Your search keyword '"Marta Ribó"' showing total 16 results

1. Sediment characteristics and internal architecture of offshore sand ridges on a tideless continental shelf (western Mediterranean)

Author

Pere Puig, Marta Ribó, Jorge Guillén, Gonzalo Simarro, Araceli Muñoz, Albert Palanques, Ruth Durán, Generalitat de Catalunya, and Agencia Estatal de Investigación (España)

Subjects

Mediterranean climate, geography, Sedimentary structures, Bedform, geography.geographical_feature_category, Continental shelf, Geography, Planning and Development, Coastal protection, Sediment, Storm-dominated sand ridges, Preservation, Oceanography, Sustainability, Earth and Planetary Sciences (miscellaneous), Submarine pipeline, Palaeotopography, Sand sources, Architecture, Bedforms, Geology, Earth-Surface Processes

Abstract

15 pages, 13 figures, An integrated approach combining swath bathymetry, an extensive dataset of vibrocores and high‐resolution seismic reflection data was used to assess the origin and evolution of offshore sand ridges on a tideless continental shelf (Gulf of Valencia, western Mediterranean). The sand ridges are located in the mid‐outer shelf at 55–85 m water depth, obliquely oriented to the shoreline. They are 1.5 to 7 m high, with a wavelength between 600 and 1,100 m and a mean height‐to‐wavelength ratio of 0.004. The sand ridges are composed of well‐sorted medium sand and are partially covered by a mud layer, evidencing a moribund stage. They overlie an erosion surface that locally crops out at the seafloor and is interpreted as the Holocene wave‐ravinement surface. In the sediment cores, this surface corresponds to an erosional lag composed of coarse sand and gravel with pebbles. Small topographic irregularities on this surface are interpreted as shoreline‐associated features that may act as the precursor for ridge development. Their preservation within the sand ridges could be related to the hardness of these features. Internally, the sand ridges display high‐angle dipping reflections, indicating ridge migration towards the southeast in the direction of the present‐day sediment transport direction. The presence of interbedded mud layers, associated with these reflections, indicates intermittent episodes of mud deposition when active. The internal architecture of some small ridges also provides new insights into their transition from an active to moribund state, as evidenced by a change in the geometry of the internal units from progradational to aggradational, finally being overlain by onlapping finer deposits over the flanks and in the troughs. The Gulf of Valencia sand ridge field constitutes a valuable potential sand resource of 22 million m3 of well‐sorted medium and coarse sand with limited mud content, which must be preserved as a strategic sand reservoir. © 2020 John Wiley & Sons, Ltd, This research was supported by the projects FORMED (CGL2012-33989) and COSTEM (CTM2009-07806). [...] R. Durán is supported by the Ocean and Littoral Sedimentary Process Consolidated http://mc.manuscriptcentral.com/esp Earth Surface Processes and Landforms For Peer Review Research Group by the Generalitat de Catalunya grant (2017 SGR-863), With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020

2. Shelf sand supply determined by glacial-age sea-level modes, submerged coastlines and wave climate

Author

Philip E O'Brien, Thomas R. Mortlock, Marta Ribó, and Ian Goodwin

Subjects

geography, Multidisciplinary, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Physical oceanography, Continental shelf, lcsh:R, lcsh:Medicine, 010502 geochemistry & geophysics, 01 natural sciences, Article, Deposition (geology), Oceanography, Palaeoceanography, Interglacial, Ice age, lcsh:Q, Glacial period, lcsh:Science, Quaternary, Sediment transport, Sea level, Geology, 0105 earth and related environmental sciences

Abstract

Submerged paloeshorelines preserved on the continental shelf indicate the depths of the most frequent (modal) low sea-levels within the glacial stages of the Late Quaternary. Here we have determined the south-east Australian shelf configuration when sea level was 40 m and 60 m below present-day sea-level (depths of the most persistent paleoshorelines within the last 120 ka), and we resolve the wave climate variations influencing the sediment transport pathways over this period. We present evidence demonstrating that the combination of shelf morphological evolution, changes in sea-level and variations in wave climate is responsible for latitudinal changes in sediment transport and deposition during the interglacial states. The paleoshoreline and shelf evolution is key to understanding the distribution of present-day shelf sand deposits and the contemporary sand budget response to future wave climate changes.

