcanic plumbing systems using apatite and glass: Insights into pre-eruptive processes at Campi Flegrei, Italy. Journal of Petrology, 59(12): 2463~2492.

Stockli D F, Farley K A, Dumitru T A. 2000. Calibration of the (U-Th)/He thermochronometer on an exhumed fault block, White Mountains, California. Geology, 28: 983~986.

Stokes T N, Bromiley G D, Potts N J, Saunders K E, Miles A J. 2019. The effect of melt composition and oxygen fugacity on manganese partitioning between apatite and silicate melt. Chemical Geology, 506: 162~174.

Stormer J C, Pierson M L, Tackler R C. 1993. Variation of F-X-Ray and Cl-X-Ray intensity due to anisotropic diffusion in apatite during electron-microprobe analysis. American Mineralogist, 78(5): 641~648.

Sun Jinfeng, Yang Jinhui, Zhang Jiheng, Yang Yueheng, Zhu Yusheng. 2021. Apatite geochemical and Sr Nd isotopic insights into granitoid petrogenesis. Chemical Geology, 566: 120104.

Sun Saijun, Yang Xiaoyon, Wang Guangjie, Sun Weidong, Zhang Hong, Li Congying, Ding Xing. 2019. In situ elemental and Sr-O isotopic studies on apatite from the Xu-Huai intrusion at the southern margin of the North China Craton: Implications for petrogenesis and metallogeny. Chemical Geology, 510: 200~214.

Sun Weidong, Huang Ruifang, Li He, Hu Yongbin, Zhang Chanchan, Sun Saijun, Zhang Lipeng, Ding Xing, Li Congying, Zartman R E, Li Mingxing. 2015. Porphyry deposits and oxidized magmas. Ore Geology Reviews, 65: 97~131.

Takahashi Y, Sakashima T, Shimizu H. 2003. Observation of tetravalent cerium in zircon and its reduction by radiation effect. Geophysical Research Letters, 30(3): 263~263.

Tang Ming, Chu Xu, Hao Jihua, Shen Bing. 2021. Orogenic quiescence in Earth's middle age. Science, 371: 728~731.

Tartèse R, Anand M, Barnes J J, Starkey N A, Franchi I A, Sano Y. 2013. The abundance, distribution, and isotopic composition of hydrogen in the Moon as revealed by basaltic lunar samples: Implications for the volatile inventory of the Moon. Geochimica et Cosmochimica Acta, 122: 58~74.

Taylor R J M, Harley S L, Hinton R W, Elphick S, Clark C, Kelly N M. 2015. Experimental determination of REE partition coefficients between zircon, garnet and melt: A key to understanding high-T crustal processes. Journal of Metamorphic Geology, 33(3): 231~248.

Thomas J B, Bodnar R J, Shimizu N, Sinha A K. 2002. Determination of zircon/melt trace element partition coefficients from SIMS analysis of melt inclusions in zircon. Geochimicaet Cosmochimica Acta, 66(16): 2887~2901.

Trail D, Tailby N D, Lanzirotti A, Newville M, Thomas J B, Watson, E B. 2015. Redox evolution of silicic magmas: Insights from XANES measurements of Ce valence in Bishop Tuff zircons. Chemical. Geology, 402: 77~88.

Tsuboi M. 2005. The use of apatite as a record of initial 87Sr/86Sr ratios and indicator of magma processes in the Inagawa pluton, Ryoke belt, Japan. Chemical Geology, 221(3): 157~169.

Uribe-Mogollon C, Maher K. 2020. White mica geochemistry: discriminating between barren and mineralized porphyry systems. Economic Geology, 115(2): 325~354.

Venezky D Y, Rutherford M J. 1997. Preeruption conditions and timing of dacite-andesite magma mixing in the 2. 2 ka eruption at Mount Rainier. Journal of Geophysical Research Solid Earth, 102(B9): 20068~20086.

Wallis D, Carter A, Phillips R J, Parsons A, Searle M P. 2016. Spatial variation in exhumation rates across Ladakh and the Karakoram: New apatite fission track data from the Eastern Karakoram, NW India. Tectonics, 35(3): 704~721.

