Abstract
Terrestrial worlds on which H2O-bearing fluids are stable tend to show a higher degree of chemical differentiation than similar worlds on which such fluids are not present or stable. Other than CO2 and S, important components of these H2O-bearing fluids are the halogens, specifically the more common F and Cl and, to a lesser degree, the less common Br and I. When taken together in combination with H2O, F and Cl are potentially powerful ligands with respect to solution-enabled mass transport of most metal cations. This characteristic has indirect implications with respect to the reactivity of halogen-bearing fluids with many mineral species from among the silicates, oxides, sulfides, and orthophosphates and with melts. The low wetting angle of Cl-bearing solutions along grain boundaries, coupled with a high reactivity, allow them to flow easily along and through grain boundaries under mid-crustal to lower crustal/lithospheric mantle P-T conditions, thus aiding both mineral re-equilibration and mass transfer on a local (cm’s) as well as on a large (km’s) scale during metamorphism. The low H2O activity of these brines under high-grade conditions enables them to co-exist with nominally anhydrous Fe-Mg silicate minerals characteristic of the lower crust and the lithospheric mantle, such as orthopyroxene, clinopyroxene, and olivine. Evidence for the presence of these brines is seen in the fluid and melt inclusions found in the minerals from igneous rocks, ore deposits, sedimentary rocks, lower crustal rocks, and the lithospheric mantle. In magmas, halogens play an important role with regard to the solubility of various metal cations as well as affecting crystallization temperatures. During crystallization of plutonic magma bodies, while F tends to be retained in felsic melts, fluorapatite, and micas, Cl is expelled as a NaCl-KCl-CaCl2-bearing fluid into the surrounding country rock taking with it a large variety of other metal cations. These are subsequently deposited in associated fissures, veins, and pegmatites as ore minerals/deposits during crystallization of the main magma body. The presence of such fluids has been confirmed by extensive fluid inclusion and experimental studies. Beyond the Earth, halogens play an important role in the geochemistry of other terrestrial worlds in the solar system on which H2O can exist as a fluid whether on or beneath the surface. These include Mars, volatile-rich asteroids, and those ice moons of Jupiter and Saturn believed to contain subsurface oceans. In each of these cases both direct observation and terrestrial analogues allow for a more complete understanding of the role that halogens play in the various H2O-aided geochemical processes present on these worlds. The goal of this volume is to bring together a diverse group of geoscientists with long-range interests, knowledge, and experience concerning the role that halogens play in or during a variety of geochemical and hydrothermal processes in the crust and mantle of the Earth as well as on volatile-rich asteroids, Mars, and the ice moons of Jupiter and Saturn in a series of review chapters. The range and depth of knowledge contained within these chapters regarding the role of halogens in geochemical processes, both terrestrial and extraterrestrial, outline and provide a firm foundation on which to base our current understanding of how halogens contribute to the geochemical/geophysical evolution and stability of liquid H2O-bearing terrestrial worlds in the solar system overall.
