[22] Mannu U, Fernández-Blanco D, Miyakawa A, Kinoshita M & Taras G. Thrusts control the thermal maturity of accreted sediments. Accepted in Solid Earth, EGUsphere [prerint]. DOI: https://doi.org/10.5194/egusphere-2023-30

[21] Rodriguez M, Sakellariou D, Gorini C, Janin A, D’Acremont E, Le Pourhiet L, Chamot-Rooke N, Tsampouraki-Kraounaki K, Morfis I, Rousakis G, Henry P, Lurin A, Delescluse M, Briole P, Rigo A, Arsenikos S, Bulois C, Fernández-Blanco D, Beniest A, Grall C, Chanier F, Caroir F, Dessa J-X, Oregioni D, Nercessian A, 2023. Evolution of the North Anatolian Fault from a diffuse to a localized shear zone in the North Aegean Sea during the Plio-Pleistocene. Geophysical Journal International, v 235, https://doi.org/10.1093/gji/ggad364

[20] De Gelder G*, Husson L, Pastier A-M, Fernández−Blanco D, Pico T, Chauveau D, Authemayou C & Pedoja K, 2022. High interstadial sea levels over the past 420ka from Huon terraces (Papua New Guinea). Nature Communications Earth & Environment, v 03, https://doi.org/10.1038/s43247-022-00583-7

[19] De Gelder G*, Fernández-Blanco D, Ögretmen N, Liakopoulos S, Papanastassiou D, Faranda C, Armijo R & Lacassin R, 2022. Quaternary E-W extension uplifts Kythira Island and segments the Hellenic Arc. Tectonics, v 41, https://doi.org/10.1029/2022TC007231

[18] Charton R, Kluge C, Fernández-Blanco D, Duval-Arnould A, Bryers O, Redfern J & Bertotti G, 2021. Syn-depositional Mesozoic siliciclastic pathways on the Moroccan Atlantic margin linked to evaporite mobilisation. Marine and Petroleum Geology, v 128, http://dx.doi.org/10.1016/j.marpetgeo.2021.105018 [EarthArXiv pdf]

[17] Fuji N, Jang H, Nakao A, YoungHee K, Fernández-Blanco D, Sang-Mook L, Schroeder A & Konishi K, 2021. A possible roll-over slab geometry under the Caroline Plate imaged by Monte Carlo finite-frequency traveltime inversion of teleseismic SS phases. Frontiers in Earth Sciences: Solid Earth Geophysics, 9:593947, https://doi.org/10.3389/feart.2021.593947.

[16] Gallen SF & Fernández-Blanco D, 2021. A new data-driven Bayesian inversion of fluvial topography clarifies the tectonic history of the Corinth Rift and reveals a channel steepness threshold. Journal of Geophysical Research: Earth Surface, 126(3), e2020JF005651, https://doi.org/10.1029/2020JF005651

[15] Fernández-Blanco D, Mannu U, Cassola T, Bertotti G & Willett SD, 2020. Sedimentation and viscosity controls on forearc high growth, Basin Research, v 33(2), https://doi.org/10.1111/bre.12518 [EarthArXiv pdf]

[14] Fernández-Blanco D, Gouiza M, Charton R, Kluge C, Klaver J, Brautigam K & Bertotti G, 2020. Anticline growth by shortening during crustal exhumation of the Moroccan Atlantic margin, Journal of Structural Geology, 104125, https://doi.org/10.1016/j.jsg.2020.104125 [EarthArXiv pdf]

[13] Fernández-Blanco D, Mannu U, Bertotti G & Willett SD, 2020Forearc high uplift by lower crustal flow during growth of the Cyprus-Anatolian margin, Earth & Planetary Science Letters, v 544, https://doi.org/10.1016/j.epsl.2020.116314. [EarthArXiv pdf]

[12] de Gelder G, Jara-Muñoz J, Melnick D, Fernández-Blanco D, Rouby H, Pedoja K, Husson L, Armijo R & Lacassin R, 2020. How do sea-level curves influence modeled marine terrace sequences?, Quaternary Science Reviews, v 229, doi:https://doi.org/10.1016/j.quascirev.2019.106132. [EarthArXiv pdf]

