L. Adam, M. Batzle, and I. Brevik, Gassmann's fluid substitution and shear modulus variability in 625 carbonates at laboratory seismic and ultrasonic frequencies, GEOPHYSICS, vol.71, issue.6, pp.173-183, 2006.

,

M. Adelinet, J. Fortin, and Y. Guéguen, Dispersion of elastic moduli in a porous-cracked rock: 628 Theoretical predictions for squirt-flow, Tectonophysics, vol.503, issue.1-2, pp.173-181, 2011.

,

M. Adelinet, C. Domínguez, J. Fortin, and S. Violette, Seismic-refraction field experiments on 631, 2018.

, Galapagos Islands: A quantitative tool for hydrogeology, Journal of Applied Geophysics, vol.148, pp.139-632

M. Al-chalabi, Principles of Seismic Velocities and Time-to-Depth Conversion, vol.491, 2014.

F. S. Anselmetti and G. P. Eberli, Controls on sonic velocity in carbonates, Pure and Applied, vol.636, 1993.

P. Geophysics, , vol.141, pp.287-323

G. T. Baechle, R. J. Weger, G. P. Eberli, J. L. Massaferro, and Y. Sun, Changes of shear moduli 638 in carbonate rocks: Implications for Gassmann applicability, The Leading Edge, vol.24, issue.5, pp.507-510, 2005.

,

G. T. Baechle, A. Colpaert, G. P. Eberli, and R. J. Weger, Effect of microporosity on sonic velocity 641 in carbonate rocks, The Leading Edge, vol.17, 2008.

C. Bailly, M. Adelinet, Y. Hamon, and J. Fortin, Combined control of sedimentology and diagenesis 643 on seismic properties in lacustrine and palustrine carbonates (Upper Miocene, 2019.

, Geophysical Journal International, vol.212, issue.2, pp.1300-1315, 2019.

J. Bear, Dynamics of Fluids in Porous Media, 784 pp, p.646, 1972.

Y. Benveniste, A new approach to the application of Mori-Tanaka's theory in composite materials, 1987.

, Mechanics of Materials, vol.6, issue.2, pp.90005-90011

J. V. Borgomano, L. Pimienta, J. Fortin, and Y. Guéguen, Dispersion and attenuation 650 measurements of the elastic moduli of a dual-porosity limestone, Journal of Geophysical Research: 651 Solid Earth, vol.122, issue.4, pp.2690-2711, 2017.

T. Bourbié, O. Coussy, and B. Zinszner, Acoustics of porous media, Editions Technip, 1987.

K. Cichost?pski, J. Dec, and . Kwietniak, Simultaneous Inversion of Shallow Seismic Data for 655 Imaging of Sulfurized Carbonates. Minerals, vol.1, 2019.

S. Claes, Pore classification and upscaling strategy in travertine reservoir rocks, vol.119, 2015.

P. W. Corbett, Petroleum Geoengineering : Integration of Static and Dynamic Models, 100 pp., 659 Society of Exploration Geophysicists, 2009.

P. W. Corbett, F. Y. Hayashi, M. S. Alves, Z. Jiang, H. Wang et al., Microbial 661 carbonates: a sampling and measurement challenge for petrophysics addressed by capturing the 662 bioarchitectural components, Geological Society, vol.418, issue.1, pp.69-85, 2015.

,

E. C. David and R. W. Zimmerman, Compressibility and shear compliance of spheroidal pores: 665 Exact derivation via the Eshelby tensor, and asymptotic expressions in limiting cases, International 666 Journal of Solids and Structures, vol.48, issue.5, p.39, 2011.

E. C. David and R. W. Zimmerman, Elastic moduli of solids containing spheroidal pores. 668, International Journal of Engineering Science, vol.49, issue.7, pp.544-560, 2011.

,

G. P. Eberli, G. T. Baechle, F. S. Anselmetti, and M. L. Incze, Factors controlling elastic properties 671 in carbonate sediments and rocks, The Leading Edge, vol.22, issue.7, pp.654-660, 2003.

,

J. Fortin, Y. Guéguen, and A. Schubnel, Effects of pore collapse and grain crushing on ultrasonic 674 velocities and Vp/Vs, Journal of Geophysical Research: Solid Earth, issue.8, p.112, 2007.

,

F. Fournier, P. Leonide, K. Biscarrat, A. Gallois, J. Borgomano et al., Elastic properties 677 of microporous cemented grainstones, GEOPHYSICS, vol.76, issue.6, pp.211-226, 2011.

,

F. Fournier, P. Léonide, L. Kleipool, R. Toullec, J. J. Reijmer et al., Pore 680 space evolution and elastic properties of platform carbonates (Urgonian limestone, 2014.

S. E. Aptian and . France, Sedimentary Geology, vol.308, pp.1-17

F. Fournier, M. Pellerin, Q. Villeneuve, T. Teillet, F. Hong et al., The equivalent pore 683 aspect ratio as a tool for pore type prediction in carbonate reservoirs, AAPG Bulletin, vol.102, issue.7, pp.1343-684, 2018.

H. H. Haldorsen and L. W. Lake, A New Approach to Shale Management in Field-Scale Models, 1984.

, Society of Petroleum Engineers Journal, vol.24, issue.04, pp.447-457

P. Jeanne, Y. Guglielmi, and F. Cappa, Multiscale seismic signature of a small fault zone in a 688 carbonate reservoir: Relationships between V P imaging, 2012.

. Tectonophysics, , pp.185-201

D. Marion and D. Jizba, Acoustic properties of carbonate rocks: Use in quantitative interpretation 691 of sonic and seismic measurements, p.692, 1997.

