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[1]张 生*,陈根文,SEWARD T M,等.硼在共存水蒸气-富硼熔体之间分配的实验研究及其地质意义[J].地球化学,2014,43(06):583-591.
 ZHANG Sheng*,CHEN Gen-wen,SEWARD T M,et al.Experimental study on boron distribution between coexisting water vapor and boron-rich melt and its geological implications[J].Geochimica,2014,43(06):583-591.
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硼在共存水蒸气-富硼熔体之间分配的实验研究及其地质意义

参考文献/References:

[1] ?erny P.Geochemical and petrogenic features of minera-lization in rare-element granitic pegmatites in the light of current research [J].Appl Geochem, 1992, 7(5): 393–416.
[2] Grew E S, Anovitz L M.Boron Mineralogy, Petrology and Geochemistry [M].Reviews in Mineralogy.Washington D C: Mineralogical Society of America, 1996: 1–862.
[3] Thomas R.Determination of the H3BO3 concentration in fluid and melt inclusions in granite pegmatites by laser Raman mi-croprobe spectroscopy [J].Am Mineral, 2002, 87(1): 56–68.
[4] Leeman W P, Sisson V B.Geochemistry of boron and its implications for crustal and mantle processes [J].Rev Mineral, 1996, 33(1): 645–707.
[5] London D.Internal differentiation of rare-element pegmatites: Effects of boron, phosphorus, and fluorine [J].Geochim Cosmochim Acta, 1987, 51(3): 403–420.
[6] Peretyazhko I S, Zagorsky V Ye, Smirnov S Z, Mikhailov M Y.Conditions of pocket formation in the Oktyabrskaya tourmaline-rich gem pegmatite (the Malkhan field, Central Transbaikalia, Russia) [J].Chem Geol, 2004, 210(1–4): 91–111.
[7] Taylor M C, Williams A E, McKibben M A.Vapor-phase boric acid in quartz-hosted fluid inclusions from a miarolitic elbaite sub-type, complex rare-element pegmatite, southern Califor-nia [C].16th Int Min Assoc, 1994: 405–406.
[8] Williams A E, taylor M C.Mass spectrometric identification of boric acid in fluid inclusions in pegmatite minerals [J].Geochim Cosmochim Acta, 1996, 60(18): 3435–3443.
[9] Slack J F.Tourmaline associations with hydrothermal ore deposits [J].Rev Mineral, 1996, 33(1): 559–643.
[10] Sillitoe R H, Sawkins F J.Geologic, mineralogic and fluid in-clusion studies relating to the origin of copper-bearing tour-maline breccia pipes, Chile [J].Econ Geol, 1971, 66(7): 1028–1041.
[11] Sillitoe R H, Halls C, Grant J N.Porphyry tin deposits in Bo-livia [J].Econ Geol, 1975, 70(5): 913–927.
[12] Olade M A.Nature of volatile element anomalies at porphyry copper deposits, Highland Valley, B.C.Canada [J].Chem Geol, 1977, 20(3): 235–252.
[13] Bruggeman A, Braet J, Smaers F, De Regge P.Separation of boric acid from PWR waste by volatilization during evapora-tion [J].Sep Sci Technol, 1997, 32(1–4): 737–757.
[14] Cohen P.Water Coolant Technology of Power Reactors (2nd ed) [M].La Grange Park: American Nuclear Society, 1980: 214–267.
[15] Kostylkov I G, Rogova L V, Novikova L E, Kakurkin N P.Steam extraction of boric acid from the products of the sul-furic acid decomposition of Solongo borate ores [J].J Appl Chem USSR, 1976, 49(7): 1474–1476.
[16] Kanzaki T, Yoshida M.Boron isotopic composition of fumarolic condensates and sassolites from Satsuma Iwo-jima, Japan [J].Geochim Cosmochim Acta, 1979, 43(11): 1859–1863.
[17] Smith C L, Ficklin W H, Thompson J M.Concentrations of arsenic, antimony, and boron in steam and steam condensate at the Geysers, California [J].J Volcan Geotherm Res, 1987, 32(4): 329–341.
