Y. Arai, Spectroscopic Evidence for Ni(II) Surface Speciation at the Iron Oxyhydroxides?àíWater Interface, Environ. Sci. Technol, vol.42, pp.1151-1156, 2008.

A. L. Auzende, I. Daniel, B. Reynard, C. Lemaire, and F. Guyot, High-pressure behaviour of serpentine minerals: A Raman spectroscopic study, Phys. Chem. Miner, vol.31, pp.269-277, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00086910

J. Barnier, R pour les sociologues (et assimilés) Document PDF, vol.138, p.p, 2008.

T. Becquer, C. Quantin, S. Rotte-capet, J. Ghanbaja, C. Mustin et al., Sources of trace metals in Ferralsols in New Caledonia, Eur. J. Soil Sc, vol.57, pp.200-213, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00377662

D. L. Bish and G. W. Brindley, Deweylites, mixtures of poorly crystalline, hydrous serpentine and talc-like minerals, Mineralogical Magazine, vol.42, pp.75-79, 1978.

P. Boivin, D. Brunet, and C. Odoux, Densité apparente d'échantillon de sol : méthode de la poche plastique. Milieux poreux et transferts hydriques, Bull. GFHN, vol.28, pp.59-71, 1991.

N. Bousserrhine, U. G. Gasser, E. Jeanroy, and J. Berthelin, Effect of aluminium substitution on ferri-reduding bacterial activity and dissolution of goethites, C.R. Academ. Sc., Earth Planet. Sc, vol.326, pp.617-624, 1998.

N. Bousserrhine, U. G. Gasser, E. Jeanroy, and J. Berthelin, Bacterial and chemical reductive dissolution of Mn-, Co-, Cr-and Al-substituted goethites, Geomicrobiol. J, vol.16, pp.245-258, 1999.

N. W. Brand, C. R. Butt, and M. Elias, Nickel laterites : classification and features, AGSO J. Aust. Geol. Geophys, vol.17, pp.81-88, 1998.

K. Brauner and A. Preisinger, Struktur und Enstehung des Sepioliths, Tschermaks Mineralogische und Petrographische Mitteilungen, vol.6, p.140, 1956.

G. E. Brimhall, C. J. Lewis, C. Ford, J. Bratt, G. Taylor et al., Quantitative geochemical approach to pedogenesis: importance of parent material reduction, volumetric expansion, and eolian influx in lateritization, Geoderma, vol.51, pp.51-91, 1991.

G. E. Brimhall and W. E. Dietrich, Constitutive mass balance relations between chemical composition, volume, density, porosity and strain in metasomatic hydrochemical systems-Results on weathering and pedognesis, Geochimica et Cosmochimica Acta, vol.51, pp.567-587, 1987.

G. W. Brindley and P. T. Hang, The nature of garnierites -I structures, chemical compositions and color characteristics, Clays & Clay Minerals, vol.21, pp.27-40, 1973.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

G. W. Brindley and Z. Masksimovic, The nature and nomenclature of hydrous nickelcontaining silicates, Clay Minerals, vol.10, pp.271-277, 1974.

G. W. Brindley and H. M. Wan, Composition, structure and thermal behaviour of nickel-containing minerals in the lizardite-nepouite series, American Mineralogist, vol.60, pp.863-871, 1975.

G. W. Brindley, D. Bish, and H. M. Wan, The nature of kerolite, its relation to talc and stevensite, Mineralogical Magazine, vol.41, pp.443-452, 1977.

G. W. Brindley, D. Bish, and H. M. Wan, Compositions, structures, and properties of nickel-containing minerals in the kerolite-pimelite series, American Mineralogist, vol.64, pp.615-625, 1979.

C. R. Butt and D. Cluzel, Nickel laterite ore deposits: Weathered serpentinites, Elements, vol.9, pp.123-128, 2013.

W. Büttner and R. Saage, Rapid XRD Determination of the chrysotile/lizardite ratios in asbestos-bearing serpentinites. TMPM Tschermaks Mineralogische und Petrographische Mitteilungen, vol.30, pp.177-187, 1982.

