D. Abrahão and J. E. Warme, Lacustrine and associated deposits in a rifted continental margin-Lower Cretaceous Lagoa Feia Formation, Campos basin, Offshore Brazil, in B.J, 1990.

E. Katz, Lacustrine Basin Exploration?Case Studies and Modern Analogs: AAPG Memoir 50, AAPG, pp.287-305

F. S. Anselmetti and G. P. Eberli, The Velocity-Deviation Log: A Tool to Predict Pore Type and Permeability Trends in Carbonate Drill Holes from Sonic and Porosity or Density Logs, AAPG Bulletin, vol.83, issue.3, pp.450-466, 1999.

F. S. Anselmetti and G. P. Eberli, Sonic velocity in carbonates ? a combined product of depositional lithology and diagenetic alteration Subsurface Geology of a Prograding Carbonate Platform Margin, Great Bahama Bank: Results of the Bahamas Drilling Project, pp.70-193, 2001.

F. S. Anselmetti, G. A. Von-salis, K. J. Cunningham, and G. P. Eberli, Acoustic properties of Neogene carbonates and siliciclastics from the subsurface of the Florida Keys: implications for seismic reflectivity, Marine Geology, vol.144, issue.1-3, pp.144-153, 1997.
DOI : 10.1016/S0025-3227(97)00081-9

R. T. Bertani and A. V. Carozzi, Lagoa Feia Formation (Lower Cretaceous), Campos Basin, Offshore Brazil: Rift Valley Stage Lacustrine Carbonate Reservoirs ? I: Journal of Petroleum Geology, pp.37-58, 1985.

J. Borgomano, The Upper Cretaceous carbonates of the Gargano-Murge region, southern Italy: A model of platform-to-basin transition, AAPG Bulletin, pp.84-1561, 2000.

J. Borgomano, J. P. Masse, M. Fenerci-masse, and F. Fournier, PETROPHYSICS OF LOWER CRETACEOUS PLATFORM CARBONATE OUTCROPS IN PROVENCE (SE FRANCE): IMPLICATIONS FOR CARBONATE RESERVOIR CHARACTERISATION, Journal of Petroleum Geology, vol.4, issue.10, pp.5-42, 2013.
DOI : 10.1306/12020301029

J. P. Buckley, D. Bosence, and C. Elders, Tectonic setting and stratigraphic architecture of an Early Cretaceous lacustrine carbonate platform, Sugar Loaf High, Microbial Carbonates in Space and Time: Implications for Global Exploration and Production, pp.418-175, 2015.

M. Carminatti, J. L. Dias, and B. Wolff, From Turbidites to Carbonates: Breaking Paradigms in Deep Waters, Offshore Technology Conference, pp.4-7, 2009.
DOI : 10.4043/20124-MS

K. R. Gierlowski-kordesch and . Kelts, Lake Basins Through Space and Time, Studies in Geology, pp.46-245

M. P. Cleary, I. W. Chen, and S. M. Lee, Self-consistent techniques for heterogeneous media: American Society of Civil Engineering and Mechanics, pp.861-887, 1980.

P. W. Choquette and L. C. Pray, Geologic nomenclature and classification of porosity in sedimentary carbonates, AAPG Bulletin, pp.54-207, 1970.

G. P. Eberli, G. T. Baechle, F. S. Anselmetti, and M. L. Incze, Factors controlling elastic properties in carbonate sediments and rocks, The Leading Edge, vol.22, issue.7, pp.22-654, 2003.
DOI : 10.1190/1.1599691

URL : https://boris.unibe.ch/86602/1/factors%20controlling%20elastic%20properties%20in%20carbonate%20sediments%20and%20rocks.pdf

F. Fournier and J. Borgomano, Geological significance of seismic reflections and imaging of the reservoir architecturein the Malampaya gas field (Philippines): AAPG Bulletin, pp.235-258, 2007.

F. Fournier and J. Borgomano, Critical porosity and elastic properties of microporous mixed carbonate-siliciclastic rocks, GEOPHYSICS, vol.64, issue.3, pp.93-109, 2009.
DOI : 10.1190/1.1452609

F. Fournier, P. Leonide, K. Biscarrat, A. Gallois, J. Borgomano et al., Elastic properties of microporous cemented grainstones: Geophysics, v. 76, pp.211-226, 2011.

F. Fournier, P. Léonide, L. Kleipool, R. Toullec, J. J. Reijmer et al., Pore space evolution and elastic properties of platform carbonates, Sedimentary Geology, pp.308-309, 2014.
DOI : 10.1016/j.sedgeo.2014.04.008

R. Funiciello, P. Montone, M. Parotto, F. Salvini, and M. Tozzi, Geodynamical evolution of an intra-orogenic foreland: the Apulia case history (Italy): Bollettino della Società Geologica Italiana, pp.110-419, 1991.

F. Gassmann, Über die Elastizität Poröser Medien: Veierteljahrsschrift der Naturforschenden Gesellschaft in Zürich, pp.1-23, 1951.

