J. J. Ague and W. D. Carlson, Metamorphism as Garnet Sees It: The Kinetics of Nucleation and Growth, Equilibration, and Diffusional Relaxation, vol.9, pp.439-445, 2013.

F. Albarède, Introduction to Geochemical Modeling, 1996.

A. Antignano and C. E. Manning, Rutile solubility in H2O, H2O-SiO2, and H2O-NaAlSi3O8 fluids at 0.7-2.0 GPa and 700-1000 °C: Implications for mobility of nominally insoluble elements, Chemical Geology, vol.255, pp.283-293, 2008.

S. Arai and S. Ishimaru, Insights into Petrological Characteristics of the Lithosphere of Mantle Wedge beneath Arcs through Peridotite Xenoliths: a, Review. Journal of Petrology, vol.49, pp.665-695, 2008.

R. J. Arculus, The alkali basalt andesite association of Grenada Lesser Antilles, 1973.

R. J. Arculus, Geology and geochemistry of the alkali basalt-andesite association of Grenada, Lesser Antilles island arc. Geological Society of America Bulletin, vol.87, pp.612-624, 1976.

R. J. Arculus, Origins of the continental crust, Journal and Proceedings of the Royal Society of New South Wales, vol.132, pp.83-110, 1999.

T. Armbruster, Recommended nomenclature of epidote-group minerals, European Journal of Mineralogy, vol.18, pp.551-567, 2006.

N. Arndt, Formation and Evolution of the Continental Crust, Geochemical Perspectives, vol.2, pp.405-533, 2013.

E. Auzanneau, D. Vielzeuf, and M. W. Schmidt, Experimental evidence of decompression melting during exhumation of subducted continental crust, Contributions to Mineralogy and Petrology, vol.152, pp.125-148, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00111122

D. R. Baker and R. Moretti, Modeling the Solubility of Sulfur in Magmas: A 50-Year Old Geochemical Challenge, Reviews in Mineralogy and Geochemistry, vol.73, pp.167-213, 2011.

C. Ballhaus, Redox states of lithospheric and asthenospheric upper mantle, Contributions to Mineralogy and Petrology, vol.114, pp.331-348, 1993.

M. G. Barth, W. F. Mcdonough, and R. L. Rudnick, Tracking the budget of Nb and Ta in the continental crust, Chemical Geology, vol.165, pp.197-213, 2000.

F. Bea, G. Fershtater, and L. G. Corretgé, The geochemistry of phosphorus in granite rocks and the effect of aluminium, Lithos, vol.29, pp.43-56, 1992.

G. E. Bebout, Metamorphic chemical geodynamics of subduction zones, Earth and Planetary Science Letters, vol.260, pp.373-393, 2007.

G. E. Bebout and M. D. Barton, Tectonic and metasomatic mixing in a high-T, subductionzone mélange-insights into the geochemical evolution of the slab-mantle interface, Chemical Geology, vol.187, pp.79-106, 2002.

G. E. Bebout and S. C. Penniston-dorland, Fluid and mass transfer at subduction interfacesThe field metamorphic record, Lithos, vol.240, pp.228-258, 2016.

M. D. Behn, P. B. Kelemen, G. Hirth, B. R. Hacker, and H. Massonne, Diapirs as the source of the sediment signature in arc lavas, Nature Geoscience, vol.4, pp.641-646, 2011.

R. Bezard, J. P. Davidson, S. Turner, C. G. Macpherson, J. M. Lindsay et al., Assimilation of sediments embedded in the oceanic arc crust: myth or reality?, Earth and Planetary Science Letters, vol.395, pp.51-60, 2014.

R. Bezard, B. F. Schaefer, S. Turner, J. P. Davidson, and D. Selby, Lower crustal assimilation in oceanic arcs: Insights from an osmium isotopic study of the Lesser Antilles, Geochimica et Cosmochimica Acta, vol.150, pp.330-344, 2015.

R. Bezard, S. Turner, J. P. Davidson, C. G. Macpherson, and J. M. Lindsay, Seeing through the Effects of Crustal Assimilation to Assess the Source Composition beneath the Southern Lesser Antilles Arc, Journal of Petrology, vol.56, pp.815-844, 2015.

B. Biju-duval, J. P. Caulet, P. Dufaure, A. Mascle, C. Muller et al., The terrigenous and pelagic series of Barbados Island: paleocene to middle miocene slope deposits accreted to the Lesser Antilles margin, pp.187-197, 1985.

P. Bouilhol, V. Magni, J. Van-hunen, and L. Kaislaniemi, A numerical approach to melting in warm subduction zones, Earth and Planetary Science Letters, vol.411, pp.37-44, 2015.

A. Bouvier, E. Deloule, and N. Metrich, Fluid Inputs to Magma Sources of St. Vincent and Grenada (Lesser Antilles): New Insights from Trace Elements in Olivine-hosted Melt Inclusions, Journal of Petrology, vol.51, pp.1597-1615, 2010.

J. M. Brenan, H. F. Shaw, F. J. Ryerson, and D. L. Phinney, Mineral-aqueous fluid partitioning of trace elements at 900°C and 2.0 GPa: Constraints on the trace element chemistry of mantle and deep crustal fluids, Geochimica et Cosmochimica Acta, vol.59, pp.3331-3350, 1995.

B. Budzy?, D. E. Harlov, M. L. Williams, and M. J. Jercinovic, Experimental determination of stability relations between monazite, fluorapatite, allanite, and REE-epidote as a function of pressure, temperature, and fluid composition, American Mineralogist, vol.96, pp.1547-1567, 2011.

H. Bureau and H. Keppler, Complete miscibility between silicate melts and hydrous fluids in the upper mantle: experimental evidence and geochemical implications, Earth and Planetary Science Letters, vol.165, pp.187-196, 1999.