M. L. Carvalho-e-silva, C. S. Partiti, J. Enzweiler, S. Petit, S. M. Netto et al., Characterization of Ni-Containing Goethites by Mössbauer Spectroscopy and Other Techniques, Hyperfine interact, vol.142, pp.559-576, 2002.

-. Carvalho, M. L. Silva, A. Y. Ramos, H. C. Tolentino, J. Enzweiler et al., Incorporation of Ni into natural goethite : An investigation by X-ray absorption spectroscopy, American Mineralogist, vol.88, pp.876-882, 2003.

L. Charlet and A. Manceau, Evidence for the neoformation of clays upon sorption of Co(II) and Ni(II) on silicates, Geochimica et Cosmochimica Acta, vol.58, pp.2577-2582, 1994.

T. T. Chen, J. E. Dutrizac, E. Krause, and R. Osborne, Mineralogical characterization of nickel laterites from New Caledonia and Indonesia, International Laterite Nickel Symposium-2004, pp.79-99, 2004.

V. Chevillotte, D. Chardon, A. Beauvais, P. Maurizot, and C. F. , Long-term tropical morphogenesis of New Caledonia (Southwest Pacific): Importance of positive epeirogeny and climate change, Geomorphology, vol.81, pp.361-375, 2006.

G. E. Christidis and I. Mitsis, A new Ni-rich stevensite from the ophiolite complex of Othrys, central Greece, Clays & Clay Minerals, vol.54, pp.653-666, 2006.

D. Cluzel, J. C. Aitchison, and C. Picard, Tectonic accretion and underplating of mafic terranes in the late Eocene intraoceanic fore-arc of New Caledonia (Southwest Pacific). Geodynamic implications, Tectonophys, vol.340, pp.23-60, 2001.
URL : https://hal.archives-ouvertes.fr/hal-00089721

D. Cluzel and B. Vigier, Syntectonic mobility of supergene nickel ores of New Caledonia (Soutwest Pacific). Evidence from garnierite veins and faulted regolith, Ressource Geology, vol.58, pp.161-170, 2008.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

M. L. Coleman, D. B. Hedrick, D. R. Lovley, D. C. White, and K. Pye, Reduction of Fe(III) in sediments by sulfate-reducing bacteria, Nature, vol.361, pp.436-438, 1993.

C. F. Nahon, D. Trescases, J. J. Melfi, and A. J. , Lateritic weathering of pyroxenites at Niquelandia, Goias, brazil -The supergene behavior of Nickel, Econ. Geol. And Bull. Soc. Econ. Geol, vol.85, pp.101-1023, 1990.

R. M. Cornell and R. Giovanelli, The influence of silicate species on the morphology of goethite grown from ferrihydrite, J. Chem. Soc., Chem. Comm, vol.6, pp.413-414, 1987.

R. M. Cornell and U. Schwertmann, The iron oxides : Structure, reactions, Occurrences and uses. Second Edition, 2003.

R. Dähn, A. M. Sheidegger, A. Manceau, M. L. Schlegel, B. Baeyens et al., Structural evidence for the sorption of Ni(II) atoms on the edges of montmorillonite clay minerals: A polarized X-ray absorption fine structure study, Geochimica et Cosmochimica Acta, vol.67, pp.1-15, 2003.

R. Dähn, A. M. Sheidegger, A. Manceau, M. L. Schlegel, B. Baeyens et al., Neoformation of Ni phyllosilicate upon Ni uptake on montmorillonite : A kinetic study by powder and polarized extended X-ray absorption fine structure spectroscopy, Geochimica et Cosmochimica Acta, vol.66, pp.2335-2347, 2002.

A. D. Dalvi, W. G. Bacon, and R. C. Osborne, The past and the future of nickel laterites, PDAC 2004 International Convention », Trade Show & Investors Exchange, pp.1-27, 2004.