A. Hairabian, F. Fournier, J. Borgomano, and S. Nardon, DEPOSITIONAL FACIES, PORE TYPES AND ELASTIC PROPERTIES OF DEEP-WATER GRAVITY FLOW CARBONATES, Journal of Petroleum Geology, vol.21, issue.3, pp.231-250, 2014.
DOI : 10.1190/1.1438217

Z. Hashin and S. Shtrikman, A variational approach to the elastic behavior of multiphase materials, Journal of the Mechanics and Physics of Solids, issue.11, pp.127-140, 1963.

. Sonnenfeld, Parameters controlling sonic velocities in a mixed carbonate-siliciclastics Permian shelf margin (Upper San Andres Formation, Last Chance Canyon, 1997.

J. A. Kenter, H. Braaksma, K. Verwer, and X. M. Van-lanen, Acoustic behavior of sedimentary rocks: Geologic properties versus Poisson's ratios, The Leading Edge, vol.26, issue.4, pp.26-436, 2007.
DOI : 10.1190/1.2723206

P. Léonide, F. Fournier, J. J. Reijmer, H. Vonhof, J. Borgomano et al., Diagenetic patterns and pore space distribution along a platform to outershelf transect: Sedimentary Geology, pp.306-307, 2014.

J. P. Masse, Valanginian-Early Aptian carbonate platforms from Provence, 1993.

J. P. Masse and J. Borgomano, Un modèle de transition plate-forme -bassin carbonatés contrôlé par des phénomènes tectoniques, 1987.

G. Mavko and T. Mukerji, Seismic pore space compressibility and Gassmann???s relation, GEOPHYSICS, vol.60, issue.6, pp.1743-1749, 1995.
DOI : 10.1190/1.1443907

G. Mavko, T. Mukerji, and J. Dvorkin, The rock physics handbook: tool for seismic analysis in porous media, 1998.
DOI : 10.1017/CBO9780511626753

T. R. Mchargue, Stratigraphic development of proto-South Atlantic rifting in Cabinda, 1990.

A. N. Norris, A differential scheme for the effective moduli of composites, Mechanics of Materials, vol.4, issue.1, pp.1-16, 1985.
DOI : 10.1016/0167-6636(85)90002-X

O. Connell, R. , and B. Budiansky, Viscoelastic properties of fluid-saturated cracked solids, Journal of Geophysical Research, vol.60, issue.36, pp.5719-5736, 1974.
DOI : 10.1103/PhysRev.60.906

F. Rafavich, C. H. St, T. P. Kendall, and . Todd, The Relationship between Acoustic Properties and the Petrographic Character of Carbonate Rocks: Geophysics, v, pp.49-1622, 1984.

A. A. Saleh and J. P. Castagna, Revisiting the Wyllie time average equation in the case of near???spherical pores, GEOPHYSICS, vol.54, issue.1, pp.45-55, 2004.
DOI : 10.1190/1.1438217

D. L. Thomson, J. D. Stilwel, and M. Hall, Lacustrine carbonate reservoirs from Early Cretaceous rift lakes of Western Gondwana: Pre-Salt coquinas of Brazil and West Africa: Gondwana Research, pp.28-54, 2015.

N. J. Tosca and V. P. Wright, Diagenetic pathways linked to labile Mg-clays in lacustrine carbonate reservoirs: a model for the origin of secondary porosity in the Cretaceous pre-salt, 2015.

C. Csoma, R. H. Hollis, J. E. Lander, R. H. Omma, and . Worden, Reservoir Quality of Clastic and Carbonate Rocks: Analysis, Modelling and Prediction, pp.435-436

K. Verwer, H. Braaksma, and J. A. Kenter, Acoustic properties of carbonates: Effects of rock texture and implications for fluid substitution, GEOPHYSICS, vol.76, issue.2, pp.51-65, 2008.
DOI : 10.1190/1.2831935.1

R. J. Weger, G. T. Baechle, G. P. Eberli, J. L. Massaferro, and Y. F. Sun, Quantification of pore structure and its effect on sonic velocity and permeability in carbonates, AAPG Bulletin, vol.93, issue.10, pp.93-1297, 2009.
DOI : 10.1306/05270909001

V. P. Wright and A. Barnett, An abiotic model for the development of textures in some South Atlantic early Cretaceous lacustrine carbonates, Geological Society, London, Special Publications, vol.418, issue.1, 2015.
DOI : 10.1144/SP418.3

L. Heron, W. A. Morgan, T. Pritchard, and B. A. Vining, Microbial Carbonates in Space and Time: Implications for Global Exploration and Production, pp.418-209

M. R. Wyllie, A. R. Gregory, and G. H. Gardner, ELASTIC WAVE VELOCITIES IN HETEROGENEOUS AND POROUS MEDIA, GEOPHYSICS, vol.21, issue.1, pp.41-70, 1956.
DOI : 10.1190/1.1438217

S. Xu and M. A. Payne, Modelling elastic properties in carbonate rocks: The Leading Edge, pp.66-74, 2009.

L. Zhao, M. Nasser, and D. Han, Quantitative geophysical pore-type classification and its geological implication in carbonate reservoirs: Geophysical Prospecting, pp.61-827, 2013.
DOI : 10.1111/1365-2478.12043

. Zimmerman, Compressibility of sandstones, 1991.