M. Carpentier, Composition chimique des sédiments entrant dans la zone de subduction des Petites Antilles, 2007.

M. Carpentier, C. Chauvel, and N. Mattielli, Pb-Nd isotopic constraints on sedimentary input into the Lesser Antilles arc system, Earth and Planetary Science Letters, vol.272, pp.199-211, 2008.
URL : https://hal.archives-ouvertes.fr/insu-00353695

M. R. Carroll and M. J. Rutherford, The Stability of Igneous Anhydrite: Experimental Results and Implications for Sulfur Behavior in the 1982 El Chichon Trachyandesite and Other Evolved Magmas, Journal of Petrology, vol.28, pp.781-801, 1987.

M. R. Carroll and P. J. Wyllie, Experimental Phase Relations in the System TonalitePeridotite-H2O at 15 kb; Implications for Assimilation and Differentiation Processes near the Crust-Mantle Boundary, Journal of Petrology, vol.30, pp.1351-1382, 1989.

L. B. Carter, S. Skora, J. D. Blundy, J. C. De-hoog, and T. Elliott, An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust, Journal of Petrology, vol.56, pp.1585-1606, 2015.

P. Cervantes and P. J. Wallace, Role of H2O in subduction-zone magmatism: New insights from melt inclusions in high-Mg basalts from central Mexico, Geology, vol.31, pp.235-238, 2003.

A. R. Chakhmouradian and R. H. Mitchell, Niobian ilmenite, hydroxylapatite and sulfatian monazite; alternative hosts for incompatible elements in calcite kimberlite from Internatsional'naya, The Canadian Mineralogist, vol.37, pp.1177-1189, 1999.

C. Chopin, Ultrahigh-pressure metamorphism: tracing continental crust into the mantle, Earth and Planetary Science Letters, vol.212, pp.1-14, 2003.

I. Chou, Permeability of precious metals to hydrogen at 2kb total pressure and elevated temperatures, American Journal of Science, vol.286, p.21, 1986.

C. Class, D. M. Miller, S. L. Goldstein, and C. H. Langmuir, Distinguishing melt and fluid subduction components in Umnak Volcanics, Aleutian Arc. Geochemistry, Geophysics, 1004.

B. Clemente, Etude expérimentale et modélisation de la solubilité du soufre dans les liquides silicatés, 1998.

M. Condomines and O. Sigmarsson, Why are so many arc magmas close to 238U-230Th radioactive equilibrium?, Geochimica et Cosmochimica Acta, vol.57, pp.4491-4497, 1993.

L. B. Cooper, D. M. Ruscitto, T. Plank, P. J. Wallace, E. M. Syracuse et al., Global variations in H2O/Ce: 1. Slab surface temperatures beneath volcanic arcs. Geochemistry, Geophysics, Geosystems 13, p.3024, 2012.

C. Dalou, C. L. Losq, B. O. Mysen, and G. D. Cody, Solubility and solution mechanisms of chlorine and fluorine in aluminosilicate melts at high pressure and high temperature, American Mineralogist, vol.100, pp.2272-2283, 2015.

J. P. Davidson, Crustal contamination versus subduction zone enrichment: Examples from the Lesser Antilles and implications for mantle source compositions of island arc volcanic rocks, Geochimica et Cosmochimica Acta, vol.51, pp.2185-2198, 1987.

J. C. De-hoog, P. R. Mason, and M. J. Van-bergen, Sulfur and chalcophile elements in subduction zones: constraints from a laser ablation ICP-MS study of melt inclusions from Galunggung Volcano, Geochimica et Cosmochimica Acta, vol.65, pp.3147-3164, 2001.

B. Debret, K. T. Koga, C. Nicollet, M. Andreani, and S. Schwartz, F, Cl and S input via serpentinite in subduction zones: implications for the nature of the fluid released at depth, Terra Nova, vol.26, pp.96-101, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01135452

M. J. Defant and M. S. Drummond, Derivation of some modern arc magmas by melting of young subducted lithosphere, Nature, vol.347, pp.662-665, 1990.

M. J. Defant and M. S. Drummond, Mount St. Helens: Potential example of the partial melting of the subducted lithosphere in a volcanic arc, Geology, vol.21, pp.547-550, 1993.

F. Deschamps, M. Godard, S. Guillot, and K. Hattori, Geochemistry of subduction zone serpentinites: A review, Lithos, vol.178, pp.96-127, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00903601

J. D. Devine, Petrogenesis of the basalt-andesite-dacite association of Grenada, Lesser Antilles island arc, revisited, Journal of Volcanology and Geothermal Research, vol.69, pp.1-33, 1995.

J. D. Devine, J. E. Gardner, H. P. Brack, G. D. Laynet, and M. J. Rutherford, Comparison of microanalytical methods for estimating H20 contents of silicic volcanic glasses, American Mineralogist, vol.80, pp.319-328, 1995.

K. J. Domanik, R. L. Hervig, and S. M. Peacock, Beryllium and boron in subduction zone minerals: An ion microprobe study, Geochimica et Cosmochimica Acta, vol.57, pp.4997-5010, 1993.

K. J. Domanik and J. R. Holloway, The stability and composition of phengitic muscovite and associated phases from 5.5 to 11 GPa: Implications for deeply subducted sediments, Geochimica et Cosmochimica Acta, vol.60, pp.4133-4150, 1996.

S. A. Dufrane, S. Turner, A. Dosseto, and M. Van-soest, Reappraisal of fluid and sediment contributions to Lesser Antilles magmas, Chemical Geology, vol.265, pp.272-278, 2009.

