W. Abouchami, M. Boher, A. Michard, and F. Albarède, A major 2.1 Ga event of mafic magmatism in West Africa: an early stage of crustal accretion, Journal of Geophysical Research, vol.95, pp.17605-17629, 1990.

L. Ackermann, L. Cemic, and K. Langer, Hydrogarnet substitution in pyrope: a possible location fot "water" in the mantle, Earth Planet. Sci. Lett, vol.62, pp.208-214, 1983.

D. R. Aines and G. R. Rossman, The hydrous component in garnets: pyralspites, 1984.

, American Mineralogist, vol.69, pp.1116-1126

D. R. Aines and G. R. Rossman, Water content of mantle garnets, Geology, vol.12, pp.720-723, 1984.

T. A. Alifirova, L. Pokhilenko, Y. I. Ovchinnikov, C. L. Donnelly, A. J. Riches et al., Petrologic origin of exsolution textures in mantle minerals: evidence in pyroxenitic xenoliths from Yakutia kimberlites, International Geology Review, vol.54, pp.1071-1092, 2012.

C. J. Allègre and D. Rousseau, The growth of the continent through geological time studied by Nd isotope analysis of shales, Earth Planet. Sci. Lett, vol.67, pp.19-34, 1984.

K. Aoki, H. Fujimaki, and M. Kitamura, Exsolved garnet-bearing pyroxene megacrysts from some South African kimberlites, Lithos, vol.13, pp.269-279, 1980.

R. L. Armstrong and R. S. Harmon, Radiogenic isotopes: The case for crustal recycling on a near-steady-state no-continental growth earth (and dicussion), Philosophical Transactions of the Royal Society of London. Series A, Mathemarical and Physical Sciences, vol.301, pp.443-472, 1981.

N. T. Arndt, N. Coltice, H. Helmstaedt, and M. Gregoire, Origin of Archean subcontinental lithospheric mantle: Some petrological constraints, Lithos, pp.61-71, 2009.
URL : https://hal.archives-ouvertes.fr/insu-00354185

P. C. Ater, D. H. Eggler, and M. E. Mccallum, Petrology and geochemistry of mantle eclogite xenoliths from Colorado-Wyoming kimberlites: recycled ocean crust?, 1984.

, Kimberlites II: The Mantle and the Crust-Mantle Relationships, pp.309-318

C. Aubaud, H. Bureau, C. Raepsaet, H. Khodja, A. C. Withers et al., Calibration of the infrared molar absorption coefficients for H in olivine, clinopyroxene and rhyolitic glass by elastic recoil detection analysis, Chemical Geology, pp.78-86, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00368324

S. Aulbach, M. Massuyeau, and F. Gaillard, Origins of cratonic mantle discontinuities: A view from petrology, gepchemistry and thermodynamic models, Lithos, pp.364-382, 2017.

S. Aulbach, A. Gerdes, and K. S. Viljoen, Formation of diamondiferous kyanite-eclogite in a subduction mélange, Geochimica et Cosmochimica Acta, vol.179, pp.156-176, 2016.

S. Aulbach and K. S. Viljoen, Eclogite xenoliths from the Lace kimberlite, Kaapvaal craton: from convecting mantle source to palaeo-ocean floor and back, Earth Planet. Sci. Lett, pp.274-286, 2015.

S. Aulbach, Craton nucleation and formation of thick lithospheric roots, Lithos, vol.149, pp.16-30, 2012.

P. Baertschi, Absolute 18O content of standard mean ocean water, Earth Planet. Sci. Lett, vol.31, pp.341-344, 1976.

M. Barth, G. Rudnick, R. L. Horn, I. Mcdonough, W. F. Spicuzza et al.,

S. E. Haggerty, Geochemistry of xenolithic eclogites from West Africa, part 2: Origins of the high MgO eclogites, Geochimica et Cosmochimica Acta, vol.66, pp.4325-4345, 2002.

M. G. Barth, R. L. Rudnick, I. Horn, W. F. Mcdonough, M. J. Spicuzza et al.,

S. E. Haggerty, Geochemistry of xenolithic eclogites from West Africa, Part I: A link between low MgO eclogites and Archean crust formation, Geochimica et Cosmochimica Acta, vol.65, pp.1499-1527, 2001.

B. L. Beard, K. N. Fraracci, L. A. Taylor, G. A. Snyder, R. N. Clayton et al., Petrography and geochemistry of eclogites from the Mir kimberlite, pp.293-310, 1996.

D. R. Bell, P. D. Ihinger, and G. R. Rossman, Quantitative analysis of trace OH in garnet and pyroxenes, American Mineralogist, vol.80, pp.465-474, 1995.

D. R. Bell and G. R. Rossman, The distribution of hydroxyl in garnets from the subcontinental mantle of southern Africa. Contribution to Mineral Petrology, pp.161-178, 1992.

D. R. Bell and G. R. Rossman, Water in Earth's Mantle: The Role of Nominally Anhydrous Minerals, Science, vol.255, pp.1391-1397, 1992.

A. Beran, Messung des Ultrarot-Pleochroismus von Mineralen. XIV. Der Pleochroismus des OH-Streckfrequenz in Diopsid, Tschermaks Min. Petr. Mitt, pp.79-85, 1976.

I. Bindeman, Oxygen Isotopes in Mantle and Crustal Magmas as Revealed by Single Crystal, Analysis. Rev. Mineral. Geochem, vol.69, pp.445-478, 2008.

T. C. Birkett and W. E. Trzcienski, Hydrogarnet: multi-site hydrogen occupancy in the garnet structure, Canadian Mineralogist, vol.22, pp.675-680, 1984.

W. Bleeker, Archean tectonics: a review, with illustrations from the Slave craton, Special Publication, vol.199, pp.151-181, 2002.

W. Bleeker and B. W. Davis, What is a craton? How many are there? How do they relate? And how did they form?, 2004.

F. R. Boyd, N. P. Pokhilenko, D. G. Pearson, S. A. Mertzman, N. V. Sobolev et al., Composition of the Siberian cratonic mantle: evidence from Udachnaya peridotite xenoliths. Contribution to Mineral Petrology, pp.228-246, 1997.

M. Boyet and R. W. Carlson, 142Nd Evidence for Early (>4.53 Ga) Global Differentiation of the Silicate Earth, Science, vol.309, pp.576-581, 2005.

G. D. Bromiley and H. Keppler, An experimental investigation of hydroxyl solubility in jadeite and Na-rich clinopyroxenes, Contribution to Mineral Petrology, vol.147, pp.189-200, 2004.

M. Brown, Duality of thermal regimes in the distinctive chracteristic of plate tectoinics since the Neoarchean, Geology, vol.34, pp.961-964, 2006.