Wang Changming, Bagas L, Lu Yongjun, Santosh M, Du Bin, McCuaig T C. 2016. Terrane boundary and spatio-temporal distribution of ore deposits in the Sanjiang Tethyan Orogen: Insights from zircon Hf-isotopic mapping. Earth-Science Reviews, 156: 39~65.

Wang Lianxun, Ma Changqian, Zhang Chao, Zhu Yuxiang, Marks M A W. 2018. Halogen geochemistry of I- and A-type granites from Jiuhuashan region (South China): Insights into the elevated fluorine in A-type granite. Chemical Geology, 478: 164~182.

Wang Qing, Zhu Dicheng, Zhao Zhidan, Guan Qi, Zhang Xiaoqian, Sui Qinglin, Hu Zhaochu, Mo Xuanxue. 2012. Magmatic zircons from I-, S- and A-type granitoids in Tibet: Trace element characteristics and their application to detrital zircon provenance study. Journal of Asian Earth Sciences, 53: 59~66.

Wang Rui, Richards J P, Hou Zengqian, Yang Zhiming, DuFrane S A. 2014. Increased magmatic water content-the key to Oligo-Miocene porphyry Cu-Mo ± Au formation in the eastern Gangdese belt, Tibet. Economic Geology, 109: 1315~1339.

Watson E B, Harrison T M. 2005. Zircon thermometer reveals minimum melting conditions on earliest earth. Science, 308(5723): 841~844.

Watson E B, Wark D A, Thomas J B. 2006. Crystallization thermometers for zircon and rutile. Contributions to Mineralogy and Petrology, 151(4): 413~433.

Webster J D, Tappen C M, Mandeville C W. 2009. Partitioning behavior of chlorine and fluorine in the system apatite-melt-fluid. II: Felsic silicate systems at 200 MPa. Geochimica et Cosmochimica Acta, 73: 559~581.

Webster J D, Piccoli P M. 2015. Magmatic apatite: A powerful, yet deceptive, mineral. Elements, 11(3): 177~182.

Webster J D, Goldoff B A, Flesch R N, Nadeau P A, Silbert Z W. 2017. Hydroxyl, Cl, and F partitioning between high-silica rhyolitic melts-apatite-fluid(s) at 50-200 MPa and 700-1000℃. American Mineralogist, 102(1): 61~74.

Wilkinson J J, Chang Zhaoshan, Cooke D R, Baker M J, Wilkinson C C, Inhlis S, Chen Huayong, Gemmell J B. 2015. The chlorite proximitor: A new tool for detecting porphyry ore deposits. Journal of Geochemical Exploration, 152: 10~26.

Wu Fuyuan, Li Xianhua, Zheng Yongfei, Gao Shan. 2007. Lu-Hf isotopic systematics and their applications in petrology. Acta Petrologica Sinica, 23(2): 185~220 (in Chinese with English abstract).

Wu Yuanbao, Zheng Yongfei. 2004. Genetic mineralogy of zircon and its constraints on U-Pb age interpretation. Chinese Science Bulletin, 49(16): 1589~1604 (in Chinese).

Xiao Rong, Li Xiaofeng, Wang Cuiyu, Wei Xinglin, Bai Yanping. 2016. Diagenetic and metallogenic geochronological characteristics of Zhushahong porphyry copper deposit in Dexing area of Jiangxi and its implications. Journal of Earth Sciences and Environment, 38(1): 55~65 (in Chinese with English abstract).

Xie Fuwei, Tang Juxing, Lang Xinghai, Ma Di. 2018. The different source and petrogenesis of Jurassic intrusive rocks in the southern Lhasa subterrane, Tibet: Evidence from the trace element compositions of zircon, apatite, and titanite. Lithos, 314-315: 447~62.

Xing Kai, Shu Qihai, Lentz D R, Wang Fangyue. 2020. Zircon and apatite geochemical constraints on the formation of the Huojihe porphyry Mo deposit in the Lesser Xing'an Range, NE China. American Mineralogist, 105: 382~396.