R. M. Ellam and C. J. Hawkesworth, Elemental and isotopic variations in subduction related basalts: evidence for a three component model, Contributions to Mineralogy and Petrology, vol.98, pp.72-80, 1988.

T. Elliott, Inside the Subduction Factory, pp.23-45, 2003.

T. Elliott, T. Plank, A. Zindler, W. White, and B. Bourdon, Element transport from slab to volcanic front at the Mariana arc, Journal of Geophysical Research: Solid Earth, vol.102, pp.14991-15019, 1997.

D. Enkhbayar, J. Seo, S. Choi, Y. J. Lee, and E. Batmunkh, Mineral Chemistry of REERich Apatite and Sulfur-Rich Monazite from the Mushgai Khudag, Alkaline VolcanicPlutonic Complex, South Mongolia, International Journal of Geosciences, vol.07, p.20, 2016.

T. P. Fischer, Fluxes of volatiles (H2O, CO2, N2, Cl, F) from arc volcanoes, Geochemical Journal, vol.42, pp.21-38, 2008.

S. F. Foley, M. G. Barth, and G. A. Jenner, Rutile/melt partition coefficients for trace elements and an assessment of the influence of rutile on the trace element characteristics of subduction zone magmas, Geochimica et Cosmochimica Acta, vol.64, pp.933-938, 2000.

B. R. Frost and C. Ballhaus, Constraints on the origin of the oxidation state of mantle overlying subduction zones: an example from Simcoe, Washington, USA" by AD Brandon and DS Draper, Geochimica et Cosmochimica Acta, vol.62, pp.329-332, 1998.

J. Ganguly, Staurolite Stability and Related Parageneses: Theory, Experiments, and Applications, Journal of Petrology, vol.13, pp.335-365, 1972.

J. B. Gill, Orogenic Andesites and Plate Tectonics, 1981.

A. M. Graham, Genesis of the igneous rock suite of Grenada, Lesser Antilles, 1980.

D. H. Green, Experimental melting studies on a model upper mantle composition at high pressure under water-saturated and water-undersaturated conditions, Earth and Planetary Science Letters, vol.19, pp.37-53, 1973.

T. H. Green and J. Adam, Experimentally-determined trace element characteristics of aqueous fluid from partially dehydrated mafic oceanic crust at 3.0 GPa, European Journal of Mineralogy, vol.15, pp.815-830, 2003.

T. H. Green and A. E. Ringwood, Genesis of the calc-alkaline igneous rock suite, Contributions to Mineralogy and Petrology, vol.18, pp.105-162, 1968.

M. Grégoire, B. I. Mcinnes, and S. Y. O'reilly, Hydrous metasomatism of oceanic sub-arc mantle, Lihir, Papua New Guinea: Part 2. Trace element characteristics of slab-derived fluids, Lithos, vol.59, pp.91-108, 2001.

C. J. Hawkesworth, K. Gallagher, J. M. Hergt, and F. Mcdermott, Mantle and slab contributions in arc magmas, Annual Review of Earth and Planetary Sciences, vol.21, pp.175-204, 1993.

, Evolution of the continental crust, Nature, vol.443, pp.811-817, 2006.

C. J. Hawkesworth, S. P. Turner, F. Mcdermott, D. W. Peate, P. Calsteren et al., U-Th Isotopes in Arc Magmas: Implications for Element Transfer from the Subducted Crust, Science, vol.276, pp.551-555, 1997.

F. C. Hawthorne, R. Oberti, G. E. Harlow, W. V. Maresch, R. F. Martin et al., Nomenclature of the amphibole supergroup, American Mineralogist, vol.97, pp.2031-2048, 2012.

J. Hermann, Experimental constraints on phase relations in subducted continental crust, Contributions to Mineralogy and Petrology, vol.143, pp.219-235, 2002.

J. Hermann and D. H. Green, Experimental constraints on high pressure melting in subducted crust, Earth and Planetary Science Letters, vol.188, pp.149-168, 2001.

J. Hermann and D. Rubatto, Accessory phase control on the trace element signature of sediment melts in subduction zones, Chemical Geology, vol.265, pp.512-526, 2009.

J. Hermann and D. Rubatto, 4.9-Subduction of Continental Crust to Mantle Depth: Geochemistry of Ultrahigh-Pressure Rocks A2-Turekian, pp.309-340, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00439553

J. Hermann, C. Spandler, A. Hack, and A. V. Korsakov, Aqueous fluids and hydrous melts in high-pressure and ultra-high pressure rocks: Implications for element transfer in subduction zones, Lithos, vol.92, pp.399-417, 2006.

J. Hermann and C. J. Spandler, Sediment Melts at Sub-arc Depths: an Experimental Study, Journal of Petrology, vol.49, pp.717-740, 2008.

J. Hermann, Y. Zheng, and D. Rubatto, Deep Fluids in Subducted Continental Crust, Elements, vol.9, pp.281-287, 2013.

F. Holtz, A. Becker, M. Freise, and W. Johannes, The water-undersaturated and dry Qz-AbOr system revisited. Experimental results at very low water activities and geological implications, Contributions to Mineralogy and Petrology, vol.141, pp.347-357, 2001.

W. L. Huang and P. J. Wyllie, Phase relationships of S-type granite with H2O to 35 kbar: Muscovite granite from Harney Peak, South Dakota, Journal of Geophysical Research: Solid Earth, vol.86, pp.10515-10529, 1981.

R. D. Hyndman and S. M. Peacock, Serpentinization of the forearc mantle, Earth and Planetary Science Letters, vol.212, pp.417-432, 2003.

D. A. Ionov and A. W. Hofmann, Nb-Ta-rich mantle amphiboles and micas: Implications for subduction-related metasomatic trace element fractionations, Earth and Planetary Science Letters, vol.131, pp.341-356, 1995.