H. Bureau, C. Raepsaet, H. Khodja, A. Carraro, and C. Aubaud, Determination of hydrogen content in geological samples using Elastic Recoil Detection Analysis (ERDA), 2009.

, Geochimica et Cosmochimica Acta, pp.3311-3322

A. Bouvier, J. D. Vervoot, and P. J. Patchett, The Lu-Hf and Sm-Nd isotopic composition of CHUR: Constraints from the unequilibrated chondrites and implications for the bulk composition of terrestrial planets, Earth Planet. Sci. Lett, pp.48-57, 2008.

B. L. Byerly, K. Kareem, H. Bao, and G. R. Byerly, Early Earth mantle heterogeneity revealed by light oxygen isotopes of Archean komatiites, Nature Geoscience, vol.10, pp.1-5, 2017.

I. H. Campbell, Identification of ancient mantle plumes, pp.1-21, 2001.

F. A. Caporuscio and J. R. Smyth, Trace elements crystal chemistry of mantle eclogites. Contribution to Mineral Petrology, pp.550-561, 1990.

D. A. Carswell and R. Y. Zhang, Petrographic characteristics and metamorphic evolution of untra-high pressure eclogites in plate-collision belts, International Geology Review, vol.41, pp.781-798, 1999.

P. Cawood, A. Kröner, W. J. Collins, T. M. Kusky, W. D. Mooney et al., , 2009.

, Earth Accretionary Systems in Space and Time, pp.1-36

D. Chardon, D. Gapais, and F. Cagnard, Flow of ultra-hot orogens: A view from the Precambrian, clues for the Phanerozoic, Tectonophysics, pp.105-118, 2009.
URL : https://hal.archives-ouvertes.fr/insu-00562376

J. R. Clark and J. J. Papike, Crustal-chemical characterization of omphacites, American Mineralogist, vol.53, pp.840-868, 1968.

R. G. Coleman, D. E. Lee, L. B. Beatty, and W. W. Brannock, Eclogites and eclogites: their differences and similarities, pp.483-508, 1965.

K. C. Condie and A. Kröner, The building blocks of continental crust: Evidence for a major change in the tectonic setting of continental growth at the end of the Archean, Gondwana Research, vol.23, pp.394-402, 2013.

C. D'amico, R. C. Ana, G. Felice, and M. Ghedini, Eclogites and jades as prehistoric implements in Europe. A case of petrology applied to Cultural Heritage, European Journal of Mineralogy, vol.7, pp.29-42, 1995.

L. S. Darken, In The Physical Chemistry of metallic solutions and intermetallic compounds. Her Majesty's Stationary Office, 1958.

L. Daudin, H. Khodja, and J. P. Gallien, Development of "position-charge-time" tagged spectrometry for ion beam microanalysis, Nucl. Instrum. Methods Phys. Res. B, pp.153-158, 2003.

G. F. Davies, Punctuated tectonic evolution of the earth, Earth Planet. Sci. Lett, vol.136, pp.363-379, 1995.

G. F. Davies, Thickness and thermal history of continental crust and root zones, Earth Planet. Sci. Lett, vol.44, pp.231-238, 1979.

J. B. Dawson, A fertile harzburgite-garnet lherzolite transition: possible inferences for the roles of strain and metasomatism in upper mantle peridotites, Lithos, vol.77, pp.553-569, 2004.

M. J. De-wit, C. Roering, R. J. Hart, R. A. Armstrong, C. E. De-ronde et al.,

M. Tredoux, E. Peberdy, and R. A. Hart, Formation of an Archean continent, Nature, vol.357, pp.553-562, 1992.

W. A. Deer, R. A. Howie, and J. Zussman, Epidote Group, Rock-forming minerals, pp.4-43, 1986.

E. Deloule, O. Paillat, M. Pichavant, and B. Scaillet, Ion microprobe determination of water in silicate glasses: methods and applications, Chemical Geology, pp.19-28, 1995.

S. Demouchy and N. Bolfan-casanova, Distribution and transport of hydrogen in the lithospheric mantle: A review, Lithos, pp.402-425, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01306676

S. Demouchy, S. E. Jacobsen, F. Gaillard, and C. R. Stern, Rapid magma ascent recorded by water diffusion profiles in mantle olivine, Geology, vol.34, pp.429-432, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00091693

G. Dobosi, G. Kurat, F. Wall, and T. Jeffries, Trace element fractionation during exsolution of garnet from clinopyroxene in an eclogite xenolith from Obnazhennaya (Siberia), Goldschmidt, 2007.

D. G. Dolomieu, Mémoire sur les roches composées en général, et particulièrement sur les pétro-silex, les trapps et les roches de corne, pour servir à la distribution méthodique des produits volcaniques (1), Histoire naturelle et des Arts CUCHET, pp.187-188, 1794.

L. S. Doucet, D. A. Ionov, and A. V. Golovin, Paleoproterozoic formation age for the Siberian cratonic mantle: Hf and Nd isotope data on refractory peridotite xenoliths from the Udachnaya kimberlite, Chemical Geology, vol.391, pp.42-55, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01115519

L. S. Doucet, A. H. Peslier, D. A. Ionov, A. D. Brandon, A. V. Golovin et al., High water contents in the Siberian cratonic mantle linked to metasomatism: An FTIR study of Udachnaya peridotite xenoliths, Geochimica et Cosmochimica Acta, pp.159-187, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01053920

J. M. Eiler, Oxygen isotope variations of basaltic lavas and upper mantle rocks, Rev. Mineral. Geochem, vol.43, pp.319-364, 2001.

P. Eskola, The mineral facies of rocks, Norsl Geologisk Tidsskrift VI, pp.143-194, 1920.

L. L. Fermor, Preliminary note on the origin of meteorites, Journal and Proceedings of the Asiatic Society of Bengal (new ser.) VIII, pp.316-317, 1912.

M. Field, J. Stiefenhofer, J. Robey, and S. Kurszlaukis, Kimberlite-hosted diamond deposits of southern Africa: A review, Ore Geology Reviews, pp.33-75, 2008.

W. S. Fyfe, Lattice energies, phase transformation and volatiles in the mantle, Phys. Earth Planet. Interiors, vol.3, pp.196-200, 1970.

G. D. Garlick, I. D. Macgregor, and D. E. Vogel, Oxygen isotope ratios in eclogites from kimberlites, Science, vol.172, pp.1025-1027, 1971.

T. Gasparik, Experimentally determined stability of clinopyroxene + garnet + corundum in the system CaO-MgO-Al2O3-SiO2, American Mineralogist, vol.69, pp.1025-1035, 1984.