Published

2020

3. Environmental controls on particle fluxes in the Gulf of Valencia, NW Mediterranean

Author

Enrique Isla, Marta Ribó, Pere Puig, Ministerio de Economía y Competitividad (España), and Agencia Estatal de Investigación (España)

Subjects

Mediterranean climate, 010504 meteorology & atmospheric sciences, Flux, Biogenic silica, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Geochemistry and Petrology, Phytoplankton, Organic matter, Valencia, 0105 earth and related environmental sciences, chemistry.chemical_classification, geography, geography.geographical_feature_category, Particle fluxes, biology, Continental shelf, Geology, Pelagic sediment, biology.organism_classification, NW Mediterranean, chemistry, Pelagic sediments, Shelf and slope processes, Biogenic fluxes

Abstract

13 pages, 12 figures, 2 tables, supplementary material https://doi.org/10.1016/j.margeo.2020.106377, Three instrumented lines were installed on the continental slope and the basin of the Gulf of Valencia for thirteen months (May 2010 to June 2011) aiming to study particle fluxes and their relationship with environmental parameters. Total mass flux varied between 52 mg m−2 d−1 in the central part of the basin and 7199 mg m−2 d−1 in the northern slope sector. The main biogenic constituent was calcium carbonate (estimated fraction) representing more than 26% of the total flux, whereas organic matter and biogenic silica add together 400 m−3 s−1 can be detected at least 155 km to the southwest. The temporal variation of satellite-derived chlorophyll-a abundance and organic matter flux indicated that biogenic material collected in the Gulf of Valencia is related to sea surface spring phytoplankton blooms developing in the northwestern Mediterranean. However, the temporal variation of biogenic silica corresponded better with the usual pattern of deep chlorophyll-a maxima reached during the fall season, suggesting that diatoms are a main component in subsurface phytoplankton blooms, This research was supported by the Spanish Ministry of Economy and Competitiveness research project COSTEM (CTM2009–07806), With the funding support of the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2019-000928-S), of the Spanish Research Agency (AEI)

Published

2020

4. Morphobathymetric analysis of the large fine-grained sediment waves over the Gulf of Valencia continental slope (NW Mediterranean)

Author

Albert Palanques, Claudio Lo Iacono, Pere Puig, Pere Masqué, Marta Ribó, Juan José Tamayo Acosta, Araceli Muñoz, Jorge Guillén, María Gómez Ballesteros, Ministerio de Economía y Competitividad (España), Institución Catalana de Investigación y Estudios Avanzados, and University of Western Australia

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Continental shelf, Sediment, Internal wave, 010502 geochemistry & geophysics, 01 natural sciences, Deposition (geology), NW Mediterranean, Mediterranean sea, Sediment waves, Bathymetry, Crest, Near-inertial internal waves, Gulf of Valencia, Geomorphology, Sediment transport, Morphobathymetric analysis, Seismic stratigraphy, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

16 pages, 13 figures, 1 table, Detailed analysis of recently acquired swath bathymetry, together with high-resolution seismic profiles and bottom sediment samples, revealed the presence of large-scale fine-grained sediment waves over the Gulf of Valencia continental slope. As many other deep-water sediment waves, these features were previously attributed to gravitational slope failure, related to creep-like deformation, and are here reinterpreted as sediment wave fields extending from 250m depth to the continental rise, at ~850m depth. Geometric parameters were computed from the high-resolution multibeam dataset. Sediment wave lengths range between 500 and 1000m, and maximum wave heights of up to 50m are found on the upper slope, decreasing downslope to minimum values of 2m high. Sediment waves on the lower part of the slope are quasi-stationary vertically accreting, whereas they show an upslope migrating pattern from the mid-slope to the upper part of the continental slope. High-resolution seismic profiles show continuous internal reflectors, with sediment waves merging down-section and sediment wave packages decreasing in thickness downslope. These sediment packages are thicker on the crest of each individual sediment wave and thinner on the downslope flank. 210Pb analyses conducted on sediment cores collected over the sediment wave fields also indicate slightly higher sediment accumulation rates on the wave crests. Sediment wave formation processes have been inferred from contemporary hydrodynamic observations, which reveal the presence of near-inertial internal waves interacting with the Gulf of Valencia continental slope. Internal wave activity is suggested to be the preferential mechanism for the transport and deposition of sediment, and the maintenance of the observed sediment wave fields. © 2015 Elsevier B.V., This work was funded by the project COSTEM (CMT2009-07806) and FORMED (CGL2012-33989). [...] The author M. Ribó is supported by a FPI grant (Ref. BES-2010-029949) fromthe Spanish Ministry of Economy and Competitiveness. P. Masqué acknowledges the financial support through the ICREA Academia award and by a Gledden Visiting Fellowship from the Institute of Advanced Studies, The University of Western Australia