D. A. Ionov, V. S. Prikhod'ko, and S. Y. O'reilly, Peridotite xenoliths in alkali basalts from the Sikhote-Alin, southeastern Siberia, Russia: trace-element signatures of mantle beneath a convergent continental margin, Chemical Geology, vol.120, pp.275-294, 1995.

S. Jégo and R. Dasgupta, Fluid-present melting of sulfide-bearing ocean-crust: Experimental constraints on the transport of sulfur from subducting slab to mantle wedge, Geochimica et Cosmochimica Acta, vol.110, pp.106-134, 2013.

S. Jego and R. Dasgupta, The Fate of Sulfur During Fluid-Present Melting of Subducting Basaltic Crust at Variable Oxygen Fugacity, Journal of Petrology, vol.55, pp.1019-1050, 2014.
URL : https://hal.archives-ouvertes.fr/insu-01017417

M. C. Johnson and T. Plank, Dehydration and melting experiments constrain the fate of subducted sediments. Geochemistry, Geophysics, Geosystems 1, p.1007, 1999.

R. Kägi, O. Müntener, P. Ulmer, and L. Ottolini, Piston-cylinder experiments on H2O undersaturated Fe-bearing systems: An experimental setup approaching fO? conditions of natural calc-alkaline magmas, American Mineralogist, vol.90, pp.708-717, 2005.

P. B. Kelemen, J. L. Rilling, E. M. Parmentier, L. Mehl, and B. R. Hacker, Thermal Structure due to Solid-State Flow in the Mantle Wedge Beneath Arcs, Inside the Subduction Factory, pp.293-311, 2003.

K. A. Kelley and E. Cottrell, Water and the Oxidation State of Subduction Zone Magmas, Science, vol.325, pp.605-607, 2009.

D. E. Kelsey, C. Clark, and M. Hand, Thermobarometric modelling of zircon and monazite growth in melt-bearing systems: examples using model metapelitic and metapsammitic granulites, Journal of Metamorphic Geology, vol.26, pp.199-212, 2008.

P. Kepezhinskas, M. J. Defant, and M. S. Drummond, Progressive enrichment of island arc mantle by melt-peridotite interaction inferred from Kamchatka xenoliths, Geochimica et Cosmochimica Acta, vol.60, pp.1217-1229, 1996.

S. Labanieh, C. Chauvel, A. Germa, X. Quidelleur, and E. Lewin, Isotopic hyperbolas constrain sources and processes under the Lesser Antilles arc, Earth and Planetary Science Letters, vol.298, pp.35-46, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00509795

I. B. Lambert and P. J. Wyllie, Melting of Gabbro (Quartz Eclogite) with Excess Water to 35 Kilobars, with Geological Applications, The Journal of Geology, vol.80, pp.693-708, 1972.

A. T. Laurent, A. Seydoux-guillaume, S. Duchene, B. Bingen, V. Bosse et al., Sulphate incorporation in monazite lattice and dating the cycle of sulphur in metamorphic belts, Contributions to Mineralogy and Petrology, vol.171, p.94, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01637392

L. Bas, M. J. Maitre, R. W. Streckeisen, A. Zanettin, and B. , A Chemical Classification of Volcanic Rocks Based on the Total Alkali-Silica Diagram, IUGS Subcommission on the Systematics of Igneous Rocks, vol.27, pp.745-750, 1986.

L. Voyer and M. , Rôle des fluides dans la genèse des magmas d'arcs : analyses in situ des éléments volatils et des isotopes du bore dans les inclusions magmatiques des olivines primitives, 2009.

H. Li and J. Hermann, Apatite as an indicator of fluid salinity: An experimental study of chlorine and fluorine partitioning in subducted sediments, Geochimica et Cosmochimica Acta, vol.166, pp.267-297, 2015.

J. G. Liou, T. Tsujimori, J. Yang, R. Y. Zhang, and W. G. Ernst, Recycling of crustal materials through study of ultrahigh-pressure minerals in collisional orogens, ophiolites, and mantle xenoliths: A review, Journal of Asian Earth Sciences, vol.96, pp.386-420, 2014.

J. F. Luhr, Experimental Phase Relations of Water-and Sulfur-Saturated Arc Magmas and the 1982 Eruptions of El Chichón Volcano, Journal of Petrology, vol.31, pp.1071-1114, 1990.

R. Macdonald, C. J. Hawkesworth, and E. Heath, The Lesser Antilles volcanic chain: a study in arc magmatism, Earth-Science Reviews, vol.49, pp.1-76, 2000.

U. Mann and M. W. Schmidt, Melting of pelitic sediments at subarc depths: 1. Flux vs. fluidabsent melting and a parameterization of melt productivity, Chemical Geology, vol.404, pp.150-167, 2015.

C. E. Manning, The chemistry of subduction-zone fluids, Earth and Planetary Science Letters, vol.223, pp.1-16, 2004.

H. R. Marschall and J. C. Schumacher, Arc magmas sourced from mélange diapirs in subduction zones, Nature Geoscience, vol.5, pp.862-867, 2012.

M. Martindale, S. Skora, J. Pickles, T. Elliott, J. Blundy et al., High pressure phase relations of subducted volcaniclastic sediments from the west pacific and their implications for the geochemistry of Mariana arc magmas, Chemical Geology, vol.342, pp.94-109, 2013.

H. Massonne and Z. Szpurka, Thermodynamic properties of white micas on the basis of high-pressure experiments in the systems K2O-MgO-Al2O3-SiO2-H2O and K2O-FeOAl2O3-SiO2-H2O, vol.41, pp.229-250, 1997.

V. Matjuschkin, R. A. Brooker, B. Tattitch, J. D. Blundy, and C. C. Stamper, Control and monitoring of oxygen fugacity in piston cylinder experiments, Contributions to Mineralogy and Petrology, vol.169, p.9, 2015.

