@article {Giaconia2015, title = {{Compressional tectonic inversion of the Algero-Balearic basin: Latemost Miocene to present oblique convergence at the Palomares margin (Western Mediterranean)}}, journal = {Tectonics}, volume = {34}, number = {7}, year = {2015}, month = {jul}, pages = {1516{\textendash}1543}, keywords = {10.1002/2015TC003861 and Active tectonics, Abubacer anticline, multichannel seismics, Palomares fault zone, Tectonic inversion, Western Mediterranean}, issn = {02787407}, doi = {10.1002/2015TC003861}, url = {http://doi.wiley.com/10.1002/2015TC003861}, author = {Giaconia, Flavio and Booth-Rea, Guillermo and Ranero, C{\'e}sar R and Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, Rafael and Calahorrano, Alcinoe and Lo Iacono, Claudio and Vendrell, Montserrat G and Cameselle, Alejandra L and Costa, Sergio and G{\'o}mez de la Pe{\~n}a, Laura and Mart{\'\i}nez-Loriente, Sara and Perea, Hector and Vi{\~n}as, Marina} } @article {Hensen01042015, title = {{Strike-slip faults mediate the rise of crustal-derived fluids and mud volcanism in the deep sea}}, journal = {Geology}, volume = {43}, number = {4}, year = {2015}, pages = {339{\textendash}342}, abstract = {We report on newly discovered mud volcanoes located at \~{}4500 m water depth \~{}90 km west of the deformation front of the accretionary wedge of the Gulf of Cadiz, and thus outside of their typical geotectonic environment. Seismic data suggest that fluid flow is mediated by a >400-km-long strike-slip fault marking the transcurrent plate boundary between Africa and Eurasia. Geochemical data (Cl, B, Sr, 87Sr/86Sr, $δ$18O, $δ$D) reveal that fluids originate in oceanic crust older than 140 Ma. On their rise to the surface, these fluids receive strong geochemical signals from recrystallization of Upper Jurassic carbonates and clay-mineral dehydration in younger terrigeneous units. At present, reports of mud volcanoes in similar deep-sea settings are rare, but given that the large area of transform-type plate boundaries has been barely investigated, such pathways of fluid discharge may provide an important, yet unappreciated link between the deeply buried oceanic crust and the deep ocean.}, doi = {10.1130/G36359.1}, url = {http://geology.gsapubs.org/content/43/4/339.abstract}, author = {Hensen, Christian and Scholz, Florian and Nuzzo, Marianne and Valadares, Vasco and Gr{\'a}cia, Eul{\`a}lia and Terrinha, Pedro and Liebetrau, Volker and Kaul, Norbert and Silva, Sonia and Mart{\'\i}nez-Loriente, Sara and Bartolom{\'e}, Rafael and Pi{\~n}ero, Elena and Magalh{\~a}es, Vitor H and Schmidt, Mark and Weise, Stephan M and Cunha, Marina and Hilario, Ana and Perea, Hector and Rovelli, Lorenzo and Lackschewitz, Klas} } @article {Papadopoulos2014, title = {{Historical and pre-historical tsunamis in the Mediterranean and its connected seas: Geological signatures, generation mechanisms and coastal impacts}}, journal = {Marine Geology}, volume = {354}, year = {2014}, pages = {81{\textendash}109}, publisher = {Elsevier}, abstract = {The origin of tsunamis in the Mediterranean region and its connected seas, including the Marmara Sea, the Black Sea and the SW Iberian Margin in the NE Atlantic Ocean, is reviewed within the geological and seismotectonic settings of the region. A variety of historical documentary sources combined with evidence from onshore and offshore geological signatures, geomorphological imprints, observations from selected coastal archeological sites, as well as instrumental records, eyewitnesses accounts and pictorial material, clearly indicate that tsunami sources both seismic and non-seismic (e.g. volcanism, landslides) can be found in all the seas of the region with a variable tsunamigenic potential. Local, regional and basin-wide tsunamis have been documented. An improved map of 22 main tsunamigenic zones and their relative potential for tsunami generation is presented. From west to east, the most important tsunamigenic zones are situated offshore SW Iberia, in the North Algerian margin, in the Tyrrhenian Calabria and Messina Straits, in the western and eastern segments of the Hellenic Arc, in the Corinth Gulf of Central Greece, in the Levantine Sea offshore the Dead Sea Transform Fault and in the eastern side of the Marmara Sea. Important historical examples, including destructive tsunamis associated with large earthquakes, are presented. The mean recurrence of strong tsunamis in the several basins varies greatly but the highest event frequency (1/96. years) is observed in the east Mediterranean basin. For most of the historical events it is still unclear which was the causative seismic source and if the tsunami was caused by co-seismic slip, by earthquake-triggered submarine landslides or by a combination of both mechanisms. In pre-historical times, submarine volcanic eruptions (i.e. caldera collapse, massive pyroclastic flows, volcanogenic landslides) and large submarine landslides caused important tsunamis although little is known about their source mechanisms. We conclude that further investigation of the tsunami generation mechanisms is of primary importance in the Mediterranean region. Inputs from tsunami numerical modeling as well as from empirical discrimination criteria for characterizing tsunami sources have been proved particularly effective for recent, well-documented, aseismic landslide tsunamis (e.g., 1963 Corinth Gulf, 1979 C{\^O}te d{\textquoteright}Azur, 1999 Izmit Bay, 2002 Stromboli volcano). Since the tsunami generation mechanisms are controlled by a variety of factors, and given that the knowledge of past tsunami activity is the cornerstone for undertaking tsunami risk mitigation action, future interdisciplinary research efforts on past tsunamis are needed. {\textcopyright} 2014 Elsevier B.V.