A. Decarreau, H. Mondésir, and G. Besson, Synthesis and stability of Mg and Nistevensites, kerolites and talcs between 80 and 240°C, C.R. Acad. Sci, vol.308, pp.301-306, 1989.

A. Decarreau, F. Colin, A. Herbillon, A. Manceau, D. Nahon et al., Domain segregation in Ni-Fe-Mg-smectites, Clays & Clay Minerals, vol.35, pp.1-10, 1987.

E. Dubinska, B. A. Sakharov, G. Kapron, P. Bylina, and J. A. Kozubowski, Layer silicates from Szklary (Lower Silesia): from ocean floor metamorphism to continental chemical weathering, Geologia Sudetica, vol.33, pp.85-105, 2000.

G. Dublet, F. Juillot, G. Morin, E. Fritsch, D. Fandeur et al., Ni speciation in a New Caledonian lateritic regolith: A quantitative X-ray absorption spectroscopy investigation, Geochimica et Cosmochimica Acta, vol.95, pp.119-133, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00788748

G. Dublet, Relation entre spéciation et distribution du nickel dans les couvertures d'altération latéritique des roches ultrabasiques de Nouvelle-Calédonie, vol.332, 2013.

G. Dublet, F. Juillot, G. Morin, E. Fritsch, V. Noel et al., XAS evidence for Ni sequestration by siderite in a lateritic Ni-deposit from New Caledonia, American Mineralogist, vol.99, pp.225-234, 2014.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

J. Ducloux, H. Boukili, A. Decarreau, S. Petit, A. Perruchot et al., Un gîte hydrothermal de garniérites : l'exemple de Bou Azzer, Maroc, Eur. J. Mineral, vol.5, pp.1205-1215, 1993.

R. A. Eggleton and G. G. Taylor, Impact of fire on the Weipa Bauxite, northern Australia, Australian Journal of Earth Sciences, vol.55, pp.83-86, 2008.

M. Elias, Global lateritic resources, Aust. J. Mining, vol.16, pp.64-65, 2001.

B. B. Ellwood, T. H. Chrzanowski, F. Hrouda, G. J. Long, and M. L. Buhl, Siderite formation in anoxic deep-sea sediments -A synergetic bacterially controlled process with important implications in paleomagnetism, Geology, vol.16, pp.980-982, 1988.

D. Fandeur, F. Juillot, G. Morin, L. Olivi, A. Cognigni et al., Synchrotron-based speciation of chromium in an Oxisol from New Caledonia : Importance of secondary Fe-oxyhydroxides, American Mineralogist, vol.94, pp.710-719, 2009.

D. Fandeur, F. Juillot, G. Morin, L. Olivi, A. Cognigni et al., XANES Evidence for Oxidation of Cr(III) to Cr(VI) by Mn-Oxides in a Lateritic Regolith Developed on Serpentinized Ultramafic Rocks of New Caledonia, Environ. Sci. Technol, vol.43, pp.7384-7390, 2009.

D. Fandeur, Géochimie et cristallochimie du chrome au cours de l'altération de roches ultrabasiques en Nouvelle-Calédonie, vol.300, 2009.

W. Feng and C. J. Yapp, Paleoenvironmental implications of concentration and 13 C/ 12 C ratios of Fe(CO 3 )OH in goethite from a mid-latitude Cenomanian laterite in southwestern Minnesota, Geochimica et Cosmochimica Acta, vol.73, pp.2559-2580, 2009.

J. K. Frederickson, J. M. Zachara, D. W. Kennedy, H. Dong, T. C. Onstott et al., Biogenic iron mineralization accompanying the dissimilatory reduction of hydrous ferric oxide by a groundwater bacterium, Geochimica et Cosmochimica Acta, vol.62, pp.3239-3257, 1998.

P. Freyssinet, C. R. Butt, R. C. Morris, and P. Piantone, Ore-forming processes related to laterite weathering, Economic Geology, vol.100, pp.681-722, 2005.