[18] Bischoff J L, Rosenbauer R J.Phase separation in seafloor geothermal systems: An experimental study of the effects on metal transport [J].Am J Sci, 1987, 287(10): 953–978.
[19] Berndt M E, Seyfried W E Jr.Boron, bromine, and other trace elements as clues to the fate of chlorine in mid-ocean ridge vent fluids [J].Geochim Cosmochim Acta, 1990, 54(8): 2235–2245.
[20] Liebscher A, Meixner A, Romer R L, Heinrich W.Liquid- vapor fractionation of boron and boron isotopes: Experimental calibration at 400 ℃/23 MPa to 450 ℃/42 MPa [J].Geochim Cosmochim Acta, 2005, 69(24): 5693–5704
[21] Spivack A L, Berndt M E, Seyfried W E Jr.Boron isotope fractionation during supercritical phase separation [J].Geo-chim Cosmochim Acta, 1990, 54(8): 2337–2339.
[22] Leeman W P, Tonarini S, Pennisi M, Ferrara G.Boron isotopic variations in fumarolic condensates and thermal waters from Vulcano Island, Italy: Implications for evolution of volcanic fluids [J].Geochim Cosmochim Acta, 2005, 69(1): 143–163.
[23] Schatz O J, Dolejs D, Stix J, Williams-Jones A E, Layne G D.Partitioning of boron among melt, brine and vapor in the system haplogranite-H2O-NaCl at 800 ℃ and 100 MPa [J].Chem Geol, 2004, 210(1–4): 135–147.
[24] Migdisov A A, Williams-Jones A E, Suleimenov O M.The solubility of chlorargyrite (AgCl) in water vapor at elevated temperatures and pressures [J].Geochim Cosmochim Acta, 1999, 63(22): 3817–3827.
[25] Archibald S M, Migdisov A A, Williams-Jones A E.The sta-bility of Au-chloride complexes in water vapor at elevated temperatures and pressures [J].Geochim Cosmochim Acta, 2001, 65(23): 4413–4423.
[26] Wood J, Nicholson K.Boron determination in water by ion-selective electrode [J].Environ Int, 1995, 21(2): 237–243.
[27] Schmidt E, Griguli U.Properties of Water and Steam in SI-Units (4th ed) [M].Berlin: Springer-Verlag, 1989: 1–206.
[28] Lindsay W T.Pressurized Water Reactor Programe Technical Progress Report for the Period July 10, 1954, August 26, 1954, WAPD-MRP-49 [M].[s.l.]: Atomic Power Lab, 1954: 11–54.
[29] Styrikovich M A, Tskhvirashvili D G, Nebieridze D P.Inves-tigation of the solubility of boric acid in saturated steam [J].Proc Acad Sci USSR (Chem Sect), 1960, 134(3): 1065–1067.
[30] Tskhvirashvili D G, Galustashvili V V.The behavior of bo-rates and boric acid in boiling reactors [J].Sov Atom Energ, 1964, 16(1): 70–72.
[31] Byrnes D E.Physicochemical Study of Boric Acid Solutions at High Temperature, WCAP-3713 [M].[s.l.]: Westinghouse Electrical Corp, 1962.
[32] Leeman W P, Vocke R D, McKibben M A.Boron isotopic fractionation between coexisting vapor and liquid in natural geothermal systems [M]//Kharaka Y K, Maest A S.Proc.7th International Symposium on Water-Rock Interaction (WRI-7).Rotterdam: Balkema, 1992: 1007–1010.
[33] Audétat A, Gunther D, Heinrich C A.Formation of a mag-matic-hydrothermal ore deposit: Insights with LA-ICP-MS analysis of fluid inclusions [J].Science, 1998, 279(5359): 2091–2094.
[34] Kukuljan J A, Alvarez J L.Distribution of B(OH)3 between water and steam at high temperatures [J].J Chem Ther, 1999, 31(12): 1511–1522.
[35] Schmidt C, Thomas R, Heinrich W.Boron speciation in aqueous fluids at 22 to 600 ℃ and 0.1 MPa to 2 GPa [J].Geochim Cosmochim Acta, 2005, 69(2): 275–281.
[36] Lide D R.CRC Handbook of Chemistry and Physics (83rd ed) [M].Boca Raton: CRC Press, 2000: 5–7.