}, keywords = {Geological signatures, Historical tsunamis, Mediterranean region, Tsunami impact, Tsunami mechanisms}, issn = {00253227}, doi = {10.1016/j.margeo.2014.04.014}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-84901663041\&partnerID=tZOtx3y1}, author = {Papadopoulos, Gerassimos A. and Gr{\'a}cia, Eul{\`a}lia and Urgeles, Roger and Sallares, Valenti and De Martini, Paolo Marco and Pantosti, Daniela and Gonz{\'a}lez, Mauricio and Yalciner, Ahmet C. and Mascle, Jean and Sakellariou, Dimitris and Salamon, Amos and Tinti, Stefano and Karastathis, Vassilis and Fokaefs, Anna and Camerlenghi, Angelo and Novikova, Tatyana and Papageorgiou, Antonia} } @article {Martinez-Loriente2014, title = {{Seismic and gravity constraints on the nature of the basement in the Africa-Eurasia plate boundary: New insights for the geodynamic evolution of the SW Iberian margin}}, journal = {Journal of Geophysical Research: Solid Earth}, volume = {119}, number = {1}, year = {2014}, month = {jan}, pages = {127{\textendash}149}, publisher = {Blackwell Publishing Ltd}, abstract = {We present a new classification of geological domains at the Africa-Eurasia plate boundary off SW Iberia, together with a regional geodynamic reconstruction spanning from the Mesozoic extension to the Neogene-to-present- day convergence. It is based on seismic velocity and density models along a new transect running from the Horseshoe to the Seine abyssal plains, which is combined with previously available geophysical models from the region. The basement velocity structure at the Seine Abyssal Plain indicates the presence of a highly heterogeneous, thin oceanic crust with local high-velocity anomalies possibly representing zones related to the presence of ultramafic rocks. The integration of this model with previous ones reveals the presence of three oceanic domains offshore SW Iberia: (1) the Seine Abyssal Plain domain, generated during the first stages of slow seafloor spreading in the NE Central Atlantic (Early Jurassic); (2) the Gulf of Cadiz domain, made of oceanic crust generated in the Alpine-Tethys spreading system between Iberia and Africa, which was coeval with the formation of the Seine Abyssal Plain domain and lasted up to the North Atlantic continental breakup (Late Jurassic); and (3) the Gorringe Bank domain, made of exhumed mantle rocks, which formed during the first stages of North Atlantic opening. Our models suggest that the Seine Abyssal Plain and Gulf of Cadiz domains are separated by the Lineament South strike-slip fault, whereas the Gulf of Cadiz and Gorringe Bank domains appear to be limited by a deep thrust fault located at the center of the Horseshoe Abyssal Plain. {\textcopyright}2013. American Geophysical Union. All Rights Reserved.}, keywords = {Central and North Atlantic kinematics, crustal nature, geological domains, gravity modeling, refraction and reflection traveltime tomography, wide-angle seismics}, issn = {21699313}, doi = {10.1002/2013JB010476}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-84896782219\&partnerID=tZOtx3y1}, author = {Mart{\'\i}nez-Loriente, Sara and Sallares, Valenti and Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, Rafael and Da{\~n}obeitia, Juan Jos{\'e} and Zitellini, Nevio} } @article {LoIacono2014316, title = {{The West Melilla cold water coral mounds, Eastern Alboran Sea: Morphological characterization and environmental context}}, journal = {Deep Sea Research Part II: Topical Studies in Oceanography}, volume = {99}, year = {2014}, pages = {316{\textendash}326}, abstract = {Abstract A new mound field, the West Melilla mounds, interpreted as being cold-water coral mounds, has been recently unveiled along the upper slope of the Mediterranean Moroccan continental margin, a few kilometers west of the Cape Tres Forcas. This study is based on the integration of high-resolution geophysical data (swath bathymetry, parametric sub-bottom profiler), \{CTD\} casts, Acoustic Doppler Current Profiler (ADCP), \{ROV\} video and seafloor sampling, acquired during the \{TOPOMED\} \{GASSIS\} (2011) and \{MELCOR\} (2012) cruises. Up to 103 mounds organized in two main clusters have been recognized in a depth range of 299{\textendash}590 m, displaying a high density of 5 mounds/km2. Mounds, 1{\textendash}48 m high above the surrounding seafloor and on average 260 m wide, are actually buried by a 1{\textendash}12 m thick fine-grained sediment blanket. Seismic data suggest that the West Melilla mounds grew throughout the Early Pleistocene{\textendash}Holocene, settling on erosive unconformities and mass movement deposits. During the last glacial{\textendash}interglacial transition, the West Melilla mounds may have suffered a drastic change of the local sedimentary regime during the late Holocene and, unable to stand increasing depositional rates, were progressively buried. At the present day, temperature and salinity values on the West Melilla mounds suggest a plausible oceanographic setting, suitable for live CWCs. Nonetheless, more data is required to groundtruth the West Melilla mounds and better constrain the interplay of sedimentary and oceanographic factors during the evolution of the West Melilla mounds.}, keywords = {Alboran Sea, high-resolution seismics, Quaternary, Swath mapping, \{CWC\} mounds}, issn = {0967-0645}, doi = {http://dx.doi.org/10.1016/j.dsr2.2013.07.006}, url = {http://www.sciencedirect.com/science/article/pii/S0967064513002786}, author = {Iacono, Claudio Lo and Gr{\'a}cia, Eul{\`a}lia and Ranero, C{\'e}sar R and Emelianov, Mikhail and Huvenne, Veerle A I and Bartolom{\'e}, Rafael and Booth-Rea, Guillermo and Prades, Javier and Ambroso, Stefano and Dominguez, Carlos and Griny{\'o}, Jordi and Rubio, Eduardo and Torrent, Josep} } @booklet {Ranero2014, title = {{The Western Mediterranean Pairs of Basin and Arc Systems}}, year = {2014}, month = {feb}, publisher = {Sociedad Geol{\'o}gica de Espa{\~n}a}, abstract = {Ranero, C{\'e}sar R. ... et. al.