H. Aoudjit, F. Elsass, D. Righi, and M. Robert, Mica weathering in acidic soils by analytical electron microscopy, Clay Minerals, pp.319-332, 1996.

L. K. Bailey and E. Peters, Decomposition of pyrite in acids by pressure leaching and anodization: the case for an electrochemical mechanism, Canadian Metallurgical Quarterly, vol.15, 1976.

A. Bauer and G. Berger, Kaolinite and smectite dissolution rate in high molar KOH solutions at 35ºC and 80ºC, Applied Geochemistry, vol.13, pp.905-916, 1998.

D. W. Blowes and J. L. Jambor, The pore-water geochemistry and the mineralogy of the vadose zone of sulfide tailings, Canada. Applied Geochemistry, vol.5, pp.327-346, 1990.

J. Y. Boisson, Caractérisation d'une formation argileuse. Caractérisations hydrogéologiques in situ des argilites du tunnel de Tournemire, 1996.

B. Bonin, Deep geological disposal in argillaceous formations: studies at the Tournemire test site, Journal of Contaminant Hydrology, vol.35, pp.315-330, 1998.

D. G. Brookins, Geochemical Aspects of Radioactive Waste Disposal, 1984.

M. Cathelineau, A. Guerci, N. Ahamdach, and M. Cuney, Smectite-goethite-Fe, U, Ca and Ba-sulfate assemblage resulting from bio-oxidation derived acid drainage in mine tailings: an analytical, experimental, and numerical approach, Proceedings of the 3 rd biennal SGA Meeting, vol.647, 1995.

D. Charpentier, Rôle de l'oxydation chimique et de l'acidification des eaux sur les propriétés minéralogiques et physico-chimiques de la formation argileuse de Tournemire, 2001.

D. Charpentier, M. Cathelineau, R. Mosser-ruck, and G. Bruno, Evolution minéralogique des argilites en zones sous-saturées oxydées, Comptes Rendus de l'Académie des Sciences, vol.332, pp.601-607, 2001.

D. Windt, L. Cabrera, J. Boisson, and J. Y. , Hydrochemistry in an indurated argillaceous formation (Tournemire tunnel site, France). Pp. 145À148 in: Water Rock Interaction Proceedings, 1998.

&. J. Arehart and . Hulston,

E. Galán, M. I. Carretero, and J. C. Fernandez-caliani, Effects of acid mine drainage on clay minerals suspended in the Tinto River, Clay Minerals, vol.34, pp.99-108, 1999.

R. M. Garrels and M. E. Thompson, Schematic representation of the oxidation mechanisms at the surface of blocks, American Journal of FIG, vol.12, pp.57-67, 1960.

F. Gillot, D. Righi, and F. Elsass, Pedogenic smectites in podzols from central Finland: an analytical electron microscopy study, Clays and Clay Minerals, vol.48, pp.655-664, 2000.

A. Giraud, G. Thouvenin, F. Homand, and O. Didry, Modélisation poroélastique de la dessaturation autour de cavités profondes, 375À380 in: 9 th International Congress on Rock Mechanics, 1999.

D. Guillaume, J. Pironon, and J. Ghanbaja, Valence determination of iron in clays by electron energy loss, Beih. z. European Journal of Mineralogy, vol.13, p.70, 2001.

C. O. Harvey, Some notes on the calculation of molecular formulae for glauconite, American Mineralogist, vol.28, pp.541-543, 1943.

H. C. Helgeson, Thermodynamics of hydrothermal systems at elevated temperatures and pressures, American Journal of Science, vol.267, pp.724-804, 1969.

J. J. Higgo, Clay as a barrier to radionuclide migration, Progress in Nuclear Energy, vol.19, pp.173-207, 1987.

Y. Holtzapffel, Les miné raux argileux: Préparation, analyse diffractométrique et détermination, Société Géologique du Nord, vol.12, p.pp, 1985.

J. Hower and T. C. Mowatt, The mineralogy of illites and mixed layer illite-montmorillonites, 1966.

, American Mineralogist, vol.51, pp.825-857

S. L. Huang, R. C. Speck, and Z. Wang, The temperature effect on swelling of shales under cyclic wetting and drying, International Journal of Rock Mechanics and Mining Science and Geomechanics Abstracts, vol.32, pp.227-236, 1995.

F. J. Huertas, E. Caballero, C. Jimérez-de-cisneros, F. Huertas, and J. Linares, Kinetics of montmorillonite dissolution in granitic solution, Applied Geochemistry, vol.16, pp.397-407, 2001.

P. Lalieux, M. Thury, and S. Horseman, Radioactive waste disposal in argillaceous media, NEA Newsletter, pp.34-36, 1996.

F. T. Madsen, Clay mineralogical investigations related to nuclear waste disposal, Clay Minerals, pp.109-129, 1998.

A. Meunier and B. Velde, Solid solutions in I/S mixed-layer minerals and illite, American Mineralogist, vol.24, pp.1106-1112, 1989.

G. Millot, . Masson, . Paris, and C. Mustin, Approche physico-chimique et mode ´lisation de l'oxydation bactérienne de la pyrite par Thiobacillus ferrooxidans: rôle déterminant de la phase minérale, 1964.

V. V. Panin, G. I. Karavaiko, and S. I. Pol'kin, Mechanism and kinetics of bacterial oxidation of s u p h i d e m i n e r a l s. P p. 1 9 7 À2 1 5 i n : Biogeotechnology of Metals, pp.73-85, 1985.

U. Raz and T. Peters, The effect of iron and magnesium on the stability of illite and smectite, Pp. 569À572 in: Water-Rock Interaction Proceedings, 1989.

R. C. Reynolds, Etude expérimentale de la dissolution des minéraux sulfurés en milieu oxydant: application a ` la prospection minière, vol.5, 1980.

S. Teveldal, P. Jorgensen, and A. O. Stuanes, Longterm weathering of silicates in a sandy soil at Nordmoen, southern Norway, Clay Minerals, vol.25, pp.447-465, 1990.

B. Velde, Clay Minerals. A Physico-chemical Explanation of their Occurrence, 1985.
URL : https://hal.archives-ouvertes.fr/hal-00105751

B. Velde and T. Church, Rapid clay transformations in Delaware salt marshes, Applied Geochemistry, vol.14, pp.559-568, 1999.

M. J. Wilson, The origin and formation of clay minerals in soils: past, present and future perspectives, Clay Minerals, vol.34, pp.7-25, 1999.

T. J. Wolery and S. A. Daveler, EQ6, a computer program for reaction path modelling of aqueous geochemical systems: user's guide and documentation, 1992.

M. Zysset and P. W. Schindler, The proton promoted dissolution kinetics of K-montmorillonite, Geochimica et Cosmochimica Acta, vol.60, pp.921-931, 1996.