E. Gilli, . Mangan, and . Mudry, Hydrogéologie: objets, méthodes, applications, 2008.

J. F. Carniero, Numerical simulationson the influence of matrix diffusion to carbon 863 sequestration in double porosity fissured aquifers, International Journal of Greenhouse Gas, vol.864, issue.3, pp.431-474, 2009.

J. Motyka, S. Pulido-bosch, . Borczak, and . Gisbert, Matrix hydrogeological properties of 866

, Devonian carbonate rocks of Olkusz (Southern Poland), Journal of Hydrology, vol.211, pp.140-50, 1998.

Y. Wu, H. H. Liu, and . Bodvarsson, A triple-continuum approach for modeling flow and 869 transport processes in fractured rock, Journal of Contaminant Hydrology, vol.73, pp.145-79, 2004.

B. Berkowitz, Characterizing flow and transport in fractured geological media: A review, Advances in Water Resources, vol.872, pp.861-84, 2002.

B. Rzonca, Carbonate aquifers with hydraulically non-active matrix: A case study from 874 Poland, Journal of Hydrology, vol.355, pp.202-215, 2008.

C. Zou, Unconventional Petroleum Geology, p.876, 2013.

P. H. Nelson, Pore-throat sizes in sandstones, tight sandstones, and shales, AAPGs Bulletin, vol.877, pp.329-369, 2009.

R. G. Loucks, . Reed, . Sc-ruppel, and . Hammes, Spectrum of pore types and networks in 879 mudrocks and a descriptive classification for matrix-related mudrock pores, AAPG Bulletin, vol.880, pp.1071-98, 2012.

S. E. Laubach, . Olson, and . Gross, Mechanical and fracture stratigraphy, AAPG 882 Bulletin, vol.93, pp.1413-1439, 2009.

J. N. Hooker, . Se-laubach, and . Marrett, Fracture-aperture size-frequency, spatial 884 distribution, and growth processes in strata-bounded and non-strata-bounded fractures, p.885

. Cambrian-mesón-group and A. Nw, Journal of Structural Geology, vol.54, pp.54-71, 2013.

V. Guerriero, . Mazzoli, . Iannace, . Vitale, C. Carravetta et al., A permeability 888 model for naturally fractured carbonate reservoirs. Marine and Petroleum Geology, vol.40, pp.115-134, 2013.

S. Biteman, . Hyndman, . Ms-phanikumar, and . Gs-weissmann, Integration of 891 sedimentologic and hydrogeologic properties for improved transport simulations, Aquifer 892 Characterization, vol.80, pp.4-13, 2004.

R. P. , Stochastic hydrogeology; what professionals really needs? Ground Water, vol.45, pp.531-572, 2007.

M. C. Pöppelreiter, M. A. Balzarini, . Hansen, and . Nelson, Realizing complex carbonate 896 facies, diagenetic and fracture properties with standard reservoir modelling software. The 897 Geological Society, London, Special Publications, The Future of Geological 898 Modelling in Hydrocarbon Development, vol.309, pp.39-49, 2008.

G. M. Stampfli and . Borel, A plate tectonic model for the Paleozoic and Mesozoic 900 constrained by dynamic plate boundaries and restored synthetic oceanic isochrons, Planetary Science Letters, vol.196, issue.01, p.588, 2002.

B. Gréselle and . Pittet, Sea-level reconstructions from the Peri-Vocontian Zone

, France) point to Valanginian glacio-eustasy, Sedimentology, vol.57, pp.1640-85, 2010.

P. Bruna, Y. Guglielmi, M. Lamarche, . Floquet, J. Fournier et al., , p.906

C. Marié, . Bertrand, and . Hollender, Porosity Gain and Loss in Unconventional Reservoirs: 907 example of rock typing in Lower Cretaceous hemipelagic limestones, SE France (Provence). 908 Marine and Petroleum Geology, vol.48, pp.186-205, 2013.


J. Lamarche, . Lavenu, Y. Gauthier, . Guglielmi, and . Jayet, Relationships between 912 fracture patterns, geodynamics and mechanical stratigraphy in Carbonates, p.913

). T. France, , 2012.

C. Guyonnet-benaize, Modélisation 3D multi-échelle des structures géologiques de la 915 région de la Faille de la Moyenne Durance, vol.916, 2011.