Xing Kai, Shu Qihai, Lentz D R. 2021. Constraints on theformation of the Giant Daheishan porphyry Mo deposit (NE China) from whole-rock and accessory mineral geochemistry. Journal of Petrology, 62(4): egab018.

Xu Bo, Griffin W L, Hou Zengqian, Lu Yongjun, Belousova E A, Xu Jifeng, O'Reilly S Y. 2021. Recycled volatiles determine fertility of porphyry deposits in collisional settings. American Mineralogist, 106: 656~661.

Xu Cheng, Kynicky J, Chakhmouradian A R, Li Xianhua, Song Wenlei. 2015. A case example of the importance of multi-analytical approach in deciphering carbonatite petrogenesis in South Qinling orogen: Miaoya rare-metal deposit, central China. Lithos, 227: 107~121.

Xu Leiluo, Bi Xianwu, Hu Ruizhong, Tang Yongyong, Wang Xinsong, Xu Yue. 2015. LA-ICP-MS mineral chemistry of titanite and the geological implications for exploration of porphyry Cu deposits in the Jinshajiang - Red River alkaline igneous belt, SW China. Mineralogy and Petrology, 109(2): 181~200.

Yan Lili, He Zhenyu, Klemd R, Beier C, Xu Xisheng. 2020. Tracking crystal-melt segregation and magma recharge using zircon trace element data. Chemical Geology, 542: 119596.

Yang Shuiyuan, Jiang Shaoyong, Mao Qian, Chen Zhenyu, Rao Can, Li Xiaoli, Li Wancai, Yang Wenqiang, He Pengli, Li Xiang. 2022. Electron probe microanalysis in geosciences: Analytical procedures and recent advances. Atomic Spectroscopy, 43(2): 186~200.

Yang Wei, Lin Yangting, Hao Jialong, Zhang Jianchao, Hu Sen, Ni Huaiwei. 2016. Phosphorus-controlled trace element distribution in zircon revealed by NanoSIMS. Contributions to Mineralogy and Petrology, 171(3): 28.

Yao Chunliang, Lu Jianjun, Guo Weimin. 2007. Compositional difference between three generations of apatite from Tongchang porphyry copper deposit, Jiangxi Province, southeast China. Acta Mineralogica Sinica, 27(1): 31~40 (in Chinese with English abstract).

Zeng Liping, Zhao Xinfu, Li Xiaochun, Hu Hao, McFarlane C. 2016. In situ elemental and isotopic analysis of fluorapatite from the Taocun magnetite-apatite deposit, Eastern China: Constraints on fluid metasomatism. American Mineralogist, 101(11): 2468~2483.

Zhai Yusheng, Deng Jun, Peng Runmin. 2020. Research contents and methods for post-ore changes modifications and preservation. Earth Science, 25(4): 340~345 (in Chinese with English abstract).

Zhang Bidong, Lin Yangting, Moser D E Hao Jialong, Liu Yu, Zhang Jianchao, Barker I R, Li Qiuli, Shieh S R, Bouvier A. 2021. Radiogenic Pb mobilization induced by shock metamorphism of zircons in the Apollo 72255 Civet Cat norite clast. Geochimicaet Cosmochimica Acta, 302: 175~192.

Zhang Daohan, Audétat A. 2017a. Chemistry, mineralogy and crystallization conditions of porphyry Mo-forming magmas at Urad-Henderson and Silver Creek, Colorado, USA. Journal of Petrology, 58(2): 277~296.

Zhang Daohan, Audétat A. 2017b. What caused the formation of the giant Bingham Canyon porphyry Cu-Mo-Au deposit? Insights from melt inclusions and magmatic sulfides. Economic Geology, 112: 221~244.

Zhang Daohan, Audétat A. 2018. Magmatic-hydrothermal evolution of the barren Huangshan pluton, Anhui Province, China: A melt and fluid inclusion study. Economic Geology, 113: 803~24.

Zhang Peipei. 2015. Hydrogen diffusion in NAMs: Andradite garnet and zircon. Doctoral Dissertation of University of Science and Technology of China.