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References
Acosta-Vigil A, London D, Dewers TA, Morgan GB (2002) Dissolution of corundum and andalusite in H2O-saturated haplogranitic melts at 800 ℃ and 200 MPa: constraints on diffusivities and the generation of peraluminous melts. J Petrol 43:1885–1908
Akinfiev NN, Diamond LW (2009) A simple predictive model of quartz solubility in water–salt–CO2 systems at temperatures up to 1000 ℃ and pressures up to 1000 MPa. Geochim Cosmochim Acta 73:1597–1608
Antignano A, Manning CE (2008a) Fluorapatite solubility in H2O and H2O–NaCl at 700 to 900 ℃ and 0.7 to 2.0 GPa. Chem Geol 251:112–119
Antignano A, Manning CE (2008b) Rutile solubility in H2O, H2O–SiO2, and H2O–NaAlSi3O8 fluids at 0.7–2.0 GPa and 700–1000 ℃: implications for mobility of nominally insoluble elements. Chem Geol 255:283–293
Aranovich LY, Newton RC (1996) H2O activity in concentrated NaCl solutions at high pressures and temperatures measured by the brucite-periclase equilibrium. Contrib Mineral Petrol 125:200–212
Aranovich LY, Newton RC (1997) H2O activity in concentrated KCl and KCl-NaCl solutions at high temperatures and pressures measured by the brucite-periclase equilibrium. Contrib Mineral Petrol 127:261–271
Aranovich LY, Newton RC (1998) Reversed determination of the reaction: phlogopite + quartz = enstatite + potassium feldspar + H2O in the ranges 750–875 ℃ and 2–12 kbar at low H2O activity with concentrated KCl solutions. Am Mineral 83:193–204
Aranovich L, Safonov O (2018) Halogens in high-grade metamorphism. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 713–757
Aranovich LY, Zakirov IV, Sretenskaya NG, Gerya TV (2010) Ternary system H2O-CO2-NaCl at high T-P parameters: an empirical mixing model. Geochem Int 48:446–455
Aranovich LY, Newton RC, Manning CE (2013) Brine-assisted anatexis: experimental melting in the system haplogranite–H2O–NaCl–KCl at deep-crustal conditions. Earth Planet Sci Lett 374:111–120
Aranovich LY, Makhluf AR, Manning CE, Newton RC (2014) Dehydration melting and the relationship between granites and granulites. Precambr Res 253:26–37
Audetat A, Keppler H (2005) Solubility of rutile in subduction zone fluids, as determined by experiments in the hydrothermal diamond anvil cell. Earth Planet Sci Lett 232:393–402
Ayers JC, Zhang L, Luo Y, Peters TJ (2012) Zircon solubility in alkaline aqueous fluids at upper crustal conditions. Geochim Cosmochim Acta 96:18–28
Bach W, Jöns N, Klein F (2013) Metasomatism within the ocean crust. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 253–288
Barnes J, Manning C, Scambelluri M, Selverstone J (2018) The behavior of halogens during subduction zone processes. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 545–590
Bebout GE (2013) Metasomatism in subduction zones of subducted oceanic slabs, mantle wedges, and the slab-mantle interface. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 289–349
Brearley A, Jones R (2018) Halogens in chondritic meteorites. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 871–958
Brearley AJ, Krot AN (2013) Metasomatism in the early solar system: the record from chondritic meteorites. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 659–789
Brenan JM, Watson EB (1988) Fluids in the lithosphere, 2. Experimental constraints on CO2 transport in dunite and quartzite at elevated P-T conditions with implications for mantle and crustal decarbonation processes. Earth Planet Sci Lett 91:141–158
Cruz MF, Manning CE (2015) Experimental determination of quartz solubility and melting in the system SiO2–H2O–NaCl at 15–20 kbar and 900–1100 ℃: implications for silica polymerization and the formation of supercritical fluids. Contrib Mineral Petrol 170:35
Dolejs D, Zajacz Z (2018) Halogens in silicic magmas and their hydrothermal systems. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 431–543