T. Gasparik, Experimental study of subsolidus phase relations and mixing properties of clinopyroxene in the silica-saturated system CaO-MgO-Al2O3-SiO2, American Mineralogist, vol.71, pp.686-693, 1986.

T. Gasparik and D. H. Lindsley, Phase equilibria at high pressure of pyroxenes containing monovalent and trivalent ions, 1980.

G. Godard, Eclogites and their geodynamic interpretation: a history, Journal of Geodynamics, vol.32, pp.165-203, 2001.

A. G. Goncharov, D. A. Ionov, L. S. Doucet, and L. Pokhilenko, Thermal state, oxygen fugacity and COH fluid specification in cratonic lithospheric mantle: New data on peridotite xenoliths from the Udachnaya kimberlite, Siberia. Earth Planet. Sci. Lett, vol.357, issue.358, pp.99-110, 2012.

B. Gong, Y. Zheng, and R. Chen, An online method combining a thermal conversion elemental analyzer with isotope ratio mass spectrometry for the determination of hydrogen isotope composition and water concentration in geological samples, Rapid Communications in mass spectrometry, vol.21, pp.1386-1392, 2007.

B. Gong, Y. Zheng, and R. Chen, TC/EA-MS online determination of hydrogen isotope composition and water concentration in eclogitic garnet, Phys Chem Minerals, vol.34, pp.687-698, 2007.

Y. Gréau, J. Huang, W. L. Griffin, C. Renac, O. Alard et al., Type I eclogites from Roberts Victor kimberlites: Products of extensive mantle metasomatism, Geochimica et Cosmochimica Acta, pp.6927-6954, 2011.

D. H. Green, Experimental melting studies on a model upper mantle composition at high pressures under water-saturated and water-undersaturated conditions, Earth Planet. Sci. Lett, vol.19, pp.37-53, 1973.

D. H. Green and A. E. Ringwood, An experimental investigation of the gabbro to eclogite transformation and its petrological applications, Geochimica et Cosmochimica Acta, vol.31, pp.767-833, 1967.

D. H. Green and A. E. Ringwood, The stability fields of aluminous pyroxene peridotite and garnet peridotite and their relevance in upper mantle structure, Earth Planet. Sci. Lett, vol.3, pp.151-160, 1967.

D. H. Green, The origin of the "eclogites" from Salt Lake crater, 1966.

, Sci. Lett, vol.1, pp.414-420

M. Gregoire, N. Mattielli, C. Nicollet, J. Cottin, H. Leyrit et al.,

A. Giret, Oceanic mafic granulite xenoliths from the Kerguelen archipelago, Nature, vol.367, pp.360-363, 1994.

R. T. Gregory and H. P. Taylor, An Oxygen Isotope profile in a section of Cretaceous Oceanic Crust, Evidence from d18O Buffering in the Oceans by Deep (>5km) Seawater-Hydrothermal Circulation at Mid-Ocean Ridges, vol.86, pp.2737-2755, 1981.

W. Griffin, E. A. Belousova, H. S. O'neil, S. Y. O'reilly, V. G. Malkovets et al., The world turns over: Hadean-Archean crust-mantle evolution, Lithos, vol.189, pp.2-15, 2014.

W. Griffin, C. G. Ryan, F. V. Kaminsky, S. Y. O'reilly, L. M. Natapov et al., The Siberian lithosphere traverse: mantle terranes and the assembly of the Siberian Craton. Tectonophysics, pp.1-35, 1999.

W. L. Griffin and S. Y. Reilly, Cratonic lithospheric mantle: Is there anything subducted? Episodes, vol.30, pp.43-53, 2007.

W. Griffin, S. Y. O'reilly, L. M. Natapov, and C. G. Ryan, The evolution of the lithospheric mantle beneath the Kalahari craton and its margins, Lithos, vol.71, pp.215-241, 2003.

A. A. Gurenko, I. Bindeman, and M. Chaussidon, Oxygen isotope heterogeneity of the mantle beneath the Canary Island: insights from olivine phenocrysts, Contribution to Mineral Petrology, vol.162, pp.349-363, 2011.

S. E. Haggerty and V. Sautter, Ultradeep (Greater than 300 kilometers), Ultramafic upper mantle xenoliths, Science, vol.248, pp.993-996, 1990.

C. Harris and J. Vogeli, Oxygen isotope composition of garnet in the peninsula granite, cape granite suite, South Africa: constraints on melting and emplacement mechanisms, South African Journal of Geology, vol.113, pp.385-396, 2010.

B. Harte and J. Gurney, Evolution of clinopyroxene and garnet in an eclogite nodule from the Roberts Victor kimberlite pipe, South Africa. Phys Chem Earth, pp.367-387, 1975.

C. J. Hatton, The geochemistry and origin of xenoliths from the Roberts Victor mine, p.498, 1978.

C. J. Hatton and J. Gurney, Igneous fractionation trends in Roberts-Victor eclogites, 2nd International Kimberlite Conference, 1977.

E. H. Hauri, G. A. Gaetani, and T. H. Green, Partitioning of water during melting of the Earth's upper mantle at H2O-undersaturated conditions, Earth Planet. Sci. Lett, pp.715-734, 2006.

R. J. Haüy, 1822-1823) Silice combinée avec la magnésie, Traité de minéralogie, vol.1

, Seconde édition, revue, corrigée, et considérablement augmentée par l'auteur

C. Hawkesworth, P. Cawood, T. Kemp, C. Storey, and B. Dhuime, A matter of preservation, Science, vol.323, pp.49-50, 2009.

H. Helmstaedt and D. J. Schulze, Southern African kimberlites and their mantle sample: implications for Archean tectonics and lithosphere evolution, Kimberlites and related rocks, vol.1, pp.358-368, 1989.

H. Helmstaedt and R. Doig, Eclogite nodules from kimberlite pipes of the Colorado plateau -samples of subducted francinsca-type oceanic lithosphere, Phys Chem Earth, vol.9, pp.95-112, 1975.

G. Hirth and D. L. Kohlstedt, Water in the oceanic upper mantle: implications for rheology, melt extraction and the evolution of the lithosphere, Earth Planet. Sci. Lett, pp.93-108, 1996.

P. F. Hoffman, Geological constraints on the origin of the mantle root beneath the Canadian shield, Philosophical Transactions of the Royal Society of London. Series A, vol.331, pp.523-532, 1990.

J. Huang, Y. Xiang, Y. An, W. Griffin, Y. Gréau et al., Magnesium and oxygen isotopes in Roberts Victor eclogites, Chemical Geology, pp.73-83, 2016.