{\textendash} VIII Congreso Geol{\'o}gico de Espa{\~n}a, 2012, Oviedo}, isbn = {http://hdl.handle.net/10261/92021}, url = {http://digital.csic.es/handle/10261/92021}, author = {Ranero, Cesar R. and Gr{\'a}cia, Eul{\`a}lia and Sallares, Valenti and Garcia, Xavier and Gallart Muset, Josep and Bartolom{\'e}, Rafael and Lo Iacono, Claudio and Martinez-Loriente, S. and Moreno, Ximena and Prada, Manel and Perea, Hector and Zitellini, N.} } @article {Martinez-Loriente2013, title = {{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)}}, journal = {Geochemistry, Geophysics, Geosystems}, volume = {14}, number = {7}, year = {2013}, month = {jul}, pages = {2206{\textendash}2231}, abstract = {Recently acquired high-resolution multichannel seismic profiles together with bathymetric and sub-bottom profiler data from the external part of the Gulf of Cadiz (Iberia-Africa plate boundary) reveal active deformation involving old (Mesozoic) oceanic lithosphere. This area is located 180 km offshore the SW Iberian Peninsula and embraces the prominent NE-SW trending Coral Patch Ridge, and part of the surrounding deep Horseshoe and Seine abyssal plains. E-W trending dextral strike-slip faults showing surface deformation of flower-like structures predominate in the Horseshoe Abyssal Plain, whereas NE-SW trending compressive structures prevail in the Coral Patch Ridge and Seine Hills. Although the Coral Patch Ridge region is characterized by subdued seismic activity, the area is not free from seismic hazard. Most of the newly mapped faults correspond to active blind thrusts and strike-slip faults that are able to generate large magnitude earthquakes (Mw 7.2-8.4). This may represent a significant earthquake and tsunami hazard that has been overlooked so far. Key Points New active structures have been mapped in the Coral Patch Ridge area The newly mapped faults are able to generate large magnitude earthquakes (Mw>7) These new structures may represent a significant earthquake and tsunami hazard {\textcopyright}2013. American Geophysical Union. All Rights Reserved.}, keywords = {blind thrusts, fault-bend folds, Iberia-Africa boundary, multichannel seismics, seismic hazard assessment, strike-slip faults}, issn = {15252027}, doi = {10.1002/ggge.20173}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-84883575301\&partnerID=tZOtx3y1}, author = {Mart{\'\i}nez-Loriente, Sara and Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, Rafael and Sallares, Valenti and Connors, Christopher and Perea, Hector and Lo Iacono, Claudio and Klaeschen, Dirk and Terrinha, Pedro and Da{\~n}obeitia, Juan Jos{\'e} and Zitellini, Nevio} } @inbook {Masana2013a, title = {{Characterizing the seismic potential of the Eastern Betics Shear Zone (EBSZ), a major source of earthquakes in Southeastern Iberia}}, booktitle = {Contribuci{\'o}n de la Geolog{\'\i}a al An{\'a}lisis de la Peligrosidad S{\'\i}smica}, year = {2013}, month = {nov}, pages = {101{\textendash}104}, abstract = {Masana, E. ... et al.{\textendash} Primera Reuni{\'o}n Ib{\'e}rica sobre Fallas Activas y Paleosismolog{\'\i}a. Sig{\"u}enza, Guadalajara, Espa{\~n}a, 27-29 de Octubre de 2010.{\textendash} 4 pages, 1 figure}, isbn = {978-84-693-6088-0}, url = {http://hdl.handle.net/10261/82453}, author = {Masana, E. and Gr{\'a}cia, Eul{\`a}lia and Moreno, Ximena and Bartolom{\'e}, Rafael and Da{\~n}obeitia, Juan Jos{\'e}} } @booklet {Martinez-Loriente2013a, title = {{Pre-stack depth migration seismic imaging of the Coral Patch Ridge and adjacent Horseshoe and Seine Abyssal Plains (Gulf of Cadiz): tectonic implications}}, year = {2013}, month = {apr}, publisher = {Universidad de Oviedo}, abstract = {Peer Reviewed}, url = {http://digital.csic.es/handle/10261/75234}, author = {Martinez-Loriente, S. and Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, Rafael and Klaeschen, D. and Vizcaino, A. and Sallares, Valenti and Da{\~n}obeitia, Juan Jos{\'e} and Zitellini, N.} } @article {Sallares2013, title = {{Seismic evidence of exhumed mantle rock basement at the Gorringe Bank and the adjacent Horseshoe and Tagus abyssal plains (SW Iberia)}}, journal = {Earth and Planetary Science Letters}, volume = {365}, year = {2013}, month = {mar}, pages = {120{\textendash}131}, abstract = {The Gorringe Bank is a gigantic seamount that separates the Horseshoe and Tagus abyssal plains offshore SW Iberia, in a zone that hosts the convergent boundary between the Africa and Eurasia plates. Although the region has been the focus of numerous investigations since the early 1970s, the lack of appropriate geophysical data makes the nature of the basement, and thus the origin of the structures, still debated. In this work, we present combined P-wave seismic velocity and gravity models along a transect that crosses the Gorringe Bank from the Tagus to the Horseshoe abyssal plains. The P-wave velocity structure of the basement is similar in the Tagus and Horseshoe plains. It shows a 2.5-3.0. km-thick top layer with a velocity gradient twice stronger than oceanic Layer 2 and an abrupt change to an underlying layer with a five-fold weaker gradient. Velocity and density is lower beneath the Gorringe Bank probably due to enhanced fracturing, that have led to rock disaggregation in the sediment-starved northern flank. In contrast to previous velocity models of this region, there is no evidence of a sharp crust-mantle boundary in any of the record sections. The modelling results indicate that the sediment overlays directly serpentinite rock, exhumed from the mantle with a degree of serpentinization decreasing