E. Fritsch, C. R. Montes-lauar, R. Boulet, A. J. Melfi, E. Balan et al., Lateritic and redoximorphic features in a faulted landscape near Manaus, Brazil, Eur. J. Soil Sc, vol.53, pp.203-217, 2002.

E. Fritsch, G. Morin, A. Bedidi, D. Bonnin, E. Balan et al., Transformation of haematite and Al-poor goethite to Al-rich goethite and associated yellowing in a ferralitic clay soil profile of the middle Amazon basin, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00020228

, Eur. J. Soil Sc, vol.56, pp.575-588

S. J. Fritz and T. A. Toth, An Fe-berthierine from a Cretaceous Laterite: part 2. Estimation of Eh, pH and pCO 2 conditions of formation, Clays & Clay Minerals, vol.45, pp.580-586, 1997.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

S. Gali, J. M. Soler, J. A. Proenza, J. F. Lewis, J. Cama et al., Ni enrichment and stability of Al-free garnierite solid-solutions: A thermodynamic approach, Clays and clay Minerals, vol.60, pp.121-135, 2012.

J. Garnier, Essai sur la géologie et les resources minerals de la Nouvelle Calédonie, Ann. Mines, vol.6, pp.1-92, 1867.

A. Gaudin, S. Petit, J. Rose, F. Martin, A. Decarreau et al., The accurate crystal chemistry of ferric smectites from the lateritic nickel ore of Murrin Murrin (Western Australia). II. Spectroscopic (IR and EXAFS) approaches, Clay Minerals, vol.39, pp.453-467, 2004.
URL : https://hal.archives-ouvertes.fr/hal-01424688

A. Gaudin, A. Decarreau, Y. Noack, and O. Grauby, Clay mineralogy of the nickel laterite ore developed from serpentinized peridotites at Murrin Murrin, Western Australia, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00070955

, Austral. J. Earth Sci, vol.52, pp.231-241

A. Genna, P. Maurizot, Y. Lafoy, and T. Augé, Contrôle karstique de minéralisations nickélifères de Nouvelle-Calédonie, C.R. Geosciences, vol.337, pp.367-374, 2005.

J. Gerth, Unit-cell dimensions of pure and trace metals associated goethites, Geochimica et Cosmochimica Acta, vol.54, pp.363-371, 1990.

S. A. Gleeson, R. J. Herrington, J. Durango, C. A. Velasquez, and . Koll, The mineralogy and geochemistry of the Cerro Matoso S.A. Ni latérite deposit, Montelibano, Colombia, Econ. Geol, vol.99, pp.1197-1213, 2004.

J. H. Guillon, Les massifs péridotiques de Nouvelle-Calédonie. Type d'appareil ultrabasique stratiforme de chaine récente, Mémoires ORSTOM, vol.76, pp.17-58, 1938.

R. A. Kühnel, H. J. Rooda, and J. Steensma, The crystalinity of minerals -a new variable in pedogenetic processes: A case study of goethite and associated silicates in laterites, Clays & Clay Minerals, vol.23, pp.349-354, 1975.

R. K. Kukkadapu, J. M. Zachara, S. C. Smith, J. K. Frederickson, and C. Liu, Dissimilatory bacterial reduction of Al-substituted goethite in subsurface sediments, Geochimica et Cosmochimica Acta, vol.65, pp.2913-2924, 2001.

Y. Lagabrielle, P. Maurizot, Y. Lafoyc, G. Cabioch, B. Pelletier et al., Post-Eocene extensional tectonics in Southern New Caledonia (SW Pacific): Insights from onshore fault analysis and offshore seismic data, Tectonophysics, vol.403, pp.1-28, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00407448

Y. Lagabrielle and A. Chauvet, The role of extensional tectonics in shaping Cenozoic New Caledonia, Bull. Soc. Geol. Fr, vol.179, pp.315-329, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00411855

M. Landers, M. Grafe, R. J. Gilkes, M. Saunders, and M. A. Wells, Nickel distribution and speciation in rapidly dehydroxylated goethite in oxide-type lateritic nickel ores: A « Les gisements de Nickel latéritiques de NC» VOLUME III, 2011.