J. Masse and M. Masse, Notice du crétacé inférieur de la Basse-Durance, p.19, 2009.

A. Cartalade, Modélisation des écoulements dans les aquifères fracturés, developpement 920 d'un modèle multi-continua (problèmes directs et inverse) et application au site du 921, 2002.

P. Calcagno, G. Chilès, . Courrioux, and . Guillen, Geological modelling from field data 923 and geological knowledge: Part I. Modelling method coupling 3D potential-field interpolation 924 and geological rules, Physics of the Earth and Planetary Interiors, vol.171, pp.147-57, 2008.

G. Caumon, C. Collon-drouaillet, S. Le-carlier-de-veslud, . Viseur, and . Sausse,

, 3D modeling of geological structures, Mathematical Geosciences, vol.41, pp.927-972, 2009.

N. Cherpeau, . Caumon, and . Lévy, Stochastic simulations of fault networks in 3D 930 structural modeling, Comptes Rendus Geoscience, vol.342, pp.687-94, 2010.

I. Spottke, P. Zechner, and . Huggenberger, The southeastern border of the Upper Rhine 933 Graben: a 3D geological model and its importance for tectonics and groundwater flow, 934 International Journal of Earth Sciences, vol.94, pp.580-593, 2005.

P. Bayer, . Huggenberger, . Renard, and . Comunian, Three-dimensional high resolution 936 fluvio-glacial aquifer analog: Part 1: Field study, Journal of Hydrogeology, vol.405, pp.1-937, 2011.

A. Comunian, . Renard, P. Straubhaar, and . Bayer, Three-dimensional high resolution 939 fluvio-glacial aquifer analog: Part 1: Field study, Journal of Hydrogeology, vol.405, pp.10-23, 2011.

P. Arlhac, . Catzigras, . Colomb, C. Gervais, . Gouvernet et al., Carte 942 géologique de Pertuis au 1/50 000e. Carte géologique détaillée de la France, 1970.

G. Mennessier and . Modret, Carte géologique de Tavernes au 1/50 000e. Cartes 945 géologiques détaillées de la France, 1966.

P. Goovaerts, Geostatistics for natural ressources evaluation, p.947, 1997.

M. Cassan, Les essais de perméabilité sur site dans la reconnaissance des sols, Tome I 948 réalisation et interprétation. Eyrolles, Presse des ponts et chausses, p.949, 1978.

R. P. Chapuis, Overdamped slug test in monitoring wells: review of interpretation methods 950 with mathematical physical and numerical analysis of storativity influence, Canadian 951 Geotechnical Journal, vol.35, pp.697-719, 1998.

R. P. , Hytool: a hydrogeological toolbox

J. D. Bredehoeft and . Papadopulos, A method for determining the hydraulic properties of 954 tight formations. Water Resource Research, vol.16, pp.233-241, 1980.

M. Mejìas, . Renard, and . Glenz, Hydraulic testing of low-permeability formations. A case 957 study in the granite of Cadalso de los Vidrios, Spain. Engineering Geology, vol.107, pp.88-97, 2009.

Y. J. Yang and . Gates, Wellbore skin effect in slug-test data analysis for low-permeability 960 geologic materials, Ground Water, vol.35, pp.931-968, 1997.

M. Armstrong, Basic linear geostatistics, 1998.

E. Gringarten and . Deutsch, Teacher's Aide, Variogram Interpretation and Modeling

, Mathematical Geology, vol.33, pp.507-540, 2001.

H. Guo and . Deutsch, Fluvial channel size determination with indicator variograms. 965 Petroleum Geoscience, vol.16, pp.161-170, 2010.

C. V. Deutsch, Fortran programs for calculating connectivity of three-dimensional 967 numerical models and for ranking multiple realizations, Computers & Geosciences, vol.24, pp.69-76, 1998.

C. Knudby and . Carrera, On the relationship between indicators of geostatistical, flow and 970 transport connectivity, Advances in Water Resources, vol.28, pp.405-426, 2005.

P. Renard and . Allard, Connectivity metrics for subsurface flow and transport, Advances in 973 Water Resources, vol.51, pp.168-96, 2013.

C. Cherubini, . Musci, and . Pastore, Checking simulations of a geolithological model 975 obtained by means of nested truncated bigaussian method, International Journal of 976 Mathematical Models and Methods in Applied Sciences, vol.3, pp.152-61, 2009.