J. Huang, W. L. Griffin, Y. Gréau, N. J. Pearson, S. Y. O'reilly et al., Unmasking xenolithic eclogites: Progressive metasomatism of a key Roberts Victor sample, Chemical Geology, pp.56-65, 2014.

J. Huang, P. Li, W. L. Griffin, Q. Xia, Y. Gréau et al., Water contents of Roberts Victor xenolithic eclogites: primary and metasomatic controls, 2014.

J. Huang, Y. Gréau, W. L. Griffin, S. Y. O'reilly, and N. J. Pearson, Multi-stage origin of Roberts Victor eclogites: Progressive metasomatism and its isotopic effects, Lithos, pp.161-181, 2012.

J. Huang, S. Zhong, and J. Van-hunen, Controls on sublithospheric small-scale convection, Journal of Geophysical Research, vol.108, p.2405, 2003.

J. Ingrin, K. Latrous, J. Doukhan, and N. Doukhan, Water in diopside: an electron microscopy and infrared spectroscopy study, Eur. J. Mineral, vol.1, pp.327-341, 1989.

J. Ingrin and H. Skogby, Hydrogen in nominally anhydrous upper-mantle minerals: concentration levels and implications, Eur. J. Mineral, vol.12, pp.543-570, 2000.

D. A. Ionov, R. W. Carlson, L. S. Doucet, A. V. Golovin, and O. B. Oleinikov, The age and history of the lithospheric mantle of the Siberian craton: Re-Os and PGE study of peridotite xenoliths from the Obnazhennaya kimberlite, Earth Planet. Sci. Lett, pp.108-119, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01687663

D. A. Ionov, L. S. Doucet, and I. V. Ashchepkov, Composition of the Lithospheric Mantle in the Siberian Craton: New Constraints from Fresh Peridotites in the Udachnaya-East Kimberlite, Journal of Petrology, vol.51, pp.2177-2210, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00576123

D. A. Ionov, R. S. Harmon, C. France-lanord, P. B. Greenwood, and I. V. Ashchepkov, , 1994.

, Oxygen isotope composition of garnet and spinel peridotites in the continental mantle: Evidence from the Vitim xenoltih suite, southern Siberia, Geochimica et Cosmochimica Acta, vol.58, pp.1463-1470

T. R. Ireland, R. L. Rudnick, and Z. V. Spetsius, Trace elements in diamond inclusions from eclogites reveal link to Archean granites, Earth Planet. Sci. Lett, vol.128, 1994.

D. E. Jacob, M. Bizimis, and V. J. Salters, Lu-Hf and geochemical systematics of recycled ancient oceanic crust: evidence from Roberts Victor eclogites. Contribution to Mineral Petrology, pp.707-720, 2005.

D. E. Jacob, Nature and origin of eclogite xenoliths from kimberlites, Lithos, pp.295-316, 2004.

D. E. Jacob, B. Schmickler, and D. J. Schulze, Trace element geochemistry of coesitebearing eclogites from the Roberts Victor kimberlite, Kaapvaal craton. Lithos, pp.337-351, 2003.

D. E. Jacob and S. F. Foley, Evidence for Archean ocean crust with low high field strength element signature from diamondiferous eclogite xenoliths, Lithos, pp.317-336, 1999.

D. E. Jacob, E. Jagoutz, D. Lowry, D. Mattey, and G. Kudrjavttseva, Diamondiferous eclogites from Siberia: remnants of Archean oceanic crust, Geochimica et Cosmochimica Acta, vol.58, pp.5191-5207, 1994.

E. Jagoutz, Nd and Sr systematics in an eclogite xenolith from Tanzania: Evidence for frozen mineral equilibria in the continental lithosphere, Geochimica et Cosmochimica Acta, vol.52, pp.1285-1293, 1988.

E. Jagoutz, J. B. Dawson, S. Hoernes, B. Spettel, and H. Wänke, Anorthositic oceanic crust in the Archean Earth, Lunar Planetary Science, vol.15, pp.395-396, 1984.

D. E. James, F. Niu, and J. Rokosky, Crustal structure of the Kaapvaal craton and its significance for early crustal evolution, Lithos, pp.413-429, 2003.

E. A. Jerde, L. A. Taylor, G. Crozaz, and N. V. Sobolev, Exsolution of garnet within clinopyroxene of mantle eclogites: major-and trace-element chemistry. Contribution to Mineral Petrology, pp.148-159, 1993.

V. S. Kamenetsky, A. V. Golovin, R. Maas, A. Giuliani, M. B. Kamenetsky et al., Towards a new model for kimberlite petrogenesis: Evidence from unaltered kimberlites and mantle minerals, Earth Science Reviews, vol.139, pp.145-167, 2014.

S. Karato, The role of hydrogen in the electrical conductivity of the upper mantle. Letters to, Nature, vol.347, pp.272-273, 1990.

I. Katayama, Y. Suyama, J. Ando, and T. Komiya, Mineral chemistry and P-T condition of granular and sheared peridotite xenoliths from Kimberley, South Africa: Origin of the textural variation in the cratonic mantle, Lithos, pp.333-340, 2009.

I. Katayama, S. Nakashima, and H. Yurimoto, Water content in natural eclogite and implication for water transport into the deep upper mantle, Lithos, pp.245-259, 2006.

I. Katayama and S. Nakashima, Hydroxyl in clinopyroxene from the deep subducted crust: Evidence for H2O transport into the mantle, American Mineralogist, vol.88, pp.229-234, 2003.

H. Khodja, E. Berthoumieux, L. Daudin, and J. P. Gallien, The Pierre Sue Laboratory nuclear microprobe as a multi-disciplinary analysis tool. Nuclear instruments and Methods, Physics Reserch Section B: Beam interactions with Materials and Atoms, pp.83-86, 2001.

S. W. Kieffer, Thermodynamics and Lattice Vibrations of Minerals: Applications to Phase Equilibria, Isotopic Fractionation, and High-Pressure Thermodynamic Properties, Reviews of Geophysics and Space Physics, vol.20, pp.827-849, 1982.

N. Knapp, A. B. Woodland, and K. Klimm, Experimental constraints in the CMAS system of the Ca-Eskola content in eclogitic clinopyroxene, Eur. J. Mineral, vol.25, pp.579-596, 2013.

A. F. Kobussen, N. I. Christensen, and H. Thybo, Constraints on seismic velocity anomalies beneath the Siberian craton from xenoliths and petrophysics, Tectonophysics, vol.425, pp.123-135, 2006.

M. Koch-müller, I. Abs-wurmbach, D. Rhede, V. Kahlenberg, and S. S. Matsyuk, , 2007.

, Dehydration experiments on natural omphacites: qualitative and quantitative characterization by various spectroscopic methods, Phys Chem Minerals, pp.663-678

M. Koch-müller, S. S. Matsyuk, and R. Wirth, Hydroxyl in omphacites and omphacitic clinopyroxenes of the upper mantle to lower crustal origin beneath the Siberian platform, 2004.

