Publications
Conference abstracts not included
(47) Schulte, L., Cardozo, N. and Batista, A. 2024. The well log and seismic expression of faults in the Wisting field, Barents Sea. Journal of Structural Geology 178, 105036.
(46) Cardozo, N. and Hardy, S. 2023. cdem: A macOS program for discrete element modelling of tectonic structures. Geosphere, https://doi.org/10.1130/GES02647.1
(45) Oakley, D., Cardozo, N., Almendral Vazquez, A. and Røe, P. 2023. Structural geologic modeling and restoration using Ensemble Kalman inversion. Journal of Structural Geology 171, 104868.
(44) Marín, D., Cardozo, N. and Escalona, A. 2023. Compositional variation of the Zechstein Group in the Norwegian North Sea: implications for underground storage in salt caverns. Basin Research, https://doi.org/10.1111/bre.12761.
(43) Volatili, T., Agosta, F., Cardozo, N., Zambrano, M., Lecomte, I. and Tondi, E. 2022. Outcrop-scale fracture analysis and seismic modelling of a basin-bounding normal fault in platform carbonates, central Italy. Journal of Structural Geology 155, 104515.
(42) Cunningham, Weibull, W.J., Cardozo, N. and Iacopini, D. 2021. Investigating the PS seismic imaging of faults using seismic modelling and data from the Snøhvit field, Barents Sea. Petroleum Geosciences 28, petgeo2020-044.
(41) Hardy, S. and Cardozo, N. 2021. Discrete Element Modelling of Sedimentation and Tectonics: Implications for the growth of thrust faults and thrust wedges in space and time, and the interpretation of syn-tectonic (growth) strata. Frontiers in Earth Science 9, 742204.
(40) Cunningham, J., Cardozo, N., Townsend, C. and Callow, R. 2021. The Impact of seismic interpretation methods on the analysis of faults: A case study from the Snøhvit field, Barents Sea. Solid Earth 12, 741-764.
(39) Pachón-Parra, L.F., Mann, P. and Cardozo, N. 2020. Regional subsurface mapping and 3D flexural modeling of the obliquely-converging Putumayo foreland basin, southern Colombia. Interpretation 8, 4, ST15-ST48.
(38) Mostalenko, A., Khudoley, A. and Cardozo, N. 2020. Fault kinematics and paleostress analysis using seismic data: A case study from the Archinsk field, West Siberian Basin, Russia. Journal of Structural Geology 104194.
(37) Rojo, LA., Koyi, H., Cardozo, N. and Escalona, A. 2020. Salt tectonics in salt-bearing rift basins: progradational loading vs. extension. Journal of Structural Geology 104193.
(36) Mohammadrezaei, H., Alavi, S., Cardozo, N. and Ghassemi, M.R. 2020. Deciphering the relationship between basement faulting and two-phase folding in the Hendijan anticline, Northwestern Persian Gulf, Iran. Marine and Petroleum Geology 122, 104626.
(35) Rojo, L.A., Marín, D.L., Cardozo, N., Escalona, A., Koyi, H. 2019. The influence of halokinesis on prograding clinoforms: insights from the Tiddlybanken Basin, Norwegian Barents Sea. Basin Research 32, 979-1004.
(34) Trede, C., Cardozo, N. and Watson, L. 2019. What is the appropriate size for strike and dip measurements? An evaluation from compass, smartphone, and LiDAR measurements. Norwegian Journal of Geology 99, 3, 1-14.
(33) Rojo, L.A., Cardozo, N., Escalona, A. and Koyi, H. 2019. Structural style and evolution of the Nordkapp Basin, Norwegian Barents Sea. AAPG Bulletin 103, 2177-2217.
(32) Cedeño, A., Rojo, L., Cardozo, N., Centeno, L. and Escalona, A. 2019. The impact of salt tectonics on the thermal evolution and the petroleum system of confined rift basins: insights from basin modelling of the Nordkapp Basin, Norwegian Barents Sea. Geosciences 9(7), 316.
(31) Cardozo, N. and Oakley, D. 2019. Inverse modelling for possible rather than unique solutions. Journal of Structural Geology 125, 285-295.
(30) Kairanov, B., Marín, D., Escalona, A. and Cardozo, N. 2019. Growth and linkage of a basin-bounding fault system: Insights from the Early Cretaceous evolution of the northern Polhem Subplatform, SW Barents Sea. Journal of Structural Geology 124, 182-196.
(29) Medina-Cascales, I., Koch, L., Cardozo, N., Martín-Rojas, I., Alfaro, P. and García-Tortosa, F.J. 2019. 3D geometry and architecture of a normal fault zone in poorly lithified sediments: A trench study on a strand of the Baza Fault, central Betic Cordillera, south Spain. Journal of Structural Geology 121, 25-45.
(28) Cunningham, J., Cardozo, N., Townsend, C., Iacopini, D. and Wærum, G.O. 2019. Fault deformation, seismic amplitude and unsupervised fault facies analysis: Snøhvit field, Barents Sea. Journal of Structural Geology 118, 165-180.
(27) Sydnes, M., Fjeldskaar, W., Løtveit, I., Grunnaleite, I. and Cardozo, N. 2018. The importance of sill thickness and timing of sill emplacement on hydrocarbon maturation. Marine and Petroleum Geology 89, 500-514.
(26) Guerriero, L., Bertello, L., Cardozo, N., Berti, M., Grelle, G. and Revellino, P. 2017. Unsteady sediment discharge in earth flows: A case study from the Mount Pizzuto earth flow, southern Italy. Geomorphology 295, 260-284.