, Geophysical Developments. Society of Exploration Geophysicists, pp.75-93

C. Matonti, Y. Guglielmi, S. Viseur, P. O. Bruna, J. Borgomano et al., , 2015.

, Heterogeneities and diagenetic control on the spatial distribution of carbonate rocks acoustic 695 properties at the outcrop scale, Tectonophysics, vol.638, issue.1, pp.94-111

,

G. Mavko, T. Mukerji, and J. Dvorkin, The Rock Physics Handbook: Tools for Seismic Analysis of 698 Porous Media, vol.524, 2009.

D. Moos and M. D. Zoback, Situ Studies of Velocity in Fractured Belair Belt, vol.700, pp.2345-2358, 1983.

K. Nordahl, A petrophysical evaluation of tidal heterolithic deposits: Application of a near wellbore 702 model for reconciliation of scale dependant well data, vol.338, 2004.

K. Nordahl and P. S. Ringrose, Identifying the representative elementary volume for permeability 705 in heterolithic deposits using numerical rock models, Mathematical Geosciences, vol.40, issue.7, pp.753-771, 2008.

,

R. B. Owen, R. W. Renaut, and M. G. Stamatakis, Late Miocene lacustrine sedimentation in the 708, 2011.

M. Basin, Journal of Paleolimnology, vol.46, issue.1, pp.151-166

,

E. Panza, F. Agosta, A. Rustichelli, S. C. Vinciguerra, A. Ougier-simonin et al., Meso-to-microscale fracture porosity in tight limestones, results of an integrated field and 712 laboratory study. Marine and Petroleum Geology, vol.103, pp.581-595, 2019.

,

L. L. Raymer, E. R. Hunt, and J. S. Gardner, An Improved Sonic Transit Time-to-Porosity 715, 1980.

. Transform, SPWLA Annual Logging Symposium, 1-13. Society of Petrophysicists and Well-Log

J. B. Regnet, P. Robion, C. David, J. Fortin, B. Brigaud et al., Acoustic and reservoir 718 properties of microporous carbonate rocks: Implication of micrite particle size and morphology, Journal of Geophysical Research: Solid Earth, vol.719, issue.2, pp.790-811, 2015.

,

J. Regnet, J. Fortin, A. Nicolas, M. Pellerin, and Y. Guéguen, Elastic properties of continental 722 carbonates: From controlling factors to an applicable model for acoustic-velocity predictions, 2019.

, GEOPHYSICS, vol.84, pp.45-59

J. B. Regnet, C. David, P. Robion, and B. Menéndez, Microstructures and physical properties in 725 carbonate rocks: A comprehensive review. Marine and Petroleum Geology, 2019.

,

U. Ring, S. Laws, and M. Bernet, Structural analysis of a complex nappe sequence and late-orogenic 728 basins from the Aegean Island of Samos, Journal of Structural Geology, vol.21, issue.11, pp.1575-1601, 1999.

,

P. S. Ringrose, A. W. Martinius, and J. Alvestad, Multiscale geological reservoir modelling in 731 practice, Geological Society, vol.309, issue.1, pp.123-134, 2008.

,

P. Ringrose and M. Bentley, Reservoir Model Design: A Practiotioner's Guide. 249 pp, Springer 734 Netherlands, 2015.

R. E. Sheriff and L. P. Geldart, Exploration seismology, 592 pp, 1995.

R. E. Sheriff, Encyclopedic Dictionary of Exploration Geophysics, 442 pp., Society of Exploration 737 Geophysicists, 2002.

J. Soete, L. M. Kleipool, H. Claes, S. Claes, H. Hamaekers et al., Acoustic properties 739 in travertines and their relation to porosity and pore types. Marine and Petroleum Geology, vol.59, pp.320-740, 2015.

M. G. Stamatakis, J. R. Hein, and A. C. Magganas, Geochemistry and diagenesis of Miocene 742 lacustrine siliceous sedimentary and pyroclastic rocks, 1989.

, Sedimentary Geology, vol.64, pp.65-78

D. J. Stierman and R. L. Kovach, An in situ velocity study: The Stone Canyon Well, Journal of 745 Geophysical Research: Solid Earth Solid Earth, vol.84, issue.B2, pp.672-678, 1979.

,

K. Verwer, H. Braaksma, and J. A. Kenter, Acoustic properties of carbonates: Effects of rock texture 748 and implications for fluid substitution, GEOPHYSICS, vol.73, issue.2, pp.51-65, 2008.

,

J. B. Walsh, The effect of cracks on the compressibility of rock, Journal of Geophysical Research, vol.751, issue.2, pp.381-389, 1965.

Z. Wang, W. K. Hirsche, and G. Sedgwick, Seismic velocities in carbonate rocks, Journal, p.753, 1991.

, Canadian Petroleum Technology, vol.30, issue.2

M. Weidmann, N. Solounias, R. E. Drake, and G. H. Curtis, Neogene Stratigraphy of the Eastern 755 Basin, Geobios, vol.17, issue.4, pp.477-490, 1984.

U. Wollner and J. Dvorkin, Seismic-scale dependence of the effective bulk modulus of pore fluid 757 upon water saturation, GEOPHYSICS, vol.83, issue.2, pp.81-91, 2018.

M. R. Wyllie, A. R. Gregory, and G. H. Gardner, Elastic wave velocities in heterogeneous and 760 porous media, GEOPHYSICS, vol.21, pp.41-70, 1956.

S. Xu and M. A. Payne, Modeling elastic properties in carbonate rocks, The Leading Edge, vol.28, issue.1, pp.762-66, 2009.