, American Mineralogist, vol.89, pp.921-931

M. V. Kolesnichenko, D. A. Zedgenizov, K. D. Litasov, I. Y. Safonova, and A. L. Ragozin, Heterogeneous distribution of water in the mantle beneath the central Siberian Craton: Implications from the Udachnaya Kimberlite Pipe, 2016.

T. Komiya, S. Maruyama, T. Masuda, S. Nohda, M. Hayashi et al., Plate tectonics at 3.8-3.7 Ga: Field evidence from the Isua accretionary complex, Journal of Geology, vol.107, pp.515-554, 1999.

I. Kovacs, A. Demény, G. Czuppon, C. Lécuyer, F. Fourel et al.,

E. Kiraly, K. Török, A. Szabo, E. Deloule, G. Falus et al.,

J. Kovacs and B. Udvardi, Water concentrations and hydrogen isotope compositions of alkaline basalt hosted clinopyroxene megacrysts and amphibole clinopyroxenites: the role of structural hydroxyl groups and molecular water. Contribution to Mineral Petrology 171, 2016.

I. Kovacs, D. H. Green, A. Rosenthal, J. Hermann, H. S. O'neil et al., An experimental study of water in nominally anhydrous minerals in the upper mantle near the water saturated solidus, Journal of Petrology, vol.53, pp.2067-2093, 2012.

I. Kovacs, J. Hermann, H. S. O'neill, J. F. Gerald, M. Sambridge et al., , 2008.

, Quantitative absorbance spectroscopy with unpolarized light: Part II. Experimental evaluation and development of a protocol for quantitative analysis of mineral IR spectra, American Mineralogist, vol.93, pp.765-778

E. Krogh, The garnet-clinopyroxene Fe-Mg geothermometer-a reinterpretation of existing experimental data. Contribution to Mineral Petrology, pp.44-48, 1988.

A. Lacroix, Bulletin de la Societé des Sciences naturelles de l'Ouest de la France I, pp.81-114, 1891.

M. A. Lappin, The evolution of a grospydite from the Roberts Victor Mine, South Africa. Contribution to Mineral Petrology, pp.229-241, 1978.

M. A. Lappin and J. B. Dawson, Two Roberts Victor cumulate eclogites and their reequilibration, Phys Chem Earth, vol.9, pp.351-365, 1975.

C. A. Lee, P. Luffi, and E. Chin, Building and destroying continental mantle, Annual Review of Earth and Planetary Sciences, vol.16, 2011.

W. Li, F. Teng, Y. Xiao, and J. Huang, High-temperature inter-mineral magnesium isotope fractionation in eclogite from the Dabie orogenm China, Earth and Planetary Science Letters, pp.224-230, 2011.

Z. A. Li, C. A. Lee, A. H. Peslier, A. Lenardic, and S. J. Mackwell, Water contents in mantle xenoliths from the Colorado Plateau and vicinity: Implications for the mantle rheology and hydration-induced thinning of continental lithosphere, Journal of Geophysical Research, vol.113, 2008.

I. D. Macgregor and W. I. Manton, Roberts Victor eclogites: ancient oceanic crust, Journal of Geophysical Research, vol.91, pp.14063-14079, 1986.

I. D. Macgregor and J. L. Carter, The chemistry of clinopyroxenes and garnets of eclogite and peridotite xenoliths from the Roberts Victor mine, South Africa. Phys. Earth Planet. Interiors, pp.391-397, 1970.

S. J. Mackwell and D. L. Kohlstedt, Diffusion of Hydrogen in Olivine: Implications for Water in the Mantle, Journal of Geophysical Research, vol.95, pp.5079-5088, 1990.

H. Martin, J. Moyen, M. Guitreau, J. Blichert-toft, and J. Le-pennec, , 2014.

, Archean TTG cannot be generated by MORB melting in subduction zones, Lithos, pp.1-13

H. Martin, R. H. Smithies, R. Rapp, J. Moyen, and D. Champion, An overview of adakite, tonalite-trondhjemite-granodiorite (TTG), and sanukitoid: relationships and some implications for crustal evolution, Lithos, pp.1-24, 2005.

R. F. Martin and G. Donnay, Hydroxyl in the mantle, American Mineralogist, vol.57, pp.554-570, 1972.

S. S. Matsyuk, K. Langer, and A. Hösch, Hydroxyl defects in garnets from mantle xenoliths in kimberlites of the Siberian platform. Contribution to Mineral Petrology, pp.163-179, 1998.

S. Maruyama and K. Okamoto, Water transportation from the subducting slab into the mantle transition zone, Gondwana Research, pp.148-165, 2007.

D. Mattey, D. Lowry, and C. Macpherson, Oxygen isotope composition of mantle peridotites, Earth Planet. Sci. Lett, vol.128, pp.231-241, 1994.

M. Mayer, SIMNRA, Proceedings of the 15th International Conference on the Application of Accelerators in Research and Industry, p.541, 1999.

T. Mccandless, J. Gurney, J. Ross, A. L. Jaques, J. Ferguson et al., Sodium in garnet and potassium in clinopyroxene: criteria for classifying mantle eclogites, Kimberlite and related rocks. Special publicationGeological Society of Australia, 1989.

M. T. Mcculloch, R. T. Gregory, G. J. Wasserburg, and H. P. Taylor, Sm-Nd, Rb-Sr and 18O/16O Isotopic Systematics in an Oceanic Crustal Section: Evidence from the Samail Ophiolite, Journal of Geophysical Research, vol.86, pp.2721-2735, 1981.

W. F. Mcdonough and S. Sun, Composition of the Earth, Chemical Geology, pp.223-253, 1995.

L. Mrazec, Note sur une jadéite du Piemont, Bulletin de la Societé des sciences de Bukarest, vol.7, pp.195-196, 1898.

W. F. Mcdonough, Partial melting of subducted oceanic crust and isolation of its residual eclogitic lithology, Philosophical Transactions of the Royal Society of London. Series A, vol.335, pp.407-418, 1991.

K. Mierdel, H. Keppler, J. R. Smyth, and F. Langenhorst, Water Solubility in Aluminous Orthopyroxene and the Origin of Earth's Astenosphere, Science, vol.315, pp.364-368, 2007.

W. Müller, M. Shelley, P. Miller, and S. Broude, Initial performance metrics of a new custom-designed ArF excimer LA-ICPMS system coupled to a two-volume laser-ablation cell, J. Anal. At. Spectrom, pp.209-214, 2009.