(25) Botter, C., Cardozo, N., Tveranger, J., Qu, D. and Kolyukhin, D. 2017. Seismic characterisation of fault facies models. Interpretation, 5(4), SP9-SP26.
(24) Botter, C., Cardozo, N., Lecomte, I., Rotevatn A. and Paton, G. 2017. The impact of faults and fluid flow on seismic images of a relay ramp over production time. Petroleum Geosciences 23, 17-28.
(23) Botter, C., Cardozo, N., Hardy, S., Lecomte, I., Paton, G. and Escalona, A. 2016. Seismic characterisation of fault damage in 3D using mechanical and seismic modelling. Marine and Petroleum Geology 77, 973-990.
(22) Cardozo, N., Montes, C., Marín, D., Gutierrez, I. and Palencia, A. 2016. Structural analysis of the Tabaco anticline, Cerrejón open-cast coal mine, Colombia, South America. Journal of Structural Geology 87, 115-133.
(21) Botter, C., Cardozo, N., Hardy, S., Lecomte, I. and Escalona, A. 2014. From mechanical modeling to seismic imaging of faults: A synthetic workflow to study the impact of faults on seismic. Marine and Petroleum Geology 57, 187-207.
(20) Cardozo, N. and Brandenburg, J.P. 2014. Kinematic modeling of folding above listric propagating thrusts. Journal of Structural Geology 60, 1-12.
(19) Grothe, P.R., Cardozo, N., Mueller, K. and Ishiyama, T. 2014. Propagation history of the Osaka-wan blind thrust, Japan, from trishear modeling. Journal of Structural Geology 58, 79-94.
(18) Vidal-Royo, O., Muñoz, J.A., Hardy, S., Koyi, H. and Cardozo, N. 2013. Structural evolution of the Pico del Águila anticline (External Sierras, Southern Pyrenees) derived from sandbox, numerical and 3D structural modelling techniques. Geologica Acta 11, 1-26.
(17) Cardozo, N. and Allmendinger, R.W. 2013. Spherical projections with OSXStereonet. Computers and Geosciences 51, 193-205.
(16) Allmendinger, R. W., Cardozo, N., and Fisher, D. 2012. Structural Geology Algorithms: Vectors and Tensors. Cambridge University Press.
(15) Vidal-Royo, O., Cardozo, N., Muñoz, J., Hardy, S. and Maerten, L. 2012. Multiple mechanisms driving detachment folding as deduced from 3D reconstruction and geomechanical restoration: The Pico del Águila anticline (External Sierras, Southern Pyrenees). Basin Research 24, 295-313.
(14) Cardozo, N., Jackson, C.A. and Whipp, P. 2011. Determining the uniqueness of best-fit trishear models. Journal of Structural Geology 33, 1063-1078.
(13) Fachri, M., Tveranger, J., Cardozo, N. and Pettersen, Ø. 2011. The impact of fault envelope structure on fluid flow: A screening study using Fault Facies. American Association of Petroleum Geologists Bulletin 95, 619-648.
(12) Braathen, A., Tveranger, J., Fossen, H., Skar, T., Cardozo, N., Semshaug, S.E., Bastesen E. and Sverdrup E. 2009. Fault Facies and its applications to sandstone reservoirs. American Association of Petroleum Geologists Bulletin 93, 891-917.
(11) Cardozo, N. and Aanonsen, S.I. 2009. Optimized trishear inverse modeling. Journal of Structural Geology 31, 546-560.
(10) Cardozo, N. and Allmendinger, R.W. 2009. SSPX: A program to compute strain from displacement/velocity data. Computers and Geosciences 35, 1343-1357.
(9) Fredman, N., Tveranger, J., Cardozo, N., Braathen, A., Soleng, H., Røe, P., Skorstad, A. and Syversveen, A.R. 2008. Fault facies modeling: Technique, and approach for 3D conditioning and modeling of faulted grids. American Association of Petroleum Geologists Bulletin 92, 1457-1478.
(8) Cardozo, N., Røe, Per, Soleng, H., Fredman, N. Tveranger, J. and Schueller, S. 2008. A methodology for efficiently populating faulted corner point grids with strain. Petroleum Geoscience 14, 205-216.
(7) Cardozo, N. 2008. Trishear in 3D: Algorithms, implementation, and limitations. Journal of Structural Geology 30, 327-340.
(6) Cardozo, N., Allmendinger, R.W., Morgan, J.K. 2005. Influence of mechanical stratigraphy and initial stress state on the formation of two fault propagation folds. Journal of Structural Geology 27, 1954-1972.
(5) Cardozo, N. 2005. Trishear modeling of fold bedding data along a topographic profile. Journal of Structural Geology 27, 495-502.
(4) Gomez, E., Jordan, T.E., Allmendinger, R.W., and Cardozo, N. 2005. Development of the Colombian foreland-basin system as a consequence of diachronous exhumation of the northern Andes. Geological Society of America Bulletin 117, 1272-1292.
(3) Cardozo, N., Bhalla, K., Zehnder, A.T., Allmendinger, R.W. 2003. Mechanical models of fault propagation folds and comparison to the Trishear kinematic model. Journal of Structural Geology 25, 1-18.
(2) Cardozo, N., Jordan, T. 2001. Causes of Spatially Variable Tectonic Subsidence in the Miocene Bermejo Foreland Basin, Argentina. Basin Research 13, 335-357.
(1) Jordan, T., Schlunegger, F., and Cardozo, N. 2001. Unsteady and Spatially Variable Evolution of the Neogene Andean Bermejo Foreland Basin, Argentina. Journal of South American Earth Sciences 14, 775-798.