Published

2016

5. Large sediment waves over the Gulf of Roses upper continental slope (NW Mediterranean)

Author

Pere Puig, Jorge Guillén, Marta Ribó, David Van Rooij, Ruth Durán, Pere Masqué, and Generalitat de Catalunya

Subjects

Mediterranean climate, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Dense shelf water cascading (DSWC), Continental shelf, Sediment, Geology, Submarine canyon, 010502 geochemistry & geophysics, Oceanography, Oblique angle, 01 natural sciences, Water depth, NW Mediterranean Sea, Geochemistry and Petrology, Sediment waves, Bathymetry, Quaternary, Geomorphology, 0105 earth and related environmental sciences, Continental slope

Abstract

13 pages, 8 figures, 2 tables, Large sediment waves have been observed over the Gulf of Roses (GoR) continental slope (NW Mediterranean), developed between ~200 and ~400 m water depth. Geometric parameters computed from the acquired swath bathymetry revealed mean wave lengths of ~2000 m, and maximum wave heights of ~60 m. Single-channel reflection seismic profiles provided information on the sediment wave internal structure and the Quaternary stratigraphic architecture of the GoR outer shelf and slope. Seven main seismic units could be identified, with continuous development of sediment waves over the outer continental shelf and upper slope, showing differences in wave height and length. The seismic units are differentiated by erosional surfaces that can be followed from the outer shelf down the slope, and which have been correlated with Pleistocene eustatic oscillations. Sediment cores were collected over the sediment wave crests and troughs, and grain size distribution and sediment accumulation rates were analysed. Results show a dominant fraction of fine sediments, allowing classifying the observed bedforms as mud waves. Calculated sediment accumulation rates ranged between 0.08 and 0.18 cm/y, with no clear sedimentation pattern (e.g. differential sediment deposition rates) observed between wave crests and troughs. Nevertheless, the presence of thick surface mixed layers and the increase of the sand fraction in the upper sections of the cores indicate that the surface sediments are affected by bottom trawling activities, since the area is highly impacted by this human activity. The sediment waves observed over the GoR slope are most likely to be formed by bottom currents generated by overflows of dense water originated in the Gulf of Lions shelf, which cascade downslope in an oblique angle with respect the main bathymetric contours. This study offers new insights on the role of dense shelf water cascading processes and associated off-shelf sediment transport reshaping the morphology of the open-slope regions, This work was funded by the Spanish grants FORMED (CGL2012-33989) and ABIDES (CTM2015-65142-R) and by the Generalitat de Catalunya supporting grants 2014 SGR-1642 and 2014 SGR-1356

Published

2018

6. (Sub-)inertial wave boundary turbulence in the Gulf of Valencia

Author

Hans van Haren, Pere Puig, and Marta Ribó

Subjects

geography, Promontory, geography.geographical_feature_category, Continental shelf, Turbulence, Baroclinity, Geophysics, Oceanography, Atmospheric sciences, Inertial wave, Seafloor spreading, Boundary current, Boundary layer, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Geology

Abstract

The bottom boundary layer above sloping topography can be highly turbulent, even in deep seas. This is demonstrated here using high-resolution 1-Hz sampling temperature sensors that were moored for 5 months every 0.5 m between 6.5 and 61 m above a 572 m deep seafloor promontory on the continental slope off Valencia, Spain. Using these data, turbulence parameters have been estimated. With time and in the vertical, values vary over four orders of magnitude. They have a dominant local inertial period which is modulated by an about 11 day periodicity associated with variations in a baroclinic unstable boundary current. When this current is strong and Eastward, the upslope phase of inertial wave generates convective turbulence which reaches closest to the bottom and therefore can effect sediment dispersal. In late winter, equally strong shear-induced turbulence in 50 m high Kelvin-Helmholtz (K-H) overturns is forced by 0.2 m s-1 off/downslope motions, which are preceded by periods of warming of a few 0.01 degrees C before the cooler near-bottom water is suddenly flushed over the promontory into the basin. Such anomalously large K-H overturns occurred 6 times in the investigated winter period.