C. R. Neal, H. P. Taylor, J. P. Davidson, P. Holden, A. N. Halliday et al., Eclogites with oceanic crustal and mantle signatures from the Bellsbank kimberlite, South Africa, part 2: Sr, Nr and O istope geochemistry, Earth Planet. Sci. Lett, vol.99, pp.362-379, 1990.

G. M. Nowell, D. G. Pearson, D. R. Bell, R. W. Carlson, C. B. Smith et al., Hf isotope systematics of kimberlites and their megacrysts: new constraints on their source regions, Journal of Petrology, vol.45, pp.1583-1612, 2004.

M. J. O'hara and J. H. Yoder, Formation and fractionation of basic magmas at high pressures. Scott, J. Geol, pp.67-117, 1967.

J. S. Ongley, A. R. Basu, and K. T. Kyser, Oxygen isotopes in coexisting garnets, clinopyroxenes and phlogopites of Roberts Victor eclogites: implications for petrogenesis and mantle metasomatism, Earth Planet. Sci. Lett, vol.83, pp.80-84, 1987.

D. G. Pearson and N. Witting, Formation of Archean continental lithosphere and its diamonds: the root of the problem, Journal of the Geological Society, vol.165, pp.895-914, 2008.

A. H. Peslier, M. Schönbächler, H. Busemann, and S. Karato, Water in the Earth's interior: distribution and origin, Sapce Sci Rev, vol.210, pp.1-68, 2017.

A. H. Peslier, A. B. Woodland, D. R. Bell, M. Lazarov, and T. J. Lapen, Metasomatic control of water contents in the Kaapvaal cratonic mantle, Geochimica et Cosmochimica Acta, pp.213-246, 2012.

A. H. Peslier, A review of water contents of nominally anhydrous natural minerals in the mantles of Earth, Mars and the Moon, Journal of Volcanology and Geothermal Research, pp.239-258, 2010.

A. H. Peslier, J. F. Luhr, and J. Post, Low water contents in pyroxenes from spinelperidotites of the oxidized, sub-arc mantle wedge, Earth Planet. Sci. Lett, pp.69-86, 2002.

S. A. Pisarevsky, L. M. Natapov, T. V. Donskaya, D. P. Gladkochub, and V. A. Vernikovsky, Proterozoic Siberia: A promontory of Rodinia, Precambrian research, pp.66-76, 2008.

S. Poli and M. W. Schmidt, The high-pressure stability of zoisite and phase relationships of zoisite-bearing assemblages. Contribution to Mineral Petrology, pp.162-175, 1998.

H. N. Pollack and D. S. Chapman, On the regional variations of the heat flow, geotherms, and lithospheric thickness, Tectonophysics, pp.279-296, 1977.

Q. Qi, L. A. Taylor, G. A. Snyder, R. N. Clayton, T. K. Mayeda et al., , 1997.

, Detailed petrology and geochemistry of a rare corundum eclogite xenolith from Obnazhennaya, Yakutia. Russian Geology and Geophysics, vol.38, pp.247-260

I. Radu, A petro-geochemical study of a cratonic eclogite suite -Roberts Victor mine (Kaapvaal, South Africa), Departement de Géologie, Laboratoire Magmas et Volcans, p.42, 2014.

A. L. Ragozin, A. A. Karimova, K. D. Litasov, D. A. Zedgenizov, and V. S. Shatsky, , 2014.

, Water content in minerals of mantle xenoliths from the Udachnaya pipe kimberlites (Yakutia)

, Russian Geology and Geophysics, pp.428-442

M. Rauch and H. Keppler, Water solubility in orthopyroxene. Contribution to Mineral Petrology, pp.525-536, 2002.

E. P. Reguir, A. R. Chakhmouradian, N. M. Halden, V. G. Malkovets, and P. Yang, , 2009.

, Major-and trace-element compositional variations of phlogopite from kimberlites and carbonatites as a petrogenetic indicator, Lithos, pp.372-384

D. L. Reid and A. F. Cooper, Oxygen and carbon isotope patterns in the Dicker Willem carbonatite complex, southern Namibia, Isotope Geoscience Section, pp.293-305, 1992.

A. J. Riches, R. B. Ickert, D. G. Pearson, R. A. Stern, S. E. Jackson et al., In situ oxygen-isotope, major-, and trace-element constraints on the metasomatic modification and crustal origin of a diamondiferous eclogite from Roberts Victor, Kaapvaal craton, Geochimica et Cosmochimica Acta, vol.174, pp.345-359, 2016.

A. J. Riches, Y. Liu, J. M. Day, Z. V. Spetsius, and L. A. Taylor, Subducted oceanic crust as diamond hosts revealed by garnets of mantle xenoliths from Nyurbinskaya, 2010.

H. Rollinson, Eclogite xenoliths in west African kimberlites as residues from Archean granitoid crust formation. Letters to, Nature, vol.389, pp.173-176, 1997.

O. M. Rosen, Siberian craton -a fragment of a Paleoproterozoic supercontinent, Russian Journal of Earth Sciences, vol.4, pp.103-119, 2002.

O. M. Rosen, K. C. Condie, L. M. Natapov, and A. D. Nozhkin, Archean and early proterozoic evolution of the Siberian craton: a preliminary assesment, Archean Crustal Evolution, pp.411-460, 1994.

O. M. Rosen, A. V. Manakov, and V. P. Serenko, Paleoproterozoic collisional system and diamondiferous lithospheric keel of the Yakutian kimberlite province, Russian Geology and Geophysics, vol.46, pp.1237-1251, 2005.

G. R. Rossman, Studies of the OH in nominally anhydrous minerals, Phys Chem Minerals, pp.299-304, 1996.

G. R. Rossman and D. R. Aines, The hydrous component in garnets: Grossularhydrogrossular, American Mineralogist, vol.76, pp.1153-1164, 1991.

D. C. Rubie, D. J. Frost, U. Mann, Y. Asahara, F. Nimmo et al., Heterogenous accretion, composition and core-mantle differentiation of the Earth, Earth and Plantetary Science Letters, vol.301, pp.31-42, 2011.

J. Saleeby, M. Ducea, and D. Clemens-knott, Production and loss of high-density batholitic root, Tectonics, vol.22, p.1064, 2003.

H. D. Saussure, Tome 2 / , précédés d'un Essai sur l'histoire naturelle des environs de Genève, par Horrace-Bénédict de Saussure, Voyages dans les Alpes, p.402

V. Sautter, B. Harte, and J. W. Harris, Majorite destabilisation on decompression: constrains from natural samples on plume velocity, Mineralogical Magazine, vol.62, pp.1320-1321, 1998.

