Export 107 results:
Author Title [ Type] Year Filters: First Letter Of Last Name is P [Clear All Filters]
The habitats of the Cap de Creus continental shelf and Cap de Creus Canyon, northwestern Mediterranean. Seafloor Geomorphology as Benthic Habitat. GeoHab Atlas of seafloor geomorphic features and benthic habitats. :457–469.
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2012. Active faulting in the Mesozoic oceanic lithosphere offshore the SW Iberian margin. Significance for earthquake and tsunami hazard. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :81–84.
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2014. The benthic communities of the Cap de Creus Canyon. Mediterranean submarine canyons: ecology and governance. :123–132.
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2012. Distinguishing sediment bedforms from sediment deformation in prodeltas of the Mediterranean Sea.. Submarine Mass Movement and Their Consequences, Advances in Natural and Technological Hazards Research. :233–244.
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2012. Evidences of quaternary active faults across the Djibouti high and the Adra Ridge (Alboran Sea). Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :97–100.
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2014. Evidences of quaternary active faults across the Djibouti high and the Adra Ridge (Alboran Sea). Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :97–100.
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2014. Fine grained bodies as evidence of “dusty” paleoearthquakes in the Alhama de Murcia Fault geological record. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :23–26.
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2014. Fine grained bodies as evidence of “dusty” paleoearthquakes in the Alhama de Murcia Fault geological record. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :23–26.
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2014. One million years of climatic generated landslide events on the northwestern Barents Sea continental margin.. Submarine Mass Movement and Their Consequences, Advances in Natural and Technological Hazards Research. :747–756.
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2012. Recent submarine landslides on the continental slope of Storfjorden and Kveithola Trough-Mouth Fans (north west Barents Sea). Submarine Mass Movements and Their Consequences, Advances in Natural and Technological Hazards Research, 34, Springer, Dordrecht (The Netherlands). :735–745.
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2012. Seismic hazard of active faults in the Alboran Sea inferred from submarine paleosismology. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :101–104.
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2014. Submarine Mass Movements Along a Sediment Starved Margin: The Menorca Channel (Balearic Islands – Western Mediterranean). Submarine Mass Movements and Their Consequences. :329–338.
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2014. Submarine paleoseismology on the Santa Pola fault (Bajo Segura basin, western mediterranean): derivating direct on-fault paleoearthquakes. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :121–124.
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2014. Técnicas avanzadas de procesado de datos de sísmica de reflexión multicanal aplicadas a mejorar la visualización de fallas activas del Mar de Alborán. Una aproximación multidisciplinar al estudio de fallas activas, los terremotos y el riesgo sísmico. :229–232.
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2014. Sediment undulations on the Llobregat prodelta: Signs of early slope instability or sedimentary bedforms? Rendiconti Online Societa Geologica Italiana. 7:103–106.
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2009. Submarine Landslides and Tsunamis. Earth and Planetary Sciences. 21:69–88.
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2010. The tectonic structure of the Tyrrhenian Basin, a complex interaction among faulting and magmatism. Rendiconti Online Societa Geologica Italiana. 21:251–252.
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2012. TSUJAL project and marine survey: Crustal characterization of the Rivera Plate-Jalisco Block boundary and its implications for seismic and tsunami hazard assessment5) TSUJAL Working Group: D. 2nd Iberian meeting on active faults and paleoseismology – IBERFAULT 2014.
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2014. TSUJAL project and marine survey: Crustal characterization of the Rivera Plate-Jalisco Block boundary and its implications for seismic and tsunami hazard assessment5) TSUJAL Working Group: D. 2nd Iberian meeting on active faults and paleoseismology – IBERFAULT 2014.
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2014. 3-D reflection seismic imaging of the hontomín structure in the basque-cantabrian Basin (Spain). Solid Earth. 4:481–496.
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2013. Acoustic and seismic imaging of the Adra Fault (NE Alboran Sea): in search of the source of the 1910 Adra earthquake. Natural Hazards and Earth System Science. 12:3255–3267.
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2012. Active deformation in old oceanic lithosphere and significance for earthquake hazard: Seismic imaging of the Coral Patch Ridge area and neighboring abyssal plains (SW Iberian Margin). Geochemistry, Geophysics, Geosystems. 14:2206–2231.
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2013. An active zone characterized by slow normal faults, the northwestern margin of the València trough (NE Iberia): a review. Journal of Iberian Geology. 38:35–57.
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2012. Area selection for diamonds using magnetotellurics: Examples from southern Africa. Lithos. 112:83–92.
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2009. The Bajo Segura Fault Zone: Active blind thrusting in the Eastern Betic Cordillera (SE Spain). Journal of Iberian Geology. 38:287–300.
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2012.