R. C. Maury, M. J. Defant, and J. Joron, Metasomatism of the sub-arc mantle inferred from trace elements in Philippine xenoliths, Nature, vol.360, pp.661-663, 1992.

F. Mcdermott, M. J. Defant, C. J. Hawkesworth, R. C. Maury, and J. L. Joron, Isotope and trace element evidence for three component mixing in the genesis of the North Luzon arc lavas (Philippines), Contributions to Mineralogy and Petrology, vol.113, pp.9-23, 1993.

F. Mcdermott and C. Hawkesworth, Th, Pb, and Sr isotope variations in young island arc volcanics and oceanic sediments, Earth and Planetary Science Letters, vol.104, pp.1-15, 1991.

W. F. Mcdonough and S. Sun, The composition of the Earth, Chemical Geology, vol.120, pp.223-253, 1995.

M. Mercier, A. Di-muro, D. Giordano, N. Métrich, P. Lesne et al., Influence of glass polymerisation and oxidation on micro-Raman water analysis in alumino-silicate glasses, Geochimica et Cosmochimica Acta, vol.73, pp.197-217, 2009.
URL : https://hal.archives-ouvertes.fr/insu-00345154

N. Metrich and M. J. Rutherford, Experimental study of chlorine behavior in hydrous silicic melts, Geochimica et Cosmochimica Acta, vol.56, pp.607-616, 1992.

N. Métrich, P. Schiano, R. Clocchiatti, and R. C. Maury, Transfer of sulfur in subduction settings: an example from Batan Island (Luzon volcanic arc, Philippines), Earth and Planetary Science Letters, vol.167, pp.1-14, 1999.

D. M. Miller, S. L. Goldstein, and C. H. Langmuir, Cerium/lead and lead isotope ratios in arc magmas and the enrichment of lead in the continents, Nature, vol.368, pp.514-520, 1994.

A. Miyashiro, Volcanic rock series in island arcs and active continental margins, American Journal of Science, vol.274, pp.321-355, 1974.

P. Molnar and P. England, Temperatures in zones of steady-state underthrusting of young oceanic lithosphere, Earth and Planetary Science Letters, vol.131, pp.57-70, 1995.

Y. Morizet, R. A. Brooker, G. Iacono-marziano, and B. A. Kjarsgaard, Quantification of dissolved CO2 in silicate glasses using micro-Raman spectroscopy, American Mineralogist, vol.98, pp.1788-1802, 2015.
URL : https://hal.archives-ouvertes.fr/insu-00876085

J. D. Morris, W. P. Leeman, and F. Tera, The subducted component in island arc lavas: constraints from Be isotopes and B-Be systematics, Nature, vol.344, pp.31-36, 1990.

J. W. Mullin, 5-Nucleation. Crystallization (Fourth Edition), pp.181-215, 2001.

O. Nebel, P. A. Sossi, A. Bénard, M. Wille, P. Z. Vroon et al., Redox-variability and controls in subduction zones from an iron-isotope perspective, Earth and Planetary Science Letters, vol.432, pp.142-151, 2015.

G. T. Nichols, P. J. Wyllie, and C. R. Stern, Subduction zone melting of pelagic sediments constrained by melting experiments, Nature, vol.371, pp.785-788, 1994.

W. Ostwald, Studien über die Umwandlung und Bildung fester Körper, Eitschrift Phys Chem, vol.22, p.289, 1897.

E. R. Oxburgh and D. L. Turcotte, Thermal Structure of Island Arcs, Geological Society of America Bulletin, vol.81, pp.1665-1688, 1970.

F. Parat, F. Holtz, and M. J. Streck, Sulfur-bearing Magmatic Accessory Minerals, Reviews in Mineralogy and Geochemistry, vol.73, pp.285-314, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00644580

I. J. Parkinson and R. J. Arculus, The redox state of subduction zones: insights from arcperidotites, Chemical Geology, vol.160, pp.409-423, 1999.

I. J. Parkinson, R. J. Arculus, and S. M. Eggins, Peridotite xenoliths from Grenada, Lesser Antilles Island Arc, Contributions to Mineralogy and Petrology, vol.146, pp.241-262, 2003.

A. E. Patino-douce and J. S. Beard, H2O loss from hydrous melts during fluid-absent piston cylinder experiments, The American mineralogist, vol.79, pp.585-588, 1994.

S. M. Peacock, Numerical simulation of metamorphic pressure-temperature-time paths and fluid production in subducting slabs, Tectonics, vol.9, pp.1197-1211, 1990.

S. M. Peacock, Thermal and Petrologic Structure of Subduction Zones, Top to Bottom, pp.119-133, 1996.

S. M. Peacock, Thermal Structure and Metamorphic Evolution of Subducting Slabs, pp.7-22, 2004.

S. M. Peacock, T. Rushmer, and A. B. Thompson, Partial melting of subducting oceanic crust, Earth and Planetary Science Letters, vol.121, pp.227-244, 1994.

A. Peccerillo and S. R. Taylor, Geochemistry of eocene calc-alkaline volcanic rocks from the Kastamonu area, Northern Turkey, Contributions to Mineralogy and Petrology, vol.58, pp.63-81, 1976.

M. Pichavant, J. Montel, and L. R. Richard, Apatite solubility in peraluminous liquids: Experimental data and an extension of the Harrison-Watson model, Geochimica et Cosmochimica Acta, vol.56, pp.3855-3861, 1992.

C. Pirard and J. Hermann, Focused fluid transfer through the mantle above subduction zones, Geology, vol.43, pp.915-918, 2015.