V. Sautter and B. Harte, Diffusion gradients in an eclogite xenolith from the Roberts Victor kimberlite pipe: (2) kinetics and implications for petrogenesis. Contribution to Mineral Petrology, pp.637-649, 1990.

V. Sautter and B. Harte, Diffusion gradients in an eclogite xenolith from the Roberts Victor kimberlite pipe; 1: mechanism and evolution of garnet exsolution in Al2O3-rich clinopyroxene, Journal of Petrology, pp.1325-1352, 1988.

B. Schmickler, D. E. Jacob, and S. F. Foley, Eclogite xenoliths from the Kuruman kimberlites, South Africa: geochemical fingerprinting of deep subduction and cumulate processes, Lithos, pp.173-207, 2004.

M. W. Schmidt and S. Poli, The stability of lawsonite and zoisite at high pressures: Experiments in CASH to 92kbar and implications for the presence of hydrous phases in subducted lithosphere, Earth Planet. Sci. Lett, pp.105-118, 1994.

M. D. Schmitz and S. A. Bowring, Ultrahigh-temperature metamorphism in the lower crust during Neoarchean Ventersdorp rifting and magmatism, Kaapvaal Craton, southern Africa, America Bulletin, vol.115, pp.533-548, 2003.

D. J. Schulze, B. Harte, E. I. Facility, Z. F. Page, J. Valley et al., Anticorrelation between low d13C of eclogitic diamonds and high d18O of their coesite and garnet inclusions requires a subduction origin, Geology, vol.41, pp.455-458, 2013.

D. J. Schulze, J. Valley, and M. J. Spicuzza, Coesite-sanidine eclogites from the Roberts Victor kimberlite, pp.23-32, 2000.

D. J. Schulze, Constraints on the abundance of eclogite in the upper mantle, Journal of Geophysical Research, pp.4205-4212, 1989.

D. J. Schulze and H. Helmstaedt, Coesite-Sanidine eclogites from kimberlite: products of mantle fractionation or subduction, Journal of Geology, vol.96, pp.435-443, 1988.

R. D. Shannon and C. T. Prewitt, Effective ionic radii in oxides and fluorides, Acta Crystallogr, vol.25, pp.925-946, 1969.

Z. Sharp, A laser-based microanalytical method for the in situ determination of oxygen isotope ratios of silicates and oxides, Geochimica et Cosmochimica Acta, vol.54, pp.1353-1357, 1990.

Z. Sharp, V. Atudorei, and T. Durakiewicz, A rapid method for determination of hydrogen and oxygen isotope ratios from water and hydrous minerals, Chemical Geology, pp.197-210, 2001.

V. S. Shatsky, D. A. Zedgenizov, and A. L. Ragozin, Evidence for a subduction component in the diamond-bearing mantle of the Siberian craton, Russian Geology and Geophysics, vol.57, pp.111-126, 2016.

A. A. Shchipansky, Subduction geodynamics in Archean and formation of diamondbearing lithospheric keels and early continental crust of cratons, Geotectonics, vol.46, pp.122-141, 2012.

J. W. Shervais, L. A. Taylor, G. W. Lugmair, R. N. Clayton, T. K. Mayeda et al.,

, Early Proterozoic oceanic crust and the evolution of subcontinental mantle: Eclogites and related rocks from southern Africa, Bulletin of the Geological Society of America, vol.100, pp.411-423

Q. Shu, G. P. Brey, H. E. Hoefer, Z. Zhao, and D. G. Pearson, Kyanite/corundum eclogites from the Kaapvaal Craton: subducted troctolites and layered gabbros from the Mid-to Early Archean, 2016.

Q. Shu, G. P. Brey, A. Gerdes, and H. E. Hoefer, Mantle eclogites and garnet pyroxenites -the meaning of the two point isochrones, Sm-Nd and Lu-Hf closure temperatures and the cooling of the subcratonic mantle, Earth Planet. Sci. Lett, pp.143-154, 2014.

H. Skogby, M. Janak, and I. Broska, Water incorporation in omphacite: concentrations and compositional relatios in ultrahigh-pressure eclogites from Phorje, Eastern Alps, Eur. J. Mineral, vol.28, pp.631-639, 2016.

H. Skogby, D. R. Bell, and G. R. Rossman, Hydroxide in pyroxene: Variations in the natural environment, American Mineralogist, vol.75, pp.764-774, 1990.

A. P. Smelov, A. I. Zaitsev, D. G. Pearson, H. S. Grütter, J. W. Harris et al., The Age and Localization of Kimberlite Magmatism in the Yakutian Kimberlite Province: Constraints from Isotope Geochronology -An overview, Proceedings of 10th International Kimberlite Conference. Spinger, pp.225-234, 2013.

B. Smith, I. Baziotis, L. Carmody, Y. Liu, H. P. Taylor et al., The subcontinental lithospheric mantle of the NE Siberian craton: peridotites from Obnazhennaya, GSA Annual Meeting & Exposition, p.587, 2012.

C. B. Smith, H. L. Allsop, J. D. Kramers, and J. C. Roddick, Emplacement ages of Jurassic-Cretaceous South African kimberlites by the Rb-Sr method on phlogopite and wholerock samples, Transactions of the Geological Society of South Africa, vol.88, pp.249-266, 1985.

J. R. Smyth, D. R. Bell, and G. R. Rossman, Incorporation of hydroxyl in upper-mantle clinopyroxenes. Letters to Nature, pp.732-734, 1991.

J. R. Smyth, F. A. Caporuscio, and T. C. Mccormick, Mantle eclogites: evidence of igneous fractionation in the mantle, Earth Planet. Sci. Lett, pp.133-141, 1989.

J. R. Smyth and F. A. Caporuscio, Petrology of a suite of eclogite inclusions from the Bobbejaan kimberlite: II. Primary phase compositions and origin, 1984.

, Kimberlites II: the mantle and crust-mantle relationship, pp.121-131

G. A. Snyder, E. A. Jerde, L. A. Taylor, A. N. Halliday, V. N. Sobolev et al., Nd and Sr isotopes from diamondiferous eclogites, Evidence of differentiation in the early Earth, pp.91-100, 1993.

N. V. Sobolev, I. K. Kuznetsova, and N. I. Zyuzin, The petrology of grospydite xenoliths from the Zagadochnaya kimberlite pipe in Yakutia, Journal of Petrology, vol.9, pp.253-280, 1968.

D. Spengler, M. Obata, T. Hirajima, L. Ottolini, H. Ohfuji et al., Exsolution of garnet and clinopyroxene from High-Al pyroxenes in Xugou peridotite, Eastern China. Journal of Petrology, vol.53, pp.1477-1504, 2012.