Duc-Tin Q, Keppler H (2015) Monazite and xenotime solubility in granitic melts and the origin of the lanthanide tetrad effect. Contrib Mineral Petrol 169:168. https://doi.org/10.1007/s00410-014-1100-9
Fockenberg T, Burchard M, Maresch WV (2006) Experimental determination of the solubility of natural wollastonite in pure water up to pressures of 5 GPa and at temperatures of 400–800 ℃. Geochim Cosmochim Acta 70:1796–1806
Frezzotti M-L, Ferrando S (2018) The role of halogens in the lithospheric mantle. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 805–845
Gibert F, Guillaume D, Laporte D (1998) Importance of fluid immiscibility in the H2O-NaCl-CO2 system and selective CO2 entrapment in granulites: experimental phase diagram at 5–7 kbar, 900 ℃ and wetting textures. Eur J Mineral 10:1109–1123
Hand KP (2018) Halogens on and within the ocean worlds of the outer solar system. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 997–1016
Hanley JJ, Koga K (2018) Halogens in terrestrial and cosmic geochemical systems: abundances, geochemical behaviors, and analytical methods. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 21–121
Hansen EC, Harlov DE (2007) Whole-rock, phosphate, and silicate compositional trends across an amphibolite- to granulite-facies transition, Tamil Nadu, India. J Petrol 48:1641–1680
Hammerli J, Rubenach M (2018) The role of halogens during regional and contact metamorphism. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 649–712
Hammouda T, Chantel J, Devidal J-L (2010) Apatite solubility in carbonatitic liquids and trace element partitioning between apatite and carbonatite at high pressure. Geochim Cosmochim Acta 74:7220–7235
Harlov DE (2012) The potential role of fluids during regional granulite-facies dehydration in the lower crust. Geosci Front 3:813–827
Harlov DE, Förster H-J (2002a) High-grade fluid metasomatism on both a local and a regional scale: the Seward Peninsula, Alaska, and the Val Strona di Omegna, Ivrea-Verbano Zone, northern Italy. Part I: petrography and silicate mineral chemistry. J Petrol 43:769–799
Harlov DE, Förster H-J (2002b) High-grade fluid metasomatism on both a local and a regional scale: the Seward Peninsula, Alaska, and the Val Strona di Omegna, Ivrea-Verbano Zone, northern Italy. Part II: phosphate mineral chemistry. J Petrol 43:801–824
Harlov DE, Johansson L, Van den Kerkhof A, Förster H-J (2006) The role of advective fluid flow and diffusion during localized, solid-state dehydration: Söndrum stenhuggeriet, Halmstad, SW Sweden. J Petrol 47:3–33
Hauzenberger CA, Baumgartner LP, Pak TM (2001) Experimental study on the solubility of the “model”-pelite mineral assemblage albite + K-feldspar + andalusite + quartz in supercritical chloride-rich aqueous solutions at 0.2 GPa and 600 ℃. Geochim Cosmochim Acta 65:4493–4507
Hayden LA, Manning CE (2011) Rutile solubility in supercritical NaAlSi3O8–H2O fluids. Chem Geol 284:74–81
Heinrich W (2007) Fluid immiscibility in metamorphic rocks. Rev Mineral Geochem 65:389–430
Johnson EL (1991) Experimentally determined limits for H2O-CO2-NaCI immiscibility in granulites. Geology 19:925–928
Kendrick M (2018) Halogens in seawater, marine sediments, and the altered oceanic lithosphere. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 591–648
Kerkhof A van den, Kronz A, Simon K (2014) Deciphering fluid inclusions in high-grade rocks. Geosci Front 5:683–695
Klemd R (2013) Metasomatism during high-pressure metamorphism: eclogites and blueschist-facies rocks. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 351–413
Klemme S, Stalder R (2018) Halogens in the Earth’s mantle: what we know and what we don’t. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 847–869
Korzhinskii DS (1959) Physicochemical basis of the analysis of the paragenesis of minerals. Chapman and Hall, New York, p 142