T. Plank, Constraints from Thorium/Lanthanum on Sediment Recycling at Subduction Zones and the Evolution of the Continents, Journal of Petrology, vol.46, pp.921-944, 2005.

T. Plank, 4.17-The Chemical Composition of Subducting Sediments A2-Turekian, pp.607-629, 2014.

T. Plank, L. B. Cooper, and C. E. Manning, Emerging geothermometers for estimating slab surface temperatures, Nature Geoscience, vol.2, pp.611-615, 2009.

T. Plank, K. A. Kelley, M. M. Zimmer, E. H. Hauri, and P. J. Wallace, Why do mafic arc magmas contain ?4 wt% water on average?, Earth and Planetary Science Letters, vol.364, pp.168-179, 2013.

T. Plank and C. H. Langmuir, The chemical composition of subducting sediment and its consequences for the crust and mantle, Chemical Geology, vol.145, pp.325-394, 1998.

G. Prouteau and B. Scaillet, Experimental Constraints on Sulphur Behaviour in Subduction Zones: Implications for TTG and Adakite Production and the Global Sulphur Cycle since the Archean, Journal of Petrology, vol.54, pp.183-213, 2013.
URL : https://hal.archives-ouvertes.fr/insu-00757219

G. Prouteau, B. Scaillet, M. Pichavant, and R. Maury, Evidence for mantle metasomatism by hydrous silicic melts derived from subducted oceanic crust, Nature, vol.410, pp.197-200, 2001.
URL : https://hal.archives-ouvertes.fr/hal-00068850

C. J. Pudsey and H. G. Reading, Sedimentology and structure of the Scotland Group, Barbados. Geological Society, vol.10, pp.291-308, 1982.

J. Puziewicz and W. Johannes, Experimental study of a biotite-bearing granitic system under water-saturated and water-undersaturated conditions, Contributions to Mineralogy and Petrology, vol.104, pp.397-406, 1990.

R. P. Rapp, N. Shimizu, M. D. Norman, and G. S. Applegate, Reaction between slab-derived melts and peridotite in the mantle wedge: experimental constraints at 3.8 GPa, Chemical Geology, vol.160, pp.335-356, 1999.

K. Ratajeski and T. W. Sisson, Loss of iron to gold capsules in rock-melting experiments, American Mineralogist, vol.84, pp.1521-1527, 1999.

J. P. Richards, The oxidation state, and sulfur and Cu contents of arc magmas: implications for metallogeny, Lithos, vol.233, pp.27-45, 2015.

A. Rielli, A. G. Tomkins, O. Nebel, J. Brugger, B. Etschmann et al., Evidence of sub-arc mantle oxidation by sulphur and carbon, Geochemical Perspectives Letters, pp.124-132, 2017.

A. E. Ringwood, The petrological evolution of island arc systems Twenty-seventh William Smith Lecture, Journal of the Geological Society, vol.130, pp.183-204, 1974.

A. Robock, Volcanic eruptions and climate, Reviews of Geophysics, vol.38, pp.191-219, 2000.

S. Rossano and B. Mysen, (eds) Raman spectroscopy applied to Earth sciences and cultural heritage, European Mineralogical Union, pp.321-366, 2012.

J. G. Ryan and C. Chauvel, 3.13-The Subduction-Zone Filter and the Impact of Recycled Materials on the Evolution of the Mantle A2-Turekian, pp.479-508, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01292636

F. J. Ryerson and E. B. Watson, Rutile saturation in magmas: implications for TiNbTa depletion in island-arc basalts, Earth and Planetary Science Letters, vol.86, pp.225-239, 1987.

B. Scaillet and B. W. Evans, The 15 June 1991 Eruption of Mount Pinatubo. I. Phase Equilibria and Pre-eruption P-T-fO2-fH2O Conditions of the Dacite Magma, Journal of Petrology, vol.40, pp.381-411, 1999.

H. Schertl and P. J. O'brien, Continental Crust at Mantle Depths: Key Minerals and Microstructures, vol.9, pp.261-266, 2013.

P. Schiano, R. Clocchiatti, N. Shimizu, R. C. Maury, K. P. Jochum et al., , 1995.

. Hydrous, silica-rich melts in the sub-arc mantle and their relationship with erupted arc lavas, Nature, vol.377, pp.595-600

M. W. Schmidt, Melting of pelitic sediments at subarc depths: 2. Melt chemistry, viscosities and a parameterization of melt composition, Chemical Geology, vol.404, pp.168-182, 2015.

M. W. Schmidt, A. Dardon, G. Chazot, and R. Vannucci, The dependence of Nb and Ta rutile-melt partitioning on melt composition and Nb/Ta fractionation during subduction processes, Earth and Planetary Science Letters, vol.226, pp.415-432, 2004.

M. W. Schmidt and S. Poli, Experimentally based water budgets for dehydrating slabs and consequences for arc magma generation, Earth and Planetary Science Letters, vol.163, pp.361-379, 1998.

M. W. Schmidt and S. Poli, 4.19-Devolatilization During Subduction A2-Turekian, pp.669-701, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00936088

M. W. Schmidt and P. Ulmer, A rocking multianvil: elimination of chemical segregation in fluid-saturated high-pressure experiments, Geochimica et Cosmochimica Acta, vol.68, pp.1889-1899, 2004.

M. W. Schmidt, D. Vielzeuf, and E. Auzanneau, Melting and dissolution of subducting crust at high pressures: the key role of white mica, Earth and Planetary Science Letters, vol.228, pp.65-84, 2004.

M. E. Schneider and D. H. Eggler, Fluids in equilibrium with peridotite minerals: Implications for mantle metasomatism, Geochimica et Cosmochimica Acta, vol.50, pp.711-724, 1986.