from a maximum of 70-80\% under the top of Gorringe Bank to less than 5\% at a depth of \~{}20. km. We propose that the three domains were originally part of a single serpentine rock band, of nature and possibly origin similar to the Iberia Abyssal Plain ocean-continent transition, which was probably generated during the earliest phase of the North Atlantic opening that followed continental crust breakup (Early Cretaceous). During the Miocene, the NW-SE trending Eurasia-Africa convergence resulted in thrusting of the southeastern segment of the exhumed serpentinite band over the northwestern one, forming the Gorringe Bank. The local deformation associated to plate convergence and uplift could have promoted pervasive rock fracturing of the overriding plate, leading eventually to rock disaggregation in the northern flank of the GB, which could be now a potential source of rock avalanches and tsunamis. {\textcopyright} 2013 Elsevier B.V.}, keywords = {Gravity modelling, Mantle exhumation, North Atlantic margin, Travel-time tomography, wide-angle seismics}, issn = {0012821X}, doi = {10.1016/j.epsl.2013.01.021}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-84874491076\&partnerID=tZOtx3y1}, author = {Sallares, Valenti and Mart{\'\i}nez-Loriente, Sara and Prada, Manel and Gr{\'a}cia, Eul{\`a}lia and Ranero, C{\'e}sar and Gutscher, Marc-Andr{\'e} and Bartolom{\'e}, Rafael and Gailler, Audrey and Da{\~n}obeitia, Juan Jos{\'e} and Zitellini, Nevio} } @booklet {Bartolome2013, title = {{Seismic imaging of active faults in the Southern Alboran Sea (SE Iberian Margin): First results of the 2010 EVENT-DEEP cruise}}, year = {2013}, month = {sep}, abstract = {Primera Reuni{\'o}n Ib{\'e}rica sobre Fallas Activas y Paleosismolog{\'\i}a. Sig{\"u}enza (Guadalajara, Espa{\~n}a) 27, 28 y 29 de Octubre de 2010.{\textendash} 4 pages, 4 figures}, isbn = {isbn: 978-84-693-6088-0}, url = {http://digital.csic.es/handle/10261/82462}, author = {Bartolom{\'e}, Rafael and Gr{\'a}cia, Eul{\`a}lia and Lo Iacono, Claudio and Martinez-Loriente, S. and Moreno, Ximena and Perea, Hector and Masana, E. and Team, EVENT-DEEP} } @inbook {Gracia2012, title = {{A Margem Sul Portuguesa profunda}}, booktitle = {Geologia de Portugal}, year = {2012}, pages = {961{\textendash}987}, keywords = {Estratigrafia, Geologia regional, Margem Sul Portuguesa, Morfotect{\'o}nica, Sismotect{\'o}nica}, url = {http://repositorio.lneg.pt/handle/10400.9/2252}, author = {Gr{\'a}cia, Eul{\`a}lia and Gutscher, Marc-Andr{\'e} and Louren{\c c}o, Nuno and Abreu, M. P.} } @booklet {Goldfinger, title = {{Turbidite Event History{\textemdash}Methods and Implications for Holocene Paleoseismicity of the Cascadia Subduction Zone}}, year = {2012}, publisher = {U. S. Geological Survey}, abstract = {Appendices. {\textendash} 170 pages, 64 figures, 13 tables.}, url = {http://digital.csic.es/handle/10261/66386}, author = {Goldfinger, Chris and Nelson, C. Hans and Morey, Ann E. and Johnson, Joel E. and Patton, Jason and Karabanov, Eugene and Guti{\'e}rrez-Pastor, Julia and Eriksson, Andrew T. and Gr{\'a}cia, Eul{\`a}lia and Dunhill, Gita and Enkin, Randolph J. and Dallimore, Audrey and Vallier, Tracy} } @booklet {Sallares, title = {{Active faulting and slope failure in the Iberian margins: towards offshore geohazard mitigation}}, year = {2011}, publisher = {International Commission for the Scientific Exploration of the Mediterranean Sea}, abstract = {12 pages, 7 figures.}, url = {http://digital.csic.es/handle/10261/57350}, author = {Sallares, Valenti and Gr{\'a}cia, Eul{\`a}lia and Urgeles, Roger} } @article {Coiras2011, title = {{Automatic Segmentation of Multi-Beam Data for Predictive Mapping of Benthic Habitats on the Chella Seamount (North-Eastern Alboran Sea, Western Mediterranean)}}, journal = {IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing}, volume = {4}, number = {4}, year = {2011}, month = {dec}, pages = {809{\textendash}813}, abstract = {A reliable and objective classification method has been produced for the differentiation of benthic habitats in the seamount regions of the North-Eastern Alboran Sea. Acoustic backscatter and depth measurements from multi-beam data are automatically fused and then classified using video transects of known cold-water coral ecosystems as ground-truth. Results of the classification reveal the locations of potentially similar habitats in the region, and could be used as a base map for the planning of future scientific campaigns in the area. {\textcopyright} 2008 IEEE.}, keywords = {Acoustic imaging, automatic classification, benthic habitats, data fusion, marine geology}, issn = {1939-1404}, doi = {10.1109/JSTARS.2011.2123874}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-83655198294\&partnerID=tZOtx3y1}, author = {Coiras, Enrique and Lo Iacono, Claudio and Gr{\'a}cia, Eul{\`a}lia and Da{\~n}obeitia, Juanjo and Sanz, Jos{\'e} Luis} } @article {Sallares2011, title = {{Seismic evidence for the presence of Jurassic oceanic crust in the central Gulf of Cadiz (SW Iberian margin)}}, journal = {Earth and Planetary Science Letters}, volume = {311}, number = {1-2}, year = {2011}, month = {nov}, pages = {112{\textendash}123}, abstract = {We investigate the crustal structure of the SW Iberian margin along a 340. km-long refraction and wide-angle reflection seismic profile crossing from the central Gulf of Cadiz to the Variscan continental margin in the Algarve, Southern Portugal. The seismic velocity and crustal geometry model obtained by joint refraction and reflection travel-time inversion reveal three distinct crustal domains: the 28-30. km-thick Variscan crust in the north, a 60. km-wide transition zone offshore, where the crust abruptly thins \~{}. 20. km, and finally a \~{}. 7. km-thick and \~{}. 