T. Xas and . Spectroscopic, EELS and EFTEM) investigation. Austr, J. Earth Sci, vol.58, pp.162-172

M. Latham, On geomorphology of northern and western New Caledonian ultramafic massifs, In Intern. Symp. Geodyn. South-West Pacific, pp.235-244, 1976.

M. Latham, Altération et pédogenèse sur roches ultrabasiques en Nouvelle-Calédonie: Genèse et évolution des accumulations de fer et de silice en relation avec la formation du modelé, Etudes et Thèses ORSTOM, p.331, 1986.

J. Legueré, Des correlations entre la tectonique cassante et l'altération supergène des péridotites de Nouvelle-Calédonie, p.80, 1976.

J. F. Lewis, G. Draper, J. A. Proenza, J. Espaillat, and J. Jimenez, Ophiolite-related ultramafic rocks (serpentinites) in the Carribean region: A review of their occurrence, composition, origin, emplacement and Ni-laterite soil formation, Geologica Acta, vol.4, pp.237-263, 2006.

S. Llorca and P. Monchoux, Supergene cobalt manganese minerals from New Caledonia, Canadian Mineralogist, vol.29, p.12, 1991.

D. R. Lovley, Dissimilatory Fe(III) and Mn(IV) reduction, Advances in Microbial Physiology, vol.49, pp.219-286, 2004.

M. Maquet, B. D. Cervelle, and G. Gouet, Signatures of Ni 2+ and Fe 3+ in the opticalspectra of limonitic ore from new caledonia -application to the determination of the nickel content, Mineralium Deposita, vol.16, pp.357-373, 1981.

A. Manceau and G. Calas, Heterogeneous distribution of nickel in hydrous silicates from New Caledonia ore deposits, Amer. Mineral, vol.70, pp.549-558, 1985.

A. Manceau, A. Decarreau, and G. Calas, Nickel-bearing clay minerals. 1. Spectroscopic study of nickel crystal chemistry, A. Clay Miner, vol.20, pp.367-387, 1985.

A. Manceau and G. Calas, Nickel-bearing clay minerals. 2. Intracrystalline distribution of nickel: a spectroscopic study, Clay Miner, vol.21, pp.341-360, 1986.

A. Manceau and G. Calas, Absence of evidence for Ni/Si substitution in phyllosilicates, Clay Miner, vol.22, pp.357-362, 1987.

A. Manceau, S. Llorca, and G. Calas, Crystal chemistry of cobalt and nickel in lithiophorite and asbolane from New Caledonia, Geochimica et Cosmochimica Acta, vol.51, pp.105-113, 1987.

A. Manceau, A. I. Gorshkov, and V. A. , Structural chemistry of Mn, Fe, Co and Ni in manganese hydrous oxides: part I. Information from XANES spectroscopy, American Mineralogist, vol.77, pp.1133-1143, 1992.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

A. Manceau, M. L. Schlegel, M. Musso, V. A. Sole, C. Gauthier et al., Crystal chemistry of trace elements in natural and synthetic goethite, Geochimica et Cosmochimica Acta, vol.64, pp.3643-3661, 2000.

A. Manceau, N. Tamura, M. A. Marcus, A. A. Macdowell, R. S. Celestre et al., Deciphering Ni sequestration in soil ferromanganese nodules by combining X-ray fluorescence, absorption, and diffraction at micrometer scales of resolution, American Mineralogist, vol.87, pp.1494-1499, 2002.

M. Maquet, B. D. Cervelle, and G. Gouet, Signature of Ni 2+ and Fe 2+ in the optical spectra of limonitic ore from New Caledonia: Application to the determination of the nickel content, Mineralium Deposita, vol.16, pp.357-373, 1981.