[37] Meschi D J, Chupka W A, Berkowitz J.Heterogeneous reac-tions studied by mass spectrometry.I.Reaction of B2O3(s) with H2O(g) [J].J Chem Phys, 1960, 33(2): 530–533.
[38] Ogden J S, Young N A.The characterisation of molecular boric acid by mass spectrometry and matrix isolation infrared spectroscopy [J].J Chem Soc Dalton Trans, 1988 (6): 1645– 1652.
[39] Gilson T R.Characterisation of Ortho- and Meta-boric acids
in the vapour phase [J].J Chem Soc Dalton Trans, 1991 (9): 2463–2466.
[40] Weres O.Vapor pressure, speciation, and chemical activities in highly concentrated sodium borate solutions at 277 and 317 ℃ [J].J Sol Chem, 1995, 24(5): 409–438.
[41] Kracek F C, Morey, G W, Merwin H E.The system, wa-ter-boron oxide [J].Am J Sci, 1938, 35(A): 143–171.
[42] Watanabe T.Geochemical cycle and concentration of boron in the Earth’s crust [M]//Vinogradov A P.Chemistry of the Earth’s Crust (vol.2).1967: 167–178.
[43] Smirnov S Z, Peretyazhko I S, Prokofev V Yu, Zagorsky V Ye, Shebanin A P.The first finding of sassolite (H3BO3) in fluid inclusion in minerals [J].Russ Geol Geophys, 2000, 41(2): 193–205.
[44] Garavelli A, Vurro F.Barberiite, NH4BF4, a new mineral from Vulcano, Aeolian Islands, Italy [J].Am Mineral, 1994: 79(3/4): 381–384.
[45] Garcia-Valles M, Fernandez-Turiel J L, Gimeno-Torrente D, Saavedra-Alonso J, Martinez-Manent S.Mineralogical cha-racterization of silica sinters from the El Tatio geothermal field, Chile [J].Am Mineral, 2008, 93(8/9): 1373–1383
[46] Stoiber R E.Fumarole incrustations at active Central American volcanoes [J].Geochim Cosmochim Acta, 1974, 38(4): 495–516.
[47] Quisefit J P, Toutain J P, Bergametti G, Javoy M, Cheynet B, Person A.Evolution versus cooling of gaseous volcanic emissions from Momotombo Volcano, Nicaragua: Thermoc-hemical model and observations [J].Geochim Cosmochim Acta, 1989, 53(10): 2591–2608.
[48] Thomas R, Webster J D, Heinrich W.Melt inclusions in peg-matite quartz: Complete miscibility between silicate melts and hydrous fluids at low pressure [J].Contrib Mineral Petrol, 2000, 139(4): 394–401.
[49] Symonds R B, Rose W I, Bluth G J S, Gerlach T M.Volcan-ic-gas studies: Methods, results and applications [J].Rev Mineral, 1994, 30(1): 1–66.
[50] Taran Yu A, Hedenquist J W, Korzhinsky M A, Tkachenko S I, Shmulovich K I.Geochemistry of magmatic gases from Ku-dryavy volcano, Iturup, Kuril Islands [J].Geochim Cosmo-chim Acta, 1995, 59(9): 1749–1761.
[51] 张生, 熊小林, Seward T M.成矿元素的气相迁移与实验研究[J].地学前缘, 2009, 16(1): 68–75.
Zhang Sheng, Xiong Xiao-lin, Seward T M.Gaseous transport of mineralizing elements and experimental study [J].Earth Sci Front, 2009, 16(1): 68–75 (in Chinese with English abstract).
[52] Williams-Jones A E, Migdisov A A, Archibald S M, Xiao Z.Vapor-transport of ore metals [M]//Hellmann R, Wood S A.Water-Rock Interactions, Ore Deposits, and Environmental Geochemistry: A Tribute to David A Crerar.Special Publication No.7.[s.l.]: The Geochemical Society, 2002: 279–305.

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备注/Memo

收稿日期(Received): 2013-09-22; 改回日期(Revised): 2013-12-30; 接受日期(Accepted): 2014-03-19
基金项目: 国家自然科学基金(40373036); 国家305项目(2011BAB06B02-03)
作者简介: 张生(1967–), 男, 博士、副研究员, 实验地球化学专业。
* 通讯作者(Corresponding author): ZHANG Sheng, E-mail: szhang@gig.ac.cn, Tel: +86-20-85291559

更新日期/Last Update: 2014-11-30