150. km-wide crustal section that appears to be oceanic in nature. The oceanic crust is overlain by a 1-3. km-thick section of Mesozoic to Eocene sediments, with an additional 3-4. km of low-velocity, unconsolidated sediments on top belonging to the Miocene age, Gulf of Cadiz imbricated wedge. The sharp transition between continental and oceanic crust is best explained by an initial rifting setting as a transform margin during the Early Jurassic that followed the continental break-up in the Central Atlantic. The narrow oceanic basin would have formed during an oblique rifting and seafloor spreading episode between Iberia and Africa that started shortly thereafter (Bajocian) and lasted up to the initiation of oceanic spreading in the North Atlantic at the Tithonian (late Jurassic-earliest Cretaceous). The velocity model displays four wide, prominent, south-dipping low-velocity anomalies, which seem to be related with the presence of crustal-scale faults previously identified in the area, some of which could well be extensional faults generated during this rifting episode. We propose that this oceanic plate segment is the last remnant of an oceanic corridor that once connected the Alpine-Tethys with the Atlantic ocean, so it is, in turn, one of the oldest oceanic crustal fragments currently preserved on Earth. The presence of oceanic crust in the central Gulf of Cadiz is consistent with geodynamic models suggesting the existence of a narrow, westward retreating oceanic slab beneath the Gibraltar arc-Alboran basin system. {\textcopyright} 2011 Elsevier B.V.}, keywords = {Geodynamic evolution, Jurassic oceanic crust, Refraction and reflection travel-time tomography, SW Iberian margin, Uncertainty analysis, wide-angle seismics}, issn = {0012821X}, doi = {10.1016/j.epsl.2011.09.003}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-81155155560\&partnerID=tZOtx3y1}, author = {Sallares, Valenti and Gailler, Audrey and Gutscher, Marc-Andr{\'e} and Graindorge, David and Bartolom{\'e}, Rafael and Gr{\'a}cia, Eul{\`a}lia and D{\'\i}az, Jordi and Da{\~n}obeitia, Juan Jos{\'e} and Zitellini, Nevio} } @booklet {Gracia2010a, title = {{Characterizing active faults and associated mass transport deposits in the South Iberian Margin (Alboran Sea and Gulf of Cadiz): On-fault and off-fault paleoseismic evidence}}, journal = {Res{\'u}menes de la 1{\textordfeminine} Reuni{\'o}n Ib{\'e}rica sobre Fallas Activas y Paleosismolog{\'\i}a}, year = {2010}, month = {sep}, pages = {163{\textendash}166}, abstract = {Gr{\`a}cia, Eul{\`a}lia ... et al.{\textendash} Primera Reuni{\'o}n Ib{\'e}rica sobre Fallas Activas y Paleosismolog{\'\i}a. Sig{\"u}enza (Guadalajara, Espa{\~n}a) 27, 28 y 29 de Octubre de 2010.{\textendash} 4 pages, 1 figure}, isbn = {isbn: 978-84-693-6088-0}, url = {http://digital.csic.es/handle/10261/82464}, author = {Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, Rafael and Lo Iacono, Claudio and Moreno, Ximena and Martinez-Loriente, S. and Perea, H and Masana, E and Pall{\`a}s, R and S., Diez and Da{\~n}obeitia, Juan Jos{\'e} and Terrinha, P and Zitellini, N} } @article {Gracia2010, title = {{Holocene earthquake record offshore Portugal (SW Iberia): testing turbidite paleoseismology in a slow-convergence margin}}, journal = {Quaternary Science Reviews}, volume = {29}, number = {9-10}, year = {2010}, month = {may}, pages = {1156{\textendash}1172}, abstract = {The SW margin of the Iberian Peninsula hosts the present-day boundary between the Eurasian and African Plates. Convergence (4-5 mm/yr) is accommodated through a wide deformation zone characterized by moderate magnitude seismic activity. This zone has also been the source of the most important seismic events in Western Europe, such as the 1755 Lisbon Earthquake and Tsunami and 1969 Horseshoe Earthquake. Despite efforts to identify active seismogenic structures in the Gulf of Cadiz in the last ten years, little is known about its paleoseismic history. The turbidite paleoseismology approach was applied for the first time in a low-rate convergent margin to determine the recurrence interval of large earthquake events that occurred in SW Iberia during the Holocene. Four sediment cores collected at strategically located sites offshore Portugal (i.e. Tagus Abyssal Plain, Infante Don Henrique Basin and Horseshoe Abyssal Plain) reveal that these deep-sea basins preserve a record of episodic deposition of turbidites. In the SW Iberian Margin excluding special climatic events, earthquakes are the most likely triggering mechanism for synchronous, widely-spaced distributed turbidites during the Holocene, when the sea level was relatively stable. Age correlation together with textural, mineralogical, physical properties and geochemical signatures of the new cores complemented by pre-existing multicores and gravity cores reveals a total of 7 widespread turbidite events for the Holocene. Precise dating of the most recent turbidite event (E1) based on 210Pb and 137Cs geochronology provides an age of AD 1971 {\textpm} 3. This age corresponds to a high-magnitude instrumental earthquake in the region: the 1969 Horseshoe Earthquake (Mw 8.0). Calibrated 14C ages of subsequent widespread turbidite events (E3 and E5) correlate with the dates of important historical earthquakes and paleotsunami deposits in the Gulf of Cadiz area, such as AD 1755 and 218 BC, respectively. If older synchronous events (E6, E8, and E10) with ages ranging from 4960-5510 yr BP to 8715-9015 yr BP are also taken into account, a great earthquake recurrence interval of about 1800 years is obtained for the Holocene. Our correlations suggest that the turbidite record may be considered as a proxy for paleoseismic activity in low-convergence rate margins, and a valuable complementary tool in earthquake and tsunami hazard assessment along the coasts of the Iberian Peninsula and North Africa. {\textcopyright} 2010 Elsevier Ltd. All rights reserved.