G. Morin, J. D. Ostergren, F. Juillot, P. Calas, and G. G. Brown, XAFS determination of the chemical form of lead in smelter-cantaminated soils and mine tailings: Importance of adsorption processes, American Mineralogist, vol.84, pp.420-434, 1999.

R. J. Mortimer, M. L. Coleman, and J. E. Rae, Effect of bacteria on the elemental composition of early diagenetic siderite: implications for palaeoenvironmental interpretations, Sedimentology, vol.44, pp.759-765, 1997.

P. Nornberg, A. L. Vendelboe, H. P. Gunnlaugsson, J. P. Merrison, K. Finster et al., Comparison of the mineralogical effects of an experimental forest fire on a goethite/ferryhydrite soil with a topsoil that contains hematite, maghemite and goethite, Clay Minerals, vol.44, pp.239-247, 2009.

Y. Ogura, K. Murata, and M. Iwai, ) relation between chemical composition and particlesize distribution of ores in the profile of nickeliferous laterite deposits of the Rio Tuba mine, Philippines. Chem. Geol, vol.60, pp.259-271, 1987.

S. M. Oliveira, C. S. Partiti, and J. Enzweiler, Ochreous laterite : A nickel ore from Punta Gorda, Cuba. J. South Amer. Earth Sci, vol.14, pp.307-317, 2001.

O. Orloff, Etude géologique et géomorphologique des massifs d'ultrabasites compris entre Houailou et Canala, p.189, 1968.

J. D. Ostergren, . G. Brown, G. A. Parks, and T. N. Tingle, Quantitative Speciation of Lead in Selected Mine Tailings from Leadville, CO. Environ. Sci. Technol, vol.33, pp.1627-1636, 1999.

J. P. Paris, Géologie de la Nouvelle-Calédonie: Un éssai de synthèse, 278p. Mémoire BRGM, 1981.

C. L. Peacock, Physiochemical controls on the crystal-chemistry of Ni in birnessite: Genetic implications for ferromanganese precipitates, Geochimica et Cosmochimica Acta, vol.73, pp.3568-3578, 2009.

C. L. Peacock and D. M. Sherman, Crystal-chemistry of Ni in marine ferromanganese crusts and nodules, American Mineralogist, vol.92, pp.1087-1092, 2007.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

B. Pelletier, Localisation du nickel dans les minerais « garnieritiques, Sci. Géol. Mém, vol.73, pp.173-183, 1983.

B. Pelletier, Les minerais de nickel de Nouvelle-Calédonie. Géologues, vol.138, pp.30-38, 2003.

N. Perrier, J. P. Ambrosi, F. Colin, and R. J. Gilkes, Biogeochemistry of a regolith: The New Caledonian Koniambo ultramafic massif, Journal of Geochemical Exploration, vol.88, pp.54-58, 2006.

E. Peterschmitt, E. Fritsch, J. L. Rajot, and A. J. Herbillon, Yellowing, bleaching and ferritisation processes in soil mantle of the Western Ghâts, Geoderma, vol.74, pp.235-253, 1996.

P. Podwojewski and E. Bourdon, The induration process of goethitic oxisols on peridotites in New Caledonia: a singular plinthite-type process of induration. Comptes Rendus de l'Académie des Sciences de Paris, vol.322, pp.453-459, 1996.

J. A. Proenza, J. F. Lewis, S. Gali, E. Tauler, M. Labrador et al., Garnierite mineralization from falcondo Ni-Laterite deposit, 2008.

C. Quantin, T. Becquer, and J. Berthelin, Mn-oxide: a major source of easily mobilisable Co and Ni under reducing conditions in New Caledonia Ferralsols, Comptes Rendus Geosciences, vol.334, pp.273-278, 2002.