Published

2013

7. Nepheloid layer distribution in the Gulf of Valencia, northwestern Mediterranean

Author

Albert Palanques, Jordi Salat, Pere Puig, and Marta Ribó

Subjects

geography, Water mass, geography.geographical_feature_category, Continental shelf, Nepheloid layer, Mesoscale meteorology, Sediment dynamics, Aquatic Science, Internal wave, Oceanography, Seafloor spreading, NW Mediterranean, Sill, Continental margin, Nepheloid layers, Marine circulation, Gulf of Valencia, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

9 pages, 9 figures, According to previous studies, the surface circulation of the Gulf of Valencia (GoV) is characterized by a convergence between the southwestward Northern Current carrying old Atlantic Waters (oAW) and the northward intrusions of recent Atlantic Waters (rAW) imported through the Ibiza Channel. This paper focuses on the distribution of the suspended sediment concentration in the GoV obtained from a dense grid of CTD observations in June 1995 during the oceanographic cruise MESO'95 (MESOscale processes). We evaluate the relation between currents, water masses and the nepheloid structure at the time of the survey. Results showed higher suspended sediment concentration (SSC) in the oAW than in the rAW. At the shelf-break depth, an important detachment of particulate matter was observed off Cap La Nao, extending seawards all across the Ibiza Channel. The presence of this intermediate nepheloid layer detachment indicates a preferential off-shelf sediment export at the southern end of the GoV, where the orientation of the continental margin changes, and oAW and rAW merge. On the continental slope, several nepheloid layers detachments were observed between 400 and 600 m, where the Levantine Intermediate Water (LIW) interacts with the seafloor, suggesting the possible presence of internal waves causing sediment resuspension and/or maintaining particles in suspension in the mid-slope region. A bottom nepheloid layer was also observed at deeper locations along the central and southern part of the GoV continental slope, but not at the Ibiza Sill, This research was supported by the projects REDES TROPICAS (Ref. AMB94-0854) and COSTEM (CTM2009-07806). We thank the captain and the crew of the R/V Garcia del Cid for their kind assistance. We are grateful to the participants in the MESO cruise especially to the UTM technicians that provided assistance during the data acquisition. The author M. Ribó is supported by a FPI grant (Ref. BES-2010-029949) from the Spanish Ministry of Economy and Competitiveness

Published

2013

8. Large-Scale Fine-Grained Sediment Waves Over the Gulf of Valencia Continental Slope (NW Mediterranean)

Author

Araceli Muñoz, María Gomez-Ballesteros, Jorge Guillén, Pere Masqué, Albert Palanques, Claudio Lo Iacono, Marta Ribó, Pere Puig, and Juan José Tamayo Acosta

Subjects

geography, geography.geographical_feature_category, biology, Continental shelf, Sediment, Internal wave, biology.organism_classification, Deposition (geology), Sediment waves, Bathymetry, Crest, Internal waves, Sediment transport, Valencia, Geomorphology, Gulf of Valencia, Geology, Continental slope

Abstract

7 pages, 3 figures, Recently acquired swath bathymetry, high-resolution seismic profiles and bottom sediment samples have revealed the presence of large-scale fine-grained sediment waves over the Gulf of Valencia continental slope. Like many other deep-water sediment waves, these features were previously attributed to gravitational slope failure related to creep-like deformation, and have now been reinterpreted as sediment wave fields extending from 250 m depth to the continental rise at ~850 m depth. Sediment wave lengths range between 500 and 1000 m and maximum wave heights of up to 50 m are found on the upper slope, decreasing downslope to a minimum height of 2 m. Seismic profiles showed continuous internal reflectors and several sediment wave packages were differentiated, being thicker on the crest of each wave and thinner on the downslope flank, indicating that these sediment waves are upslope-migrating. The sediment wave formation process was inferred from contemporary hydrodynamic observations, and internal wave activity is suggested to be the most probable mechanism for the sediment transport and deposition and subsequent maintenance of the sediment waves over the Gulf of Valencia continental slope