Zhao Xinfu, Zhou Meifu, Gao Jianfeng, Li Xiaochun, Li Jianwei. 2015. In situ Sr isotope analysis of apatite by LA-MC-ICPMS: constraints on the evolution of ore fluids of the Yinachang Fe-Cu-REE deposit, Southwest China. Mineralium Deposita, 50(7): 871~884.

Zhong Shihua, Seltmann R, Qu Hongying, Song Yingxin. 2019. Characterization of the zircon Ce anomaly forestimation of oxidation state of magmas: A revised Ce/Ce* method. Mineralogy and Petrology, 113: 755~763.

Zhong Shihua, Li Sanzhong, Seltmann R, Lai Zhiqing, Zhou Jie. 2021. The influence of fractionation of REE-enriched minerals on the zircon partition coefficients. Geoscience Frontiers, 12(3): 101094.

Zhu Ziyi, Campbell I H, Allen C M, Burnham A D. 2020. S-type granites: Their origin and distribution through time as determined from detrital zircons. Earth and Planetary Science Letters, 536: 116140.

Zou Xinyu, Jiang Jiliang, Qin Kezhang, Han Xinlei, Li Guangming, Evans N J, Li Zhenzhen, Yang Wei. 2019. Insight into zircon REE oxy-barometers: A lattice strain model perspective. Earth and Planetary Science Letters, 506: 87~96.

Zou Xinyu, Jiang Jiliang, Qin Kezhang, Zhang Yigang, Yang Wei, Li Xianhua. 2021. Progress in the principle and application of zircon trace element. Acta Petrologica Sinica, 37(4): 982~999 (in Chinese with English abstract).

李秋立. 2016. 离子探针U-Pb定年的“高U效应”. 矿物岩石地球化学通报, 35(3): 405~412.

李秋耘, 杨志明, 王瑞, 孙茂妤, 曲焕春. 2021. 西藏驱龙矿区中新世侵入岩锆石微量和Hf-O同位素研究. 岩石矿物学杂志, 40(6): 1023~1048.

李献华, 李扬, 李秋立, 吴黎光, 王浩, 杨传, 韦刚健, 张万峰. 2022. 同位素地质年代学新进展与发展趋势. 地质学报, 96(1): 104~122.

刘学龙, 杨志明, 卢映祥, 梅社华, 张娜, 朱俊, 陈建航, 刘思晗, 李振焕. 2021. 云南中甸地区晚白垩世斑岩型Mo-Cu矿床磷灰石, 锆石裂变径迹年代学研究. 地质学报, 95(11): 3366~3379.

蒙均桐, 夏小平, 马林, 姜子琦, 徐健, 崔泽贤, 杨晴, 张万峰, 张乐. 2021. 拉萨地块南缘壳源岩浆水含量差异: 来自锆石水含量的启示. 中国科学: 地球科学, 51(8): 1389~1400.

吴福元, 李献华, 郑永飞, 高山. 2007. Lu-Hf同位素体系及其岩石学应用. 岩石学报, 23(2): 185~220.

吴元保, 郑永飞. 2004. 锆石成因矿物学研究及其对U-Pb年龄解释的制约. 科学通报, 49(16): 1589~1604.

肖荣, 李晓峰, 王翠云, 韦星林, 白艳萍. 2016. 江西德兴地区朱砂红斑岩铜矿成岩成矿年代学特征及其地质意义. 地球科学与环境学报, 38(1): 55~65.

姚春亮, 陆建军, 郭维民. 2007. 江西省铜厂斑岩铜矿磷灰石世代和成分特征研究. 矿物学报, 27(1): 31~40.

翟裕生, 邓军, 彭润民. 2000. 矿床变化与保存的研究内容和研究方法. 地球科学, 25(4): 340~345.

张培培. 2015. 钙铁榴石和锆石中氢的扩散. 中国科学技术大学博士论文.

邹心宇, 蒋济莲, 秦克章, 张毅刚, 杨蔚, 李献华. 2021. 锆石微量元素的理论基础及其应用研究进展. 岩石学报, 37(4): 982~999.