B. Quesnel, P. Gautier, P. Boulvais, M. Cathelineau, P. Maurizot et al., Syn-tectonic, meteoric water-derived carbonation of the New Caledonia peridotite nappe, Geology, vol.41, pp.1063-1066, 2013.
URL : https://hal.archives-ouvertes.fr/insu-01113320

R. Rakotomalala, Arbres de décision, Revue Modulad, issue.33, p.163, 2005.

J. Roqué-rosell, J. F. Mosselmans, J. A. Proenza, M. Labrador, S. Gali et al., Sorption of Ni by "lithiophorite-asbolane" intermediates in Moa Bay lateritic deposits, eastern Cuba, Chemical Geology, vol.275, pp.9-12, 2010.

C. V. Sagapoa, A. Imai, and K. Watanabe, Lateritization process of ultramafic rocks in Siruka, Solomon Islands, J. Novel Carbon Res. Sci, vol.3, pp.32-39, 2011.

H. Sakai and M. Tsutsumi, D/H fractionation factors between serpentine and water at 100 ° to 500°c and 2000 bar water pressure, and the D/H ratios of natural serpentines, Earth and Planetary Science Letters, vol.40, pp.231-242, 1978.

K. G. Scheckel, A. C. Scheinost, R. G. Ford, and D. L. Sparks, Stability of layered Ni hydroxide surface précipitates. A dissolution kinetics study, Geochimica et Cosmochimica Acta, pp.2727-2735, 2000.

D. G. Schulze and U. Schwertmann, The influence of aluminium on iron oxides: X. Properties of Al-substituted goethites, Clay Minerals, vol.19, pp.521-539, 1984.

D. G. Schulze, The influence of aluminum on iron oxides. VIII. Unit-cell dimensions of Al-substituted goethites and estimation of Al from them, Clay Minerals, vol.32, pp.36-44, 1984.

, « Les gisements de Nickel latéritiques de NC» VOLUME III -Juillet, 2014.

U. Schwertmann and E. Murad, Effect of pH on the formation of goethite and hematite from ferrihydrite, Clays Clay Min, vol.31, pp.277-284, 1983.

U. Schwertmann and M. Latham, Properties of iron oxides in some New Caledonian Oxisols, Geoderma, vol.39, pp.105-123, 1986.

B. Sevin, C. Ricordel-prognon, F. Quesnel, D. Cluzel, S. Lesimple et al., Paleomagnetic dating of ferricrete in New Caledonia: new insights on the morphogenesis and paleoweathering of Grande Terre, vol.24, pp.77-85, 2012.

B. Sevin, P. Maurizot, and M. Vendé-leclerc, , 2012.

R. D. Shannon, Revised Effective Ionic Radii and Systematic Studies of Interatomic Distances in Halides and Chalcogenides, Acta Crystallographica, vol.32, p.751, 1976.

B. Singh, D. M. Sherman, R. J. Gilkes, M. A. Wells, and J. F. Mosselmans, Structural chemistry of fe, Mn and Ni in synthetic hematites as determined by extended X-ray absorption fine spectroscopy, Clays & Clay Minerals, vol.48, pp.521-527, 2000.

B. Singh, D. M. Sherman, R. J. Gilkes, M. A. Wells, and J. F. Mosselmans, Incorporation of Cr, Mn and Ni into goethite (alpha-FeOOH): mechanism from extended X-ray absorption fine structure spectroscopy, Clay Minerals, vol.37, pp.639-649, 2002.

J. M. Soler, J. Cama, S. Gali, W. Melendez, A. Ramirez et al., Composition and dissolution kinetics of garnierite from the loma de hierro Ni-laterite deposit, Chem. Geol, vol.249, pp.191-202, 2008.

Y. Tardy and C. Roquin, Dérive des continents. Paléoclimats et alterations tropicales, p.473, 1998.

E. Tauler, J. A. Proenza, S. Gali, J. F. Lewis, M. Labrador et al., Ni-sepiolite-falcondoite in garnierite mineralization from the Falcondo Ni-Laterite deposit, Clay Minerals, vol.44, pp.435-454, 2009.