S. Self, J. Zhao, R. E. Holasek, R. C. Torres, and A. J. King, The Atmospheric Impact of the 1991 Mount Pinatubo Eruption, pp.1089-1115, 1996.

N. Shimizu and R. J. Arculus, Rare earth element concentrations in a suite of basanitoids and alkali olivine basalts from Grenada, Lesser Antilles, Contributions to Mineralogy and Petrology, vol.50, pp.231-240, 1975.

H. Sigurdsson, J. F. Tomblin, G. M. Brown, J. G. Holland, and R. J. Arculus, Strongly undersaturated magmas in the Lesser Antilles island arc, Earth and Planetary Science Letters, vol.18, pp.285-295, 1973.

T. W. Sisson, K. Ratajeski, W. B. Hankins, and A. F. Glazner, Voluminous granitic magmas from common basaltic sources, Contributions to Mineralogy and Petrology, vol.148, pp.635-661, 2005.

S. Skora and J. Blundy, High-pressure Hydrous Phase Relations of Radiolarian Clay and Implications for the Involvement of Subducted Sediment in Arc Magmatism, Journal of Petrology, vol.51, pp.2211-2243, 2010.

S. Skora and J. Blundy, Monazite solubility in hydrous silicic melts at high pressure conditions relevant to subduction zone metamorphism, Earth and Planetary Science Letters, vol.321, pp.104-114, 2012.

S. Skora, J. D. Blundy, R. A. Brooker, E. C. Green, J. C. De-hoog et al., Hydrous Phase Relations and Trace Element Partitioning Behaviour in Calcareous Sediments at Subduction-Zone Conditions, Journal of Petrology, vol.56, pp.953-980, 2015.

H. A. Smith and B. Barreiro, Monazite U-Pb dating of staurolite grade metamorphism in pelitic schists, Contributions to Mineralogy and Petrology, vol.105, pp.602-615, 1990.

C. Spandler, J. Mavrogenes, and J. Hermann, Experimental constraints on element mobility from subducted sediments using high-P synthetic fluid/melt inclusions, Chemical Geology, vol.239, pp.228-249, 2007.

C. Spandler and C. Pirard, Element recycling from subducting slabs to arc crust: A review, Lithos, vol.170, pp.208-223, 2013.

C. Spandler, G. Yaxley, D. H. Green, and D. Scott, Experimental phase and melting relations of metapelite in the upper mantle: implications for the petrogenesis of intraplate magmas, Contributions to Mineralogy and Petrology, vol.160, pp.569-589, 2010.

C. C. Stamper, J. D. Blundy, R. J. Arculus, and E. Melekhova, Petrology of Plutonic Xenoliths and Volcanic Rocks from Grenada, Lesser Antilles, Journal of Petrology, vol.55, pp.1353-1387, 2014.

C. C. Stamper, E. Melekhova, J. D. Blundy, R. J. Arculus, M. C. Humphreys et al., Oxidised phase relations of a primitive basalt from Grenada, Lesser Antilles, Contributions to Mineralogy and Petrology, vol.167, pp.1-20, 2014.

A. S. Stepanov and J. Hermann, Fractionation of Nb and Ta by biotite and phengite: Implications for the "missing Nb paradox, Geology, vol.41, pp.303-306, 2013.

A. S. Stepanov, J. Hermann, D. Rubatto, and R. P. Rapp, Experimental study of monazite/melt partitioning with implications for the REE, Th and U geochemistry of crustal rocks, Chemical Geology, vol.300, pp.200-220, 2012.

R. J. Stern, Subduction Zones, Reviews of Geophysics, vol.40, p.1012, 2002.

E. Stolper and S. Newman, The role of water in the petrogenesis of Mariana trough magmas, Earth and Planetary Science Letters, vol.121, pp.293-325, 1994.

S. -. Sun and W. F. Mcdonough, Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes, Special Publications, vol.42, pp.313-345, 1989.

E. M. Syracuse and G. A. Abers, Global compilation of variations in slab depth beneath arc volcanoes and implications, 2006.

E. M. Syracuse, P. E. Van-keken, and G. A. Abers, The global range of subduction zone thermal models, Physics of the Earth and Planetary Interiors, vol.183, pp.73-90, 2010.

Y. Tatsumi and S. Eggins, Subduction Zone Magmatism, Références bibliographiques, 1995.

Y. Tatsumi and T. Kogiso, Trace element transport during dehydration processes in the subducted oceanic crust: 2. Origin of chemical and physical characteristics in arc magmatism, Earth and Planetary Science Letters, vol.148, pp.207-221, 1997.

F. Tera, L. Brown, J. Morris, I. S. Sacks, J. Klein et al., Sediment incorporation in island-arc magmas: Inferences from 10Be, Geochimica et Cosmochimica Acta, vol.50, pp.535-550, 1986.

M. F. Thirlwall, A. M. Graham, R. J. Arculus, R. S. Harmon, and C. G. Macpherson, Resolution of the effects of crustal assimilation, sediment subduction, and fluid transport in island arc magmas: Pb Sr Nd O isotope geochemistry of Grenada, Lesser Antilles, Geochimica et Cosmochimica Acta, vol.60, pp.4785-4810, 1996.

M. F. Thirlwall, T. E. Smith, A. M. Graham, N. Theodorou, P. Hollings et al., High Field Strength Element Anomalies in Arc Lavas: Source or Process, vol.35, pp.819-838, 1994.

T. B. Thomsen and M. W. Schmidt, Melting of carbonated pelites at 2.5-5.0 GPa, silicatecarbonatite liquid immiscibility, and potassium-carbon metasomatism of the mantle, Earth and Planetary Science Letters, vol.267, pp.17-31, 2008.