[11] Fernández-Blanco D, de Gelder G, Lacassin R & Armijo R, 2020. Geometry of flexural uplift by continental rifting in Corinth, Greece, Tectonics, v 38, doi:10.1029/2019TC005685. [EarthArXiv pdf]

[10] Fernández-Blanco D, de Gelder G, Lacassin R & Armijo R, 2019. A new crustal fault formed the modern Corinth Rift, Earth Science Reviews, v 199, doi:10.1016/j.earscirev.2019.102919. [EarthArXiv pdf]

[9] Narock T, Goldstein EB, Jackson CA-L, Bubeck AA, Enright AML, Farquharson JI, Fernández A, Fernández-Blanco D, Girardclos S, Ibarra DE, Lengger SK, Mackay A, Venema V, Whitehead B & Ampuero J-P, 2019. Earth Science is ready for preprints: The first year of EarthArXiv, EOS, v 100, doi:10.1029/2019EO121347. [Earth ArXiv pdf]

[8] Fernández-Blanco D, Bertotti G, Aksu A & Hall J, 2019. Monoclinal flexure of an orogenic plateau margin during subduction, south Turkey, Basin Research, v 00, doi:10.1111/bre.12341. [EarthArXiv pdf]

[7] de Gelder G, Fernández-Blanco D, Melnick D, Duclaux G, Bell RE, Jara-Muñoz J, Armijo R & Lacassin R, 2019. Lithospheric flexure and rheology determined by climate cycle markers in the Corinth Rift, Scientific Reports, v 9, doi:10.1038/s41598-018-36377-1. [EarthArXiv pdf]

[6] Pedoja K, Jara-Muñoz J, de Gelder G, Robertson J, Meschis M, Fernández-Blanco D, Poprawski Y, Nexer M, Dugué O, Delcaillau B, Bessin P, Benabdelouahed M, Husson L, Authemayou C, Regard V, Menier D & Pinel B, 2017. Neogene – Quaternary slow coastal uplift of Western Europe through the perspective of the sequences of strandlines from the Cotentin Peninsula, Geomorphology, v 303, doi:10.1016/j.geomorph.2017.11.021. [EarthArXiv pdf]

[5] Fernández-Blanco D, Philippon M & von Hagke C, 2016. Structure and kinematics of the Sumatran Fault System in North Sumatra (Indonesia), Tectonophysics, v 693, doi:10.1016/j.tecto.2016.04.050. [EarthArXiv pdf]

[4] Fernández-Blanco D, Philippon M & von Hagke C, 2015. Present-day stress orientations in the Great Sumatran Fault in North Sumatra, Geotectonic Research Special Issue, v 97, doi:10.1127/1864-5658/2015-12. [Journal pdf]

[3] de Gelder G, Fernández-Blanco D, Lacassin R, Armijo R, Delorme A, Jara-Muñoz J & Melnick D, 2015. Corinth terraces re-visited: Improved paleoshoreline determination using Pleiades-DEMs, Geotectonic Research Special Issue, v 97, doi:10.1127/1864-5658/2015-06. [Journal pdf]

[2] Fernández-Blanco D, Bertotti G & Çiner A, 2013. Cenozoic tectonics of the Tuz Gölü Basin (Central Anatolia Plateau, Turkey), Turkish Journal of Earth Sciences, v 22, doi:10.3906/yer-1206-7. [EarthArXiv pdf]

[1] Özsayın E, Rojay B, Çiner A, Dirik K, Melnick D, Fernández-Blanco D, Bertotti G, Schildgen T, Garcin Y, Strecker M & Sudo M, 2013. Plio-Quaternary Extensional Tectonics of the Central Anatolian Plateau: A case study from the Tuz Gölü Basin, Turkey, Turkish Journal of Earth Sciences, v 22, doi:10.3906/yer-1210-5. [EarthArXiv pdf]