Published

2017

9. Sand Ridges on the Mid-Outer Valencia Continental Shelf

Author

Ruth Durán, Jorge Guillén, Marta Ribó, C. Lo Iacono, A. Palanques, Juan José Tamayo Acosta, Gonzalo Simarro, Pere Puig, and Araceli Muñoz

Subjects

geography, geography.geographical_feature_category, Bedform, biology, Continental shelf, Sand ridge, Storm, biology.organism_classification, Sediment resuspension, Water depth, Boundary layer, Ridge, Bathymetry, Valencia, Geomorphology, Bedforms, Geology

Abstract

5 pages, 4 figures, A sand ridge field with crests oriented NE–SW (52°) located between 55 and 85 m water depth on the Valencia continental shelf (Spain) was mapped with multibeam swath bathymetry and characterized with high-resolution seismic reflection profiling and sediment sampling. Boundary layer hydrodynamic and suspended sediment concentration measurements conducted over a sand ridge at 66 m depth showed evidence of wave and current sediment resuspension during a major storm event. It is argued that these sand ridges developed in a shallow environment and there is no evidence of present-day ridge migration or morphological degradation

Published

2017

10. Spatio-temporal evolution of sediment waves developed on the Gulf of Valencia margin (NW Mediterranean) during the Plio-Quaternary

Author

Pere Puig, Araceli Muñoz, Roger Urgeles, David Van Rooij, and Marta Ribó

Subjects

geography, geography.geographical_feature_category, Bedform, 010504 meteorology & atmospheric sciences, Continental shelf, Geology, Internal wave, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Gulf of Valencia continental margin, Sedimentary depositional environment, NW Mediterranean, Continental margin, Geochemistry and Petrology, Sediment waves, Progradation, Internal waves, Plio-Quaternary sedimentary record, Geomorphology, Sediment transport, Sedimentary budget, 0105 earth and related environmental sciences

Abstract

Special issue The contourite log-book: significance for palaeoceanography, ecosystems and slope instability.-- 16 pages, 8 figures.-- This research is a contribution to the INQUA commission for Coastal and Marine Processes, Several fields of large-scale sediment waves have been observed along the Gulf of Valencia continental margin (NW Mediterranean). The largest sediment waves develop on the continental slope, extending from 250 to 850 m water depth, with wavelengths ranging between 500 m and 1000 m and wave heights from ~ 2 m to ~ 50 m. On the lower part of the slope, sediment waves are quasi-stationary “vertically accreting”, becoming up-slope migrating towards the mid- and upper part of the slope. A second group of sediment waves have developed over the outer continental shelf, with wavelengths of 400 to 800 m and heights of 2 to 4 m, also displaying an up-slope migrating pattern. Multi-channel seismic lines crossing the continental margin show that the sediment waves over the continental slope region have been continuously developed on the foreset region of the prograding margin clinoform. Several units of sediment waves have been identified in the sedimentary record, evolving in accordance with the margin progradation. Detailed analysis of single-channel (sparker) seismic profiles revealed the presence of several sediment depositional subunits over the outer continental shelf, some of them with successive development of sediment waves being truncated by erosive surfaces, likely related to Quaternary eustatic sea-level oscillations. These erosional surfaces can be followed downslope into paraconformable strata of the sediment waves on the continental slope, where constant bedform growth is observed, without being affected by sea level changes. Based on geophysical data, the thickness of the sediment waves mapped units show that the largest sediment waves (in wave ratio, length and height) develop where sediment deposition rates are the highest, coinciding with the upper part of the continental slope (foreset clinoforms), confined by the presence of structural highs. The development of these sediment waves has been previously explained by the interaction of internal waves over the continental slope. Because sediment waves are preserved in the sedimentary record since the Lower/Pliocene, internal waves activity could have been present in this part of the margin shortly after the Zanclean reflooding of the Mediterranean Basin, following the Messinian desiccation event ~ 5.6 My ago. Deep water hydrodynamic conditions were re-established at that time, modulating sediment transport and deposition over the continental slope and outer continental shelf, This research was supported by the Spanish Projects COSTEM (Ref. CMT2009-07806) and FORMED (CGL2012e-33989)