}, issn = {02773791}, doi = {10.1016/j.quascirev.2010.01.010}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-77950629573\&partnerID=tZOtx3y1}, author = {Gr{\'a}cia, Eul{\`a}lia and Vizcaino, Alexis and Escutia, Carlota and Asioli, Alessandra and Rod{\'e}s, {\'A}ngel and Pall{\`a}s, Raimon and Garcia-Orellana, Jordi and Lebreiro, Susana and Goldfinger, Chris} } @booklet {Moreno2013, title = {{Onshore-Offshore active tectonics along the Carboneras Fault Zone (Eastern Betic Cordilleras)}}, journal = {Contribuci{\'o}n de la Geolog{\'\i}a al An{\'a}lisis de la Peligrosidad S{\'\i}smica}, year = {2010}, month = {sep}, pages = {105{\textendash}107}, abstract = {Primera Reuni{\'o}n Ib{\'e}rica sobre Fallas Activas y Paleosismolog{\'\i}a. Sig{\"u}enza (Guadalajara, Espa{\~n}a) 27, 28 y 29 de Octubre de 2010.{\textendash} 3 pages, 1 figure}, isbn = {isbn: 978-84-693-6088-0}, url = {http://digital.csic.es/handle/10261/82454}, author = {Moreno, Ximena and Masana, Eul{\`a}lia and Gr{\'a}cia, Eul{\`a}lia and Bartolom{\'e}, R and Rod{\'e}s, {\'A}ngel and Pall{\`a}s, Raimon} } @article {Biescas2010, title = {{Seismic imaging of staircase layers below the Mediterranean Undercurrent}}, journal = {Deep Sea Research Part I: Oceanographic Research Papers}, volume = {57}, number = {10}, year = {2010}, month = {oct}, pages = {1345{\textendash}1353}, abstract = {Seismic images of staircase layers at the bottom of the Mediterranean Undercurrent with a lateral coherence up to 50. km and a horizontal resolution of \~{}10m are presented. The images show clearly the interaction between these staircase layers and other flow structures such as meddies, seamounts and internal waves. The staircase layers were imaged during two different surveys that used different sound sources. Comparison between seismic images and historical oceanographic observations illustrates the importance of using a seismic source adapted to the vertical scale of the oceanographic target to be imaged. Wavelengths larger than the size of the staircase structure distort the image in the vertical. For optimal imaging, deconvolution of the data is required. {\textcopyright} 2010 Elsevier Ltd.}, keywords = {Boundary mixing, Gulf of Cadiz, Meddy, Mediterranean Undercurrent, Seismic oceanography, Thermohaline staircase layers}, issn = {09670637}, doi = {10.1016/j.dsr.2010.07.001}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-77956879722\&partnerID=tZOtx3y1}, author = {Biescas, Berta and Armi, Larry and Sallares, Valenti and Gr{\'a}cia, Eul{\`a}lia} } @booklet {LoIacono2010a, title = {{Very high-resolution seismo-acoustics in the study of seagrasses. The case of posidonia oceanica (Mediterranean sea)}}, year = {2010}, month = {mar}, publisher = {SARTI (Technological Development Centre of Remote Acquisition and Data processing Systems)}, abstract = {The study of active structures offshore requires very-high resolution seismic imaging in order to observe the most recent layers below sea floor. In the other hand, high penetration methods are necessary to observe deeper reflections for understanding the evolution of the structure throughout the time. The aim of our study is to establish the seismic potential of the offshore segment of the Carboneras Fault, Eastern Betics, based on multiscale seismic imaging. Three different scale methods have been acquired and are compared here: very-high-resolution sub-bottom profiler TOPAS, very-high-resolution single-channel seismic (Sparker) and high-resolution multi-channel seismic. From seismic profiles, faulted Quaternary layers suggest that the Carboneras Fault is active. Sediment coring and dating analysis are used to consider ages for key reflectors observed in TOPAS profiles, and a change in the vertical slip-rate through the Quaternary is inferred.}, keywords = {{\`A}rees tem{\`a}tiques de la UPC::Enginyeria electr{\`o}nica, Holocene, Mediterranean Sea, Non linear seismo-acoustics, Seagrasses}, url = {http://upcommons.upc.edu//handle/2099/8613}, author = {Lo Iacono, Claudio and Gr{\'a}cia, Eul{\`a}lia and Da{\~n}obeitia, Juan Jos{\'e}} } @article {Bartolome2009, title = {{Multiscale seismic imaging of active faults at sea}}, journal = {Sea Technology}, volume = {50}, number = {2}, year = {2009}, pages = {10{\textendash}14}, issn = {00933651}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-62749191283\&partnerID=tZOtx3y1}, author = {Bartolom{\'e}, Rafael and Iacono, Claudio Lo and Gr{\'a}cia, Eul{\`a}lia} } @article {LoLacono2008, title = {{Acoustic detection of deep coral mounds}}, journal = {Sea Technology}, volume = {49}, number = {8}, year = {2008}, pages = {35{\textendash}38}, issn = {00933651}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-52349109268\&partnerID=tZOtx3y1}, author = {Lo Lacono, Claudio and Gr{\'a}cia, Eul{\`a}lia and Da{\~n}obeitia, Juan Jos{\'e}} } @article {LoIacono2008, title = {{Seafloor characterization and backscatter variability of the Almer{\'\i}a Margin (Alboran Sea, SW Mediterranean) based on high-resolution acoustic data}}, journal = {Marine Geology}, volume = {250}, number = {1-2}, year = {2008}, month = {apr}, pages = {1{\textendash}18}, abstract = {An acoustic study of the Almer{\'\i}a Margin (eastern Alboran Sea, SW Mediterranean) was carried out by means of an integrated dataset, comprising deep-towed TOBI sidescan sonar, swath-bathymetry, TOPAS high-resolution seismics and sediment gravity cores. The Almer{\'\i}a Margin is a complex system dominated by volcanic and tectonic features shaped by recent sedimentary processes, in which a regional hemipelagic sedimentation is intercalated