Korzhinskii, DS (1962) The role of alkalinity in the formation of charnockitic gneisses. In: Precambrian geology and petrology: general and regional problems. Trudy Vostochono-Sibirskogo Geologicheskogo Institute, Geological Series 5:50–61 (In Russian)
Lecumberri-Sanchez P, Bodnar R (2018) Halogen geochemistry of ore deposits: contributions towards understanding sources and processes. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 261–305
Makhluf AR, Newton RC, Manning CE (2016) Hydrous albite magmas at lower crustal pressure: new results on liquidus H2O content, solubility, and H2O activity in the system NaAlSi3O8–H2O–NaCl at 1.0 GPa. Contrib Mineral Petrol 171:75
Manning CE (1994) The solubility of quartz in H2O in the lower crust and upper mantle. Geochim Cosmochim Acta 58:4831–4839
Manning CE (2007) Solubility of corundum + kyanite in H2O at 700 ℃ and 10 kbar: evidence for Al-Si complexing at high pressure and temperature. Geofluids 7:258–269
Manning CE, Aranovich LY (2014) Brines at high pressure and temperature: thermodynamic, petrologic and geochemical effects. Precambr Res 253:6–16
Manning CE, Wilke M, Schmidt C, Cauzid J (2008) Rutile solubility in albite-H2O and Na2Si3O7 –H2O at high temperatures and pressures by in-situ synchrotron radiation micro-XRF. Earth Planet Sci Lett 272:730–737
Manning CE, Antignano A, Lin HA (2010) Premelting polymerization of crustal and mantle fluids, as indicated by the solubility of albite + paragonite + quartz in H2O at 1 GPa and 350–620 ℃. Earth Planet Sci Lett 292:325–336
McCubbin FM, Jolliff BL, Nekvasil H, Carpenter PK, Zeigler RA, Steele A, Elardo SM, Lindsley DH (2011) Fluorine and chlorine abundances in lunar apatite: implications for heterogeneous distributions of magmatic volatiles in the lunar interior. Geochim Cosmochim Acta 75:5073–5093
Mi J-X, Pan Y (2018) Halogen-rich minerals: crystal chemistry and geological significances. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 123–184
Munoz JL (1984) F-OH and Cl-OH exchange in micas with applications to hydrothermal ore deposits. In: Bailey SW (ed) Micas. Mineralogical Society of America, Reviews in Mineralogy 13:469–494
Munoz JL (1992) Calculation of HF and HCl fugacities from biotite compositions: revised equations. Geological Society of America, Abstracts with Programs 26:221
Newton RC, Manning CE (2000) Quartz solubility in H2O-NaCl and H2O-CO2 solutions at deep crust-upper mantle pressures and temperatures: 2–15 kbar and 500–900 ℃. Geochim Cosmochim Acta 64:2993–3005
Newton RC, Manning CE (2002a) Experimental determination of calcite solubility in H2O-NaCl solutions at deep crust/upper mantle pressures and temperatures: implications for metasomatic processes in shear zones. Am Mineral 87:1401–1409
Newton RC, Manning CE (2002b) Solubility of enstatite + forsterite in H2O at deep crust/upper mantle conditions: 4 to 15 kbar and 700 to 900 ℃. Geochim Cosmochim Acta 66:4165–4176
Newton RC, Manning CE (2005) Solubility of anhydrite, CaSO4, in NaCl–H2O solutions at high pressures and temperatures: applications to fluid–rock interaction. J Petrol 46:701–716
Newton RC, Manning CE (2006) Solubilities of corundum, wollastonite and quartz in H2O–NaCl solutions at 800 ℃ and 10 kbar: interaction of simple minerals with brines at high pressure and temperature. Geochim Cosmochim Acta 70:5571–5582
Newton RC, Manning CE (2007) Solubility of grossular, Ca3Al2Si3O12, in H2O–NaCl solutions at 800 ℃ and 10 kbar, and the stability of garnet in the system CaSiO3–Al2O3–H2O–NaCl. Geochim Cosmochim Acta 71:5191–5202
Newton RC, Manning CE (2008) Thermodynamics of SiO2–H2O fluid near the upper critical end point from quartz solubility measurements at 10 kbar. Earth Planet Sci Lett 274:241–249