R. Sundvall and R. Stalder, Water in upper mantle pyroxene megacrysts and xenocrysts: A survey study, American Mineralogist, vol.96, pp.1215-1227, 2011.

R. Sundvall, H. Skogby, and R. Stalder, Dehydration-hydration mechanisms in sythetic Fe-poor diopside, Eur. J. Mineral, vol.21, pp.17-26, 2008.

L. A. Taylor and C. R. Neal, Eclogites with oceanic crustal and mantle signatures from the Bellsbank kimberlite, South Africa, Part I: Mineralogy, Petrography and whole rock chemistry, 1989.

, J. Geol, pp.551-567

L. A. Taylor, G. A. Snyder, R. Keller, D. A. Remley, M. Anand et al., Petrogenesis of group A eclogites and websterites: evidence from the Obnazhennaya kimberlite, Yakutia. Contribution to Mineral Petrology, pp.424-443, 2003.

M. P. Terry, G. D. Bromiley, and P. Robinson, Determination of equilibrium water content and composition of omphacitic pyroxene in a UHP kyanite-eclogite, 2003.

E. Van-achterbergh, C. G. Ryan, S. E. Jackson, and W. Griffin, Data reduction software for LA-ICP-MS, Laser ablation-ICPMS in the earth science, pp.239-243, 2001.

Q. H. Van-der-meer, M. Klaver, T. E. Waight, and G. R. Davies, The provenance of sub-cratonic mantle beneath the Limpopo Mobile Belt (South Africa), Lithos, pp.90-104, 2013.

J. Van-hunen and J. Moyen, Archean subduction: Fact or Fiction?, Annual Review of Earth and Planetary Sciences, vol.40, pp.195-219, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00799098

M. J. Van-kranendonk, W. J. Collins, A. Hickman, and M. J. Pawley, Critical tests of vertical vs. horizontal tectonic models for the Archean East Pilbara Granite-Greenstone Terrane, Precambrian research, vol.131, pp.173-211, 2004.

D. D. Van-reenen, C. Roering, L. D. Ashwal, and M. J. De-wit, Regional geological setting of the Limpopo Belt, Precambrian research, vol.55, pp.1-5, 1992.

K. S. Viljoen, D. J. Schulze, and A. G. Quadling, , 2005.

, Eclogite Xenolith Petrogenesis: Petrological, Trace Element and Isotopic Evidence from

. Eclogite, Garnet-Websterite and Alkremite Xenoliths in the Kaalvallei Kimberlite, South Africa, Journal of Petrology, vol.46, pp.2059-2090

D. E. Vogel and G. D. Garlick, Oxygen-isotope ratios in metamorphic eclogites, Contribution to Mineral Petrology, vol.28, pp.183-191, 1970.

H. Wang, J. Van-hunen, and D. G. Pearson, Making Archean cratonic roots by lateral compression: A two stage thickening and stabilization model, 2016.

S. Wang, F. Teng, R. L. Rudnick, and S. Li, Magnesium isotope evidence for a recycled origin of cratonic eclogites, Geology, vol.43, pp.1071-1074, 2015.

S. Wang, T. Fang-zheng, S. Li, and J. Hong, Magnesium isotopic systematics of mafic rocks during continental subduction, Geochimica et Cosmochimica Acta, vol.143, pp.34-48, 2014.

S. Wang, F. Teng, H. M. Williams, and S. Li, Magnesium isotopic variations in cratonic eclogites: Origin and implications, Earth and Planetary Science Letters, pp.219-226, 2012.

K. D. Watson and D. M. Morton, Eclogite inclusions in kimberlite pipes at garnet ridge, northeastern Arizona, American Mineralogist, vol.54, 1969.

A. G. Werner, Abraham Gottlob Werner's lektes Mineral-System, aus dessen Nachlasse aus oberbergamtliche Anordnung herausgegeben und mit Erläuterungen versehen, Gerlach, Freyberg and Vienna, pp.33-34, 1817.

D. F. Wiggers-de-vries, D. G. Pearson, G. P. Bulanova, A. P. Smelov, and A. D. Pavlushin,

G. R. Davies, Re-Os dating of sulphide inclusions zonally distributed in single Yakutian diamonds: Evidence for multiple episodes of Proterozoic formation and protracted timescales of diamond growth, Geochimica et Cosmochimica Acta, vol.120, pp.363-394, 2013.

A. C. Withers, H. Bureau, C. Raepsaet, and M. M. Hirschmann, Calibration of infrared spectroscopy by elastic recoil detection analysis of H in synthetic olivine, Chemical Geology, pp.92-98, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00800687

A. C. Withers, B. J. Wood, and M. R. Carroll, The OH content of pyrope at high pressure, Chemical Geology, pp.161-171, 1998.

B. J. Wood and S. Banno, Garnet-orthopyroxene and orthopyroxene-clinopyroxene relationships in simple and complex systems. Contribution to Mineral Petrology, pp.109-124, 1973.

Q. Xia, Y. Hao, P. Li, E. Deloule, M. Coltorti et al., Low water content in the Cenozoic lithospheric mantle beneath the eastern part of the North China Craton, Journal of Geophysical Research, vol.115, 2010.

Q. Xia, L. Dallai, and E. Deloule, Oxygen and hydrogen isotope heterogeneity of clinopyroxene megacrysts from Nushan Volcano, SE China, Chemical Geology, pp.137-151, 2004.

W. Xu, X. Liu, Q. Wang, J. Lin, and D. Wang, Garnet exsolution in garnet clinopyroxenite and clinopyroxenite xenoliths in early Cretaceous intrusions from the Xuzhou region, eastern China, Mineralogical Magazine, vol.68, pp.443-453, 2004.

X. Yang, H. Keppler, and Y. Li, Molecular hydrogen in mantle minerals, Geochemical Perspectives Letters, pp.160-168, 2016.

X. Yang, Q. Xia, E. Deloule, L. Dallai, Q. Fan et al., Water in minerals of the continental lithospheric mantle and overlying lower crust: A comparative study of peridotite and granulite xenoliths fril the North China Craton, Chemical Geology, pp.33-45, 2008.

T. E. Zegers and P. E. Van-keken, Middle Archean continent formation by crustal delamination, Geology, vol.29, pp.1083-1086, 2001.

S. Zhao, P. Nee, H. W. Green, and L. F. Dobrzhinetskaya, Ca-Eskola component in clinopyroxene: Experimental studies at high pressure and high temperatures in muntianvil apparatus, Earth Planet. Sci. Lett, pp.517-524, 2011.

Y. Zheng, Calculation of oxygen isotope fractionation in anhydrous silicate melts, Geochimica et Cosmochimica Acta, vol.57, pp.1079-1091, 1993.