by sporadic gravitative events. The aim of this work is twofold. The first objective is to recognize the sedimentary and tectonic features that shape the Almeria Margin. The main morpho-sedimentary and morpho-structural elements observed are: the Almer{\'\i}a canyon/channel Turbidite System, the Dal{\'\i}as Tributary Valley System, landslides, active faults and folds and volcanic banks. The second aim is to explore and quantify the surface and subsurface seafloor parameters that characterize the backscatter of the study area. Sedimentary, geomorphological and biological elements that play a role in the acoustic signature of the Almer{\'\i}a Margin were detected. Nevertheless, it should be noted that seafloor acoustic backscatter is also affected by geometrical and instrumental factors. Despite the wide variability of the environments studied, a low average acoustic backscatter reflects a diffused draping of hemipelagic sedimentation in the area. Higher backscatter values were observed at the top of some volcanic banks, along the Almer{\'\i}a canyon, and in the shallower sector of the Dal{\'\i}as tributary valley system. The influence of subseafloor properties in the acoustic signature of the area was revealed by backscatter-grain size correlations, which were carried out for different depth intervals in sediment cores collected in the Almer{\'\i}a Turbidite System. A poor relationship was found between backscatter and superficial silty sediments of the area, whereas a higher correlation resulted in the upper 50~cm. The presence of subsurface turbidites in the cores associated with the higher backscatter values suggests volume interface scattering of these sandy layers as a controlling factor of the acoustic signature obtained in the Almer{\'\i}a Margin. On the other hand, in rough settings such as the ones observed in the Dal{\'\i}as Tributary Valley System, topographic relief of up to 1-1.5~m strongly interacted with the TOBI acoustic pulse. This suggests that large-scale roughness is an additional parameter that characterizes the acoustic strength of the area. Extremely high reflective patches distributed along some of the volcanic banks (Chella and Pollux Banks) for depths ranging from 230 to 470~m coincide with areas where carbonate cold water coral mounds develop. In the TOBI images, coral facies reach the maximum value of acoustic backscatter, which is probably related to the rough morphology of coral ecosystems. The position of coral mounds in the banks suggests that the occurrence of strong bottom currents and reduced sedimentary inputs are environmental factors that favour their settling and development in the Almer{\'\i}a Margin. {\textcopyright} 2007 Elsevier B.V. All rights reserved.}, keywords = {backscatter, coral mounds, deep-towed sidescan sonar TOBI, high-resolution seismics, Mediterranean Sea, South Iberian Margin, swath-bathymetry}, issn = {00253227}, doi = {10.1016/j.margeo.2007.11.004}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-41349119993\&partnerID=tZOtx3y1}, author = {Lo Iacono, Claudio and Gr{\'a}cia, Eul{\`a}lia and Diez, Susana and Bozzano, Graziella and Moreno, Ximena and Da{\~n}obeitia, Juanjo and Alonso, Bel{\'e}n} } @article {LoIacono2008a, title = {{Very high-resolution seismo-acoustic imaging of seagrass meadows (Mediterranean Sea): Implications for carbon sink estimates}}, journal = {Geophysical Research Letters}, volume = {35}, number = {18}, year = {2008}, month = {sep}, pages = {L18601}, abstract = {Posidonia oceanica is a widespread coastal Mediterranean seagrass which accumulates in its subsurface large quantities of organic material derived from its roots, rhizomes and leaf sheaths embedded in sandy sediments. These organic deposits may be up to several meters thick as they accumulate over thousands of years forming the matte, whose high content in organic carbon plays a major role in the global ocean carbon cycle. In this study, very high-resolution seismo-acoustic methods were applied to image the subsurface features of a P. oceanica seagrass meadow at Portlligat (Cadaqu{\'e}s, Girona, Spain), in the NW-Mediterranean Sea. Our findings yield fresh insights into the settling of the P. oceanica meadow in the study area, and define with unprecedented detail the potential volume occupied by the matte. A strong reflector, located from 4.3 to 11.7 m depth, was recognized in several seismo-acoustic profiles as the substratum on which P. oceanica first settled in the study area. A 3D bathymetric model of this substratum allowed us to reconstruct the Portlligat palaeo-environment prior to the settling of P. oceanica, which corresponded to a shallow coastal setting protected from the open sea. A core drilled in the meadow at Portlligat revealed the presence of a 6 in thick dense matte composed of medium to coarse, sandy sediments mixed with plant debris and bioclasts. Radiocarbon datings revealed a constant accretion rate of the matte of about 1.1 m/kyr. Gravelly bioclastic deposits observed at the base of the core correspond to the base of the matte and gave a date of 5616 {\textpm} 46 Cal yr BP. For the first time, very high-resolution marine geophysical techniques allowed us to accurately define the volume occupied by P. oceanica matte, which in the study area reaches up to almost 220,000 {\textpm} 17,400 M3. This result is an important step forward in our efforts to estimate the size of the carbon sink represented by P. oceanica meadows along the Mediterranean coasts significantly contributing to the biosphere carbon cycle. Copyright 2008 by the American Geophysical Union.