Newton RC, Manning CE (2010) Role of saline fluids in deep-crustal and upper-mantle metasomatism: insights from experimental studies. Geofluids 10:58–72
Newton RC, Manning CE, Hanchar JM, Finch RJ (2005) Gibbs free energy of formation of zircon from measurements of solubility in H2O. J Am Ceram Soc 88:1854–1858
Newton RC, Manning CE, Hanchar JM, Colasanti CV (2010) Free energy of formation of zircon based on solubility measurements at high temperature and pressure. Am Mineral 95:52–58
O’Reilly SY, Griffin WL (2013) Mantle metasomatism. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 471–533
Paillat O, Elphick SC, Brown WL (1992) The solubility of water in NaAlSi3O8 melts: a re-examination of Ab-H2O phase relationships and critical behaviour at high pressures. Contrib Mineral Petrol 112:490–500
Pak TM, Hauzenberger CA, Baumgartner LP (2003) Solubility of the assemblage albite + K-feldspar + andalusite + quartz in supercritical aqueous chloride solutions at 650 ℃ and 2 kbar. Chem Geol 200:377–393
Pirajno F (2013) Effects of metasomatism on mineral systems and their host rocks: alkali metasomatism, skarns, greisens, tourmalinites, rodingites, black-wall alteration and listevenites. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 203–251
Pirajno F (2018) Halogens in hydrothermal fluids and their role in the formation and evolution of hydrothermal mineral systems. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer-Verlag, Berlin, pp 759–804
Poitrasson F, Oelkers E, Schott J, Montel J-M (2004) Experimental determination of synthetic NdPO4 monazite end-member solubility in water from 2 °C to 300 °C: implications for rare earth element mobility in crustal fluids. Geochim Cosmochim Acta 68:2207–2221
Rampe EB, Cartwright JA, McCubbin FM, Osterloo MM (2018) The role of halogens during fluid and magmatic processes on Mars. In: The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 959–995
Rapp JF, Klemme S, Butler IB, Harley SL (2010) Extremely high solubility of rutile in chloride and fluoride-bearing metamorphic fluids; an experimental investigation. Geology 38:323–326
Rubenach M (2013) Structural controls of metasomatism on a regional scale. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 93–140
Safanov OG, Aranovich LY (2014) Alkali control of high-grade metamorphism and granitization. Geosci Front 5:711–727
Sallet R (2000) Fluorine as a tool in the petrogenesis of quartz-bearing magmatic associations: applications of an improved F-OH biotite-apatite thermometer grid. Lithos 50:241–253
Shmulovich KI, Graham CM (1996) Melting of albite and dehydration of brucite in H2O-NaCl fluids to 9 kbars and 700–900 ℃: implications for partial melting and water activities during high pressure metamorphism. Contrib Mineral Petrol 124:370–382
Shmulovich KI, Graham CM (2008) Plagioclase–aqueous solution equilibrium (NaCl-CaCl2): concentration dependence. Petrology 16:191–206
Shmulovich K, Graham C, Yardley B (2001) Quartz, albite, and diopside solubilities in H2O-NaCl and H2O-CO2 fluids at 0.5–0.9 GPa. Contrib Mineral Petrol 141:95–108
Shmulovich KI, Yardley BWD, Graham CM (2006) Solubility of quartz in crustal fluids: experiments and general equations for salt solutions and H2O–CO2 mixtures at 400–800 ℃ and 0.1–0.9 GPa. Geofluids 6:154–167
Signorelli S, Carroll MR (2002) Experimental study of Cl solubility in hydrous alkaline melts: constraints on the theoretical maximum amount of Cl in trachytic and phonolitic melts. Contrib Mineral Petrol 143:209–218
Skora S, Blundy J (2012) Monazite solubility in hydrous silicic melts at high pressure conditions relevant to subduction zone metamorphism. Earth Planet Sci Lett 321–322:104–114
Tanis EA, Simon AC, Zhang Y, Chow P, Xiao Y (2016) Rutile solubility in NaF-NaCl-KCl-bearing aqueous fluids at 0.5–2.79 GPa and 250–650 ℃. Geochim Cosmochim Acta 177:170–181