R. Thorne, R. Herrington, and S. Roberts, Composition and origin of the Caldag oxide nickel laterite West Turkey, Mineralium Deposita, vol.44, pp.581-595, 2009.

S. J. Titus, S. M. Maes, B. Benford, E. C. Ferre, and B. Tikoff, Fabric development in the mantle section of a paleotransform fault and its effect on ophiolite obduction, vol.3, pp.221-244, 2011.

T. A. Toth and S. J. Fritz, An Fe-berthierine from a Cretaceous Laterite: part 1, Characterization. Clays & Clay Minerals, vol.45, pp.564-579, 1997.

D. Traoré, A. Beauvais, F. Chabaux, C. Peiffert, J. P. Parisot et al., Chemical and physical transfers in an ultramafic rock weathering profile: Part 1. Supergène dissolution of Pt-bearing chromite, American Mineralogist, vol.93, pp.22-30, 2008.

J. J. Trescases, Weathering and geochemical behaviour of the elements of ultramafic rocks in New Caledonia, ORSTOM Bulletin, p.141, 1973.

J. J. Trescases, L'évolution géochimique supergène des roches ultrabasiques en zone tropicale: formation des gisements nickélifères de Nouvelle-Calédonie, 1975.

J. J. Trescases, Remplacement progressif des silicates par les hydroxydes de fer et de nickel dans les profils d'altération tropicale des roches ultrabasiques. Accumulation résiduelle et épigènie, Sciences Geologiques Bulletin, vol.32, 1979.

J. J. Trescases, Nickeliferous laterites: A review on the contribution of the last ten years. Memoire of the Geological Survey of India, vol.120, pp.51-62, 1986.

G. Troly, M. Esterle, B. Pelletier, and W. Reibell, Nickel deposits in New Caledonia, some factors influencing their formation, « International Laterite Symposium, pp.85-119, 1979.

M. Ulrich, M. Munoz, S. Guillot, M. Cathelineau, C. Picard et al., Dissolution-precipitation processes governing the carbonatation and silicification of the serpentinite sole of the New Caledonia ophiolite, Contr. Mineral. Petrol, vol.167, p.952, 2014.

C. Villanova-de-benavent, J. A. Proenza, S. Gali, A. Garcia-casco, E. Tauler et al., Garnierites and garnierites: Textures, Mineralogy and geochemistry of garnierites in the Falcondo Ni-Laterite deposit, Ore Geol. Reviews, vol.58, pp.91-109, 2014.

C. Viti, Serpentine minerals discrimination by thermal analysis, American Mineralogist, vol.95, pp.631-638, 2010.

M. A. Wells, E. R. Ramanaidou, M. Verrall, and C. Tessarolo, Mineralogy and chemical chemistry of "garnierites" in the Goro lateritic nickel deposit, Eur. J. Mineral, vol.21, pp.467-483, 2009.

A. Wiewiora, E. Dubinska, and I. Iwasinska, Mixed-layering in Ni-containing talc-like minerals from Szklary, Lower Silesia, van Olphen H. & Veniale F. International Clay Conference, vol.35, pp.111-125, 1981.

R. Yongue-fouateu, M. Yemefack, A. S. Wouatong, P. D. Ndjigui, and P. Bilong, Contrasted mineralogical composition of the laterite cover on serpentinites of Nkamouna Kongo, southeast Cameroon, Clay Minerals, vol.44, pp.221-237, 2009.

J. M. Zachara, J. K. Fredrickson, S. M. Li, D. W. Kennedy, S. C. Smith et al., Bacterial reduction of crystalline Fe 3+ oxides in single phase suspensions and subsurface materials, American Mineralogist, vol.83, pp.1426-1443, 1998.

Y. F. Zheng, 1993) calculation of oxygen isotope fractionation in hydroxyl-bearing silicates, Earth Planet. Sci. Lett, vol.120, pp.247-263