J. M. Yarus, . Chambers, G. Maucec, and . Shi, Facies Simulation in Practice: Lithotype 978 proportion mapping and Plurigaussian Simulation, a powerful combination, Ninth 979 International Geostatistics Congress, 2012.

J. S. Caine, . Evans, and . Forster, Fault zone architecture and permeability structure, Geology, vol.24, p.4, 1996.

C. Matonti, . Guglielmi, L. Lamarche, and . Marié, Structural and petrophysical 983 characterization of mixed drain/barrier fault zones in carbonates: Example from the Castellas 984 Fault, Journal of Structural Geology, 2012.

L. Micarelli, . Benedicto, and . Wibberley, Structural evolution and permeability of 986 normal fault zones in highly porous carbonate rocks, Journal of Structural Geology, vol.28, pp.1214-1241, 2006.

E. Gringarten and . Deutsch, Methodology for Variogram Interpretation and Modeling for 989 Improved Reservoir Characterization, Society of Petroleum, p.990

, Engineers Annual Technical Conference and Exhibition, pp.1-13, 1999.

M. A. Ellis, S. E. Laubach, P. Eichhubl, J. E. Olson, and P. Hargrove, Fracture 992 development and diagenesis of Torridon Group Applecross Formation, near An Teallach, NW 993 Scotland: millennia of brittle deformation resilience, Journal of the Geological Society, p.994, 2012.

. London, , vol.169, pp.297-310

F. Bonneau, G. Henrion, . Caumon, . Renard, and . Sausse, A methodology for pseudo-996 genetic stochastic modeling of discrete fracture networks, Computers & Geosciences, vol.56, pp.12-22, 2013.

F. Felleti, Statistical modelling and validation of correlation in turbidites: an example 999 from the Tertiary Piedmont Basin (Castagnola Fm., Northern Italy). Marine and Petroleum, Geology, vol.21, pp.23-39, 1000.

I. S. Papadopulos, . Bredehoeft, and . Cooper, On the analysis of slug test data. Water 1002 Resources Research, vol.9, pp.1087-1096, 1973.

H. H. Cooper, J. D. Bredehoeft, and . Papadopulos, Response of a finite diameter wellto 1004 an instantaneous change of water, Water Resources Research, vol.3, pp.263-272, 1005.

J. H. Black, The interpretation of slug tests in fissured rocks, Quarterly Journal of 1006 Engineering Geology and Hydrogeology, vol.18, pp.161-71, 1985.

J. W. Warner, E. Tamayo-lara, . Khazaei, and . Manghi, Stochastic management modeling of 1008

R. Brauchler, T. Hu, . Vogt, T. Al-halbouni, . Heinrichs et al., Cross-well slug 1009 interference tests: An effective characterization method for resolving aquifer heterogeneity, Journal of Hydrology, vol.384, pp.33-45, 1010.

A. M. Shapiro and . Hsieh, How good are estimates of transmissivity from slug tests in 1012 fractured rocks? Ground Water, vol.36, pp.37-48, 1998.

B. L. Parker, S. W. Chapman, and J. A. Cherry, Plume persistence in fractured 1014 sedimentary rock after source zone removal, Ground Water, vol.48, issue.6, pp.799-808, 2010.

B. L. Parker, J. A. Cherry, and S. W. Chapman, Discrete fracture network approach for 1016 studying contamination in fractured rock, AQUA mundi, vol.3, issue.2, pp.101-116, 2012.

D. Guyonnet, . Mishra, and . Mccord, Evaluating the volume of porous medium investigated 1018 by slug tests, Ground Water, vol.31, pp.627-660, 1993.

S. Lee, . Carle, and . Fogg, Geologic heterogeneity and a comparison of two 1020 geostatistical models: Sequential Gaussian and transition probability-based geostatistical 1021 simulation, Advances in Water Resources, vol.30, pp.1914-1946, 2007.

O. Falivene, . Arbués, . Gardiner, J. A. Pickup, . Muñoz et al., Best practice 1023 stochastic facies modeling from a channel-fill turbidite sandstone analog (the Quarry outcrop, p.1024

, Eocene Ainsa basin, northeast Spain). AAPG Bulletin, vol.90, pp.1003-1032, 2006.