T. B. Thomsen and M. W. Schmidt, The Biotite to Phengite Reaction and Mica-dominated Melting in Fluid + Carbonate-saturated Pelites at High Pressures, Journal of Petrology, vol.49, pp.1889-1914, 2008.

A. Tournié, Analyse Raman sur sites de verres et de vitraux anciens : modélisation, procédure, lixiviation et caractérisation, 2009.

J. Truckenbrodt and W. Johannes, H2O loss during piston-cylinder experiments, American Mineralogist, vol.84, pp.1333-1335, 1999.

A. Tsay, Z. Zajacz, and C. Sanchez-valle, Efficient mobilization and fractionation of rareearth elements by aqueous fluids upon slab dehydration, Earth and Planetary Science Letters, vol.398, pp.101-112, 2014.

K. Tsuno and R. Dasgupta, Melting phase relation of nominally anhydrous, carbonated peliticeclogite at 2.5-3.0 GPa and deep cycling of sedimentary carbon, Contributions to Mineralogy and Petrology, vol.161, pp.743-763, 2011.

K. Tsuno and R. Dasgupta, The effect of carbonates on near-solidus melting of pelite at 3 GPa: Relative efficiency of H2O and CO2 subduction, Earth and Planetary Science Letters, vol.319320, pp.185-196, 2012.

S. Turner, J. Caulfield, M. Turner, P. Van-keken, R. Maury et al., Recent contribution of sediments and fluids to the mantle/'s volatile budget, Nature Geoscience, vol.5, pp.50-54, 2012.

S. Turner, C. Hawkesworth, N. Rogers, J. Bartlett, T. Worthington et al., 238U/230Th disequilibria, magma petrogenesis, and flux rates beneath the depleted Tonga-Kermadec island arc, Geochimica et Cosmochimica Acta, vol.61, pp.4855-4884, 1997.

S. Turner, C. Hawkesworth, P. Van-calsteren, E. Heath, R. Macdonald et al., Useries isotopes and destructive plate margin magma genesis in the Lesser Antilles, Earth and Planetary Science Letters, vol.142, pp.191-207, 1996.

R. Vannucci, M. Tiepolo, M. J. Defant, and P. Kepezhinskas, The metasomatic record in the shallow peridotite mantle beneath Grenada (Lesser Antilles arc), Lithos, vol.99, pp.25-44, 2007.

H. Verweij, H. Boom, and R. E. Breemer, Raman Scattering of Carbonate Ions Dissolved in Potassium Silicate Glasses, Journal of the American Ceramic Society, vol.60, pp.529-534, 1977.

P. Vidal, C. Dupuy, R. Maury, and M. Richard, Mantle metasomatism above subduction zones: Trace-element and radiogenic isotope characteristics of peridotite xenoliths from Batan Island (Philippines), Geology, vol.17, pp.1115-1118, 1989.

R. Von-huene and D. W. Scholl, Observations at convergent margins concerning sediment subduction, subduction erosion, and the growth of continental crust, Reviews of Geophysics, vol.29, pp.279-316, 1991.

P. J. Wallace, Volatiles in subduction zone magmas: concentrations and fluxes based on melt inclusion and volcanic gas data, Journal of Volcanology and Geothermal Research, vol.140, pp.217-240, 2005.

P. J. Wallace and M. Edmonds, The Sulfur Budget in Magmas: Evidence from Melt Inclusions, Submarine Glasses, and Volcanic Gas Emissions, Reviews in Mineralogy and Geochemistry, vol.73, pp.215-246, 2011.

K. J. Walowski, P. J. Wallace, E. H. Hauri, I. Wada, and M. A. Clynne, Slab melting beneath the Cascade Arc driven by dehydration of altered oceanic peridotite, Nature Geoscience, vol.8, pp.404-408, 2015.

E. Watson, D. Wark, J. Price, and J. V. Orman, Mapping the thermal structure of solid-media pressure assemblies, Contributions to Mineralogy and Petrology, vol.142, pp.640-652, 2002.

W. M. White and B. Dupré, Sediment subduction and magma genesis in the Lesser Antilles: Isotopic and trace element constraints, Journal of Geophysical Research: Solid Earth, vol.91, pp.5927-5941, 1986.

J. D. Woodhead, Geochemistry of the Mariana arc (western Pacific): Source composition and processes, Chemical Geology, vol.76, pp.1-24, 1989.

S. J. Woodland, D. G. Pearson, and M. F. Thirlwall, A Platinum Group Element and Re-Os Isotope Investigation of Siderophile Element Recycling in Subduction Zones: Comparison of Grenada, Lesser Antilles Arc, and the Izu-Bonin Arc, Journal of Petrology, vol.43, pp.171-198, 2002.

R. K. Workman and S. R. Hart, Major and trace element composition of the depleted MORB mantle (DMM), Earth and Planetary Science Letters, vol.231, pp.53-72, 2005.

P. J. Wyllie and T. Sekine, The formation of mantle phlogopite in subduction zone hybridization, Contributions to Mineralogy and Petrology, vol.79, pp.375-380, 1982.

Y. Xiao, W. Sun, J. Hoefs, K. Simon, Z. Zhang et al., Making continental crust through slab melting: Constraints from niobium-tantalum fractionation in UHP metamorphic rutile, Geochimica et Cosmochimica Acta, vol.70, pp.4770-4782, 2006.

Z. Zajacz, W. E. Halter, T. Pettke, and M. Guillong, Determination of fluid/melt partition coefficients by LA-ICPMS analysis of co-existing fluid and silicate melt inclusions: Controls on element partitioning, Geochimica et Cosmochimica Acta, vol.72, pp.2169-2197, 2008.

G. F. Zellmer, M. Edmonds, and S. M. Straub, Volatiles in subduction zone magmatism, Special Publications, vol.410, pp.1-17, 2015.