Tropper P, Manning CE (2005) Very low solubility of rutile in H2O at high pressure and temperature, and its implications for Ti mobility in subduction zones. Am Mineral 90:502–505
Tropper P, Manning CE (2007) The solubility of fluorite in H2O and H2O–NaCl at high pressure and temperature. Chem Geol 242:299–306
Tropper P, Manning CE, Harlov DE (2011) Solubility of CePO4 monazite and YPO4 xenotime in H2O and H2O–NaCl at 800 ℃ and 1 GPa: implications for REE and Y transport during high-grade metamorphism. Chem Geol 282:58–66
Tropper P, Manning CE, Harlov DE (2013) Experimental determination of CePO4 and YPO4 solubilities in H2O–NaF at 800 ℃ and 1 GPa: implications for rare earth element transport in high-grade metamorphic fluids. Geofluids 13:372–380
Touret JLR, Nijland TG (2013) Prograde, peak and retrograde metamorphic fluids and associated metasomatism in upper amphibolite to granulite facies transition zones. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 415–469
Walther JV (2001) Experimental determination and analysis of the solubility of corundum in 0.1 and 0.5 m NaCl solutions between 400 and 600 ℃ from 0.5 to 2.0 kbar. Geochim Cosmochim Acta 65:2843–2851
Walther JV (2002) Experimental determination and analysis of the solubility of corundum in 0.1 molal CaCl2 solutions between 400 and 600 ℃ at 0.6 to 2.0 kbar. Geochim Cosmochim Acta 66:1621–1626
Watson EB, Brenan JM (1987) Fluids in the lithosphere, 1. Experimentally-determined wetting characteristics of CO2-H2O fluids and their implications for fluid transport, host-rock physical properties, and fluid inclusion formation. Earth Planet Sci Lett 85:497–515
Webster JD, Piccoli PM (2015) Magmatic apatite: a powerful, yet deceptive, mineral. Elements 11:177–182
Webster J, Baker DR, Aiuppa A (2018) Halogens in mafic and intermediate-silica content magmas. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 307–430
Wilke M, Schmidt C, Dubrail J, Appel K, Borchert M (2012) Zircon solubility and zirconium complexation in H2O + Na2O + SiO2 + Al2O3 fluids at high pressure and temperature. Earth Planet Sci Lett 349–350:15–25
Wohlers A, Manning CE, Thompson AB (2011) Experimental investigation of the solubility of albite and jadeite in H2O, with paragonite + quartz at 500 and 600 ℃, and 1–2.25 GPa. Geochim Cosmochim Acta 75:2924–2939
Worden RH (2018) Halogen elements in sedimentary systems and their evolution during digenesis. In: Harlov DE, Aranovich L (eds) The role of halogens in terrestrial and extraterrestrial geochemical processes: surface, crust, and mantle. Springer, Berlin, pp 185–260
Wykes JL, Newton RC, Manning CE (2008) Solubility of andradite, Ca3Fe2Si3O12 in a 10 mol% NaCl solution at 800 ℃ and 10 kbar; implications for the metasomatic origin of grandite garnet in calc-silicate granulites. Am Mineral 93:886–892
Yardley BWD (2013) The chemical composition of metasomatic fluids in the crust. In: Harlov DE, Austrheim H (eds) Metasomatism and the chemical transformation of rock: the role of fluids in terrestrial and extraterrestrial processes. Springer, Berlin, pp 17–51
Zhou L, Mavrogenes JA, Spandler C, Li H (2016) A synthetic fluid inclusion study of the solubility of monazite-(La) and xenotime-(Y) in H2O-Na-K-Cl-F-CO2 fluids at 800 ℃ and 0.5 GPa. Chem Geol 442:121–129
Zhu C, Sverjensky DA (1992) F-Cl-OH partitioning between biotite and apatite. Geochim Cosmochim Acta 56:3435–3467
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Harlov, D.E., Aranovich, L. (2018). The Role of Halogens in Terrestrial and Extraterrestrial Geochemical Processes: Surface, Crust, and Mantle. In: Harlov, D., Aranovich, L. (eds) The Role of Halogens in Terrestrial and Extraterrestrial Geochemical Processes. Springer Geochemistry. Springer, Cham. https://doi.org/10.1007/978-3-319-61667-4_1
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