Published

2016

11. Variability of Shelf Growth Patterns along the Iberian Mediterranean Margin: Sediment Supply and Tectonic Influences

Author

Francisco J. Lobo, Luis Somoza, Ruth Durán, Marta Ribó, Marga García, and Ministerio de Economía, Industria y Competitividad (España)

Subjects

010504 meteorology & atmospheric sciences, seismic stratigraphy, Fluvial, Submarine canyon, 010502 geochemistry & geophysics, Subsidence, 01 natural sciences, Uplift, Sedimentary depositional environment, sediment supply, Paleontology, Mediterranean sea, Continental margin, Mediterranean Sea, Continental shelves, Sea-level changes, subsidence, 0105 earth and related environmental sciences, geography, Sediment supply, geography.geographical_feature_category, Continental shelf, lcsh:QE1-996.5, Sediment, Geomorphology, geomorphology, lcsh:Geology, Tectonics, continental shelves, uplift, General Earth and Planetary Sciences, sea-level changes, Seismic stratigraphy, Geology, Iberian Peninsula

Abstract

25 pages, 15 figures, 5 tables, Clinoform depositional features along the Iberian Mediterranean margin are investigated in this study, with the aim of establishing the causes of their varied shapes and other characteristics. We have analyzed the broad-scale margin physiography and seismic stratigraphic patterns based on high-resolution bathymetric data and previously interpreted seismic data. In addition, we have evaluated regional supply conditions and the uplift-subsidence regime of the different shelf sectors. The upper Quaternary record is strongly dominated by shelf-margin regressive wedges affected by the prevailing 100 ka cyclicity. However, the margins exhibit considerable lateral variability, as the result of the balance between the amount of sediment supply and the uplift-subsidence relationship. Three major shelf sectors with distinct morpho-sedimentary features have been defined. The relatively narrow northern shelves (Roses, La Planassa and Barcelona) are supplied by discrete river outlets that collectively constitute a linear source and are mainly affected by tectonic tilting. The wide middle shelves (Ebro Shelf, the Gulf of Valencia, and the Northern Arc) receive the sediment supply from the large Ebro River and other medium rivers. Although the tectonic regime changes laterally (strong subsidence in the north and uplift in the south), shelf growth is maintained by lateral advection of sediments. The southern shelves (the Southern Arc and the northern Alboran Shelf) are very abrupt and narrow because of the uplifting Betic Cordillera, and the torrential fluvial regimes that determine a very efficient sediment by-pass toward the deep basin. Submarine canyons deeply incised in the continental margin constitute a key physiographic feature that may enhance the transport of sediment to the deep sea or individualize shelf sectors with specific sedimentation patterns, as occurs in the Catalan margin, This research was funded by the Spanish Ministry of Economy, Industry and Competitiveness projects CGL2011-30302-C02-02, CGL2015-74216-JIN, CTM2015-65142-R and CTM2017-88237-P

Published

2018

12. Sediment dynamics over sand ridges on a tideless mid-outer continental shelf

Author

Araceli Muñoz, Jorge Guillén, Juan José Tamayo Acosta, Gonzalo Simarro, Pere Puig, Marta Ribó, C. Lo Iacono, Albert Palanques, and Ruth Durán

Subjects

geography, geography.geographical_feature_category, Continental shelf, Sand ridge, Sediment, Geology, Storm, Oceanography, ABS measurements, Sediment resuspension, Intrawave bottom boundary layer, Geochemistry and Petrology, Ridge, Beach ridge, Shear stress, Bathymetry, Sediment transport, Geomorphology