}, issn = {0094-8276}, doi = {10.1029/2008GL034773}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-57849159443\&partnerID=tZOtx3y1}, author = {Lo Iacono, Claudio and Mateo, Miguel Angel and Gr{\'a}cia, Eul{\`a}lia and Guasch, Lluis and Carbonell, Ram{\'o}n and Serrano, Laura and Serrano, Oscar and Da{\~n}obeitia, Juanjo} } @article {Larrasoana2007, title = {{Diagenetic formation of greigite and pyrrhotite in gas hydrate marine sedimentary systems}}, journal = {Earth and Planetary Science Letters}, volume = {261}, number = {3-4}, year = {2007}, pages = {350{\textendash}366}, abstract = {Mineral magnetic results and electron microscope observations from gas hydrate-bearing marine sediments cored at southern Hydrate Ridge during Ocean Drilling Program Leg 204 (Sites 1244 to 1252, Cascadia Margin, offshore Oregon) demonstrate that authigenic greigite and pyrrhotite formed as a byproduct of microbially-mediated diagenetic reactions in the sulphate, the anaerobic oxidation of methane (AOM), and the methanic/gas hydrate zones. Geochemical conditions favourable for formation and preservation of greigite and pyrrhotite appear to be a limited source of sulphide, whether it derives from microbially-driven sulphate reduction in the sulphate zone, in the AOM zone or in deep sediments undergoing AOM, so that pyritization reactions are not driven to completion. Our results indicate that rock magnetic identification of greigite and pyrrhotite should be useful for detecting ancient gas hydrate systems in the marine sedimentary record, because it can enable rapid screening of ancient sediments for potential horizons where methane and disseminated gas hydrates might have occurred. Formation of authigenic greigite and pyrrhotite at different depths within the gas hydrate stability zone also implies that the magnetization of the host sediments will have been acquired at variable times, which is likely to compromise paleomagnetic results from greigite- and pyrrhotite-bearing marine sediments. {\textcopyright} 2007 Elsevier B.V. All rights reserved.}, keywords = {anaerobic oxidation of methane, diagenesis, gas hydrate, greigite, iron sulphide, marine sediments, methane, mineral magnetism, pyrrhotite, siderite, sulphate reduction}, issn = {0012821X}, doi = {10.1016/j.epsl.2007.06.032}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-34548475090\&partnerID=tZOtx3y1}, author = {Larrasoa{\~n}a, Juan C. and Roberts, Andrew P. and Musgrave, Robert J. and Gr{\'a}cia, Eul{\`a}lia and Pi{\~n}ero, Elena and Vega, Marta and Mart{\'\i}nez-Ruiz, Francisca} } @article {Pinero2007, title = {{Gas hydrate disturbance fabrics of southern Hydrate Ridge sediments (ODP Leg 204): Relationship with texture and physical properties}}, journal = {Geo-Marine Letters}, volume = {27}, number = {2-4}, year = {2007}, pages = {279{\textendash}288}, abstract = {Soupy and mousse-like fabrics are disturbance sedimentary features that result from the dissociation of gas hydrate, a process that releases water. During the core retrieval process, soupy and mousse-like fabrics are produced in the gas hydrate-bearing sediments due to changes in pressure and temperature conditions. Therefore, the identification of soupy and mousse-like fabrics can be used as a proxy for the presence of gas hydrate in addition to other evidence, such as pore water freshening or anomalously cool temperature. We present here grain-size results, mineralogical composition and magnetic susceptibility data of soupy and mousse-like samples from the southern Hydrate Ridge (Cascadia accretionary complex) acquired during Leg 204 of the Ocean Drilling Program. In order to study the relationship between sedimentary texture and the presence of gas hydrates, we have compared these results with the main textural and compositional data available from the same area. Most of the disturbed analyzed samples from the summit and the western flank of southern Hydrate Ridge show a mean grain size coarser than the average mean grain size of the hemipelagic samples from the same area. The depositional features of the sediments are not recognised due to disturbance. However, their granulometric statistical parameters and distribution curves, and magnetic susceptibility logs indicate that they correspond to a turbidite facies. These results suggest that gas hydrates in the southern Hydrate Ridge could form preferentially in coarser grain-size layers that could act as conduits feeding gas from below the BSR. Two samples from the uppermost metres near the seafloor at the summit of the southern Hydrate Ridge show a finer mean grain-size value than the average of hemipelagic samples. They were located where the highest amount of gas hydrates was detected, suggesting that in this area the availability of methane gas was high enough to generate gas hydrates, even within low-permeability layers. The mineralogical composition of the soupy and mousse-like sediments does not show any specific characteristic with respect to the other samples from the southern Hydrate Ridge. {\textcopyright} Springer-Verlag 2007.}, issn = {0276-0460}, doi = {10.1007/s00367-007-0077-z}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-34250188050\&partnerID=tZOtx3y1}, author = {Pi{\~n}ero, Elena and Gr{\'a}cia, Eul{\`a}lia and Mart{\'\i}nez-Ruiz, Francisca and Larrasoa{\~n}a, Juan Cruz and Vizcaino, Alexis and Ercilla, Gemma} } @conference {Urgeles2007, title = {{Scientific Ocean Drilling Behind the Assessment of Geo-hazards from Submarine Slides}}, booktitle = {Eos}, volume = {88}, number = {17}, year = {2007}, pages = {192}, issn = {00963941}, url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-34249827905\&partnerID=tZOtx3y1}, author = {Urgeles, Roger and Camerlenghi, Angelo and Ercilla, Gemma and Anselmetti, Flavio and Br{\"u}ckmann, Warner and Canals, Miquel and Gr{\'a}cia, Eul{\`a}lia and Locat, Jacques and Krastel, Sebastian and Solheim, Anders} }