Abstract

16 pages, 14 figures, 1 table, A sand ridge field with crests oriented NE-SW (52°) located between 55 and 85m water depth on the Valencia continental shelf (Spain) was mapped with multibeam swath bathymetry and characterized with seismic profiling and sediment sampling. Boundary-layer hydrodynamic measurements conducted over a sand ridge at 66m depth show evidence of wave and current sediment resuspension during a major storm event with a three-year recurrence period. From the measured intrawave sediment concentration profiles it is shown that the suspended sediment time evolution is related not only to mean currents but also to the wave field. The near-bottom shear stress generated during storm conditions reached around 1N/m2 and was able to resuspend and transport sandy and muddy sediments for more than 32h. The total suspended sediment transport in a layer of 1m above the bottom was around 4000kg per meter width and directed 160°.It is argued that these sand ridges were developed in a shallow environment and there is no evidence of present-day ridge migration or morphological degradation. It is hypothesized that sediment dynamics affecting sand ridges during storms favors the maintenance of their morphology. © 2015 Elsevier B.V., G. Simarro was supported by the Spanish Government through the Ramón y Cajal program. This research was supported by the projects COSTEM (CTM2009-07806), FORMED (CGL2012-33989) and BUS2 (CGL2011–22964). [...] M. Ribó is supported by a FPI grant (Ref. BES-2010-029949) from the Spanish Ministry of Economy and Competitiveness. R. Durán acknowledges a CSIC JAE-Doc contract co-funded by the FSE

Published

2015

13. Hydrodynamics over the Gulf of Valencia continental slope and their role in sediment transport

Author

Pere Puig, Marta Ribó, and H. van Haren

Subjects

Western Mediterranean, Water mass, geography, geography.geographical_feature_category, Continental shelf, Sediment, Aquatic Science, Sediment transport, Oceanography, Mooring, Bottom trawling, Seafloor spreading, Hydrodynamics, Sedimentary rock, Gulf of Valencia, Geology, Continental slope

Abstract

13 pages, 13 figures, Circulation patterns and sediment dynamics were studied over the Gulf of Valencia (GoV) continental slope during spring and winter 2011-2012. Two moorings were deployed at two locations; at 450m depth from February to May 2011, and at 572m depth from October 2011 to February 2012. At both mooring sites, observations were made of currents, temperature and near-bottom turbidity within the lowermost 80m above the seafloor. The temperature measurements allowed distinction of the different water masses and their temporal evolution. The fluctuations of the boundary between the Western Mediterranean Deep Water (WMDW) and the Levantine Intermediate Water (LIW) masses were monitored, and several intrusions of Western Mediterranean Intermediate Water (WIW) were observed, generally coinciding with changes in current direction. At both mooring sites, the currents generally maintained low velocities 20cms-1, and few reaching up to 35cm s-1, associated with mesoscale eddies and topographic waves. The current direction was mainly towards the SSE on the first deployment and to the ESE on the second deployment. This second location was affected by a strong bottom offshore veering presumably generated by local topographic effects. Increases in suspended sediment concentrations (SSC) were observed repeatedly throughout the records, reaching values >3mgl-1. However, these SSC variations were uncorrelated with changes in velocity magnitude and direction and/or with temperature oscillations. Results presented in this paper highlight the complex relation between the hydrodynamics and sediment transport over the GoV continental slope, and suggest that other potential sediment resuspension mechanism not linked with current fluctuations, might play a key role in the present-day sedimentary dynamics. Resuspension due to bottom trawling appears to be the most plausible mechanism. © 2014 Elsevier Ltd., This research was supported by the project COSTEM (CTM2009–07806). [...] M. Ribó is supported by a FPI grant (Ref. BES-2010-029949) from the Spanish Ministry of Economy and Competitiveness

Published

2015

14. Trawling-induced daily sediment resuspension in the flank of a Mediterranean submarine canyon

Author

Albert Palanques, Jacobo Martín, Marta Ribó, and Pere Puig

Subjects

Nepheloid layer, Submarine canyon, Geociencias multidisciplinaria, Oceanography, Trawling, Sediment resuspension, Resuspension, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Tributary, 14. Life underwater, Turbidity, Man-induced effects, Hydrology, geography, geography.geographical_feature_category, Continental shelf, Sediment, Sediment dynamics, Bottom trawling, Northwestern Mediterranean, Submarine canyons, Nepheloid layers, CIENCIAS NATURALES Y EXACTAS, Geology

Abstract

10 pages, 8 figures, Commercial bottom trawling is one of the anthropogenic activities causing the biggest impact on the seafloor due to its recurrence and global distribution. In particular, trawling has been proposed as a major driver of sediment dynamics at depths below the reach of storm waves, but the issue is at present poorly documented with direct observations. This paper analyses changes in water turbidity in a tributary valley of the La Fonera (=Palamós) submarine canyon, whose flanks are routinely exploited by a local trawling fleet down to depths of 800 m. A string of turbidimeters was deployed at 980 m water depth inside the tributary for two consecutive years, 2010–2011. The second year, an ADCP profiled the currents 80 m above the seafloor. The results illustrate that near-bottom water turbidity at the study site is heavily dominated, both in its magnitude and temporal patterns, by trawling-induced sediment resuspension at the fishing ground. Resuspended sediments are channelised along the tributary in the form of sediment gravity flows, being recorded only during working days and working hours of the trawling fleet. These sediment gravity flows generate turbid plumes that extend to at least 100 m above the bottom, reaching suspended sediment concentrations up to 236 mg l−1 close to the seafloor (5 m above bottom). A few hours after the end of daily trawling activities, water turbidity progressively decreases but resuspended particles remain in suspension for several hours, developing bottom and intermediate nepheloid layers that reach background levels ∼2 mg l−1 before trawling activities resume. The presence of these nepheloid layers was recorded in a CTD+turbidimeter transect conducted across the fishing ground a few hours after the end of a working day. These results highlight that deep bottom trawling can effectively replace natural processes as the main driving force of sediment resuspension on continental slope regions and generate increased near-bottom water turbidity that propagates from fishing grounds to wider and deeper areas via sediment gravity flows and nepheloid layer development, We are grateful to the crew and officers of B/O García del Cid (CSIC) and “Lluerna” (Generalitat de Catalunya) and to the participants in the HERMIONE-I & II surveys for their help at sea. This work is funded by the HERMIONE project (Grant agreement 226354) under the European Commission's 7th framework Programme. J. Martín was funded through a JAE DOC contract within the Program «Junta para la Ampliación de Estudios», granted by Consejo Superior de Investigaciones Científicas and co-financed by the European Social Fund. We thank the two anonymous reviewers who helped to improve the submitted manuscript through their constructive comments

Published

2013

15. Habitats of the Cap de Creus Continental Shelf and Cap de Creus Canyon, Northwestern Mediterranean

Author

Covadonga Orejas, Pere Puig, Josep Maria Gili, Marta Ribó, Andrea Gori, Claudio Lo Iacono, Susana Requena, Lo Iacono, Claudio, Orejas, Covadonga, Gori, Andrea, Gili, Josep Maria, Requena, Susana, Puig, Pere, Ribó, Marta, Harris, P.T. (Peter T.), and Baker, E.K. (Elaine K.)

Subjects

0106 biological sciences, Bedform, 010504 meteorology & atmospheric sciences, Outcrop, Submarine canyon, 01 natural sciences, Sedimentary depositional environment, Centro Oceanográfico de Baleares, Continental Shelf, 14. Life underwater, Medio Marino, 0105 earth and related environmental sciences, Madrepora oculata, Canyon, geography, geography.geographical_feature_category, biology, Continental shelf, Terrigenous sediment, 010604 marine biology & hydrobiology, Geomorphology, Submarine Canyon, biology.organism_classification, Northwestern Mediterranean, Habitat mapping, Oceanography, Swath bathymetry, Geology

Abstract

13 pages, 4 figures, 2 tables, The Cap de Creus continental shelf and Cap de Creus canyon are located in the southernmost sector of the Gulf of Lions, in the northwestern Mediterranean. The Cap de Creus continental shelf contains sandy and muddy sediments and an abrupt morphology, with rocky outcrops, relict bioherms, erosive features, and planar bedforms. The Cap de Creus canyon breaches the shelf at a depth of 110 m and denotes a marked difference in the morphology between the northern and the southern flank, reflecting a different depositional regime. The most common substrates correspond to coarse and medium sands (28%) and silty sediments (40%). The most common megabenthic assemblages of the shelf correspond to the communities of “offshore detritic” (31.95%) and “coastal terrigenous muds” (36.99%), mostly dominated by sea pens, alcyonaceans, and ceriantharians. The northern flank of the Cap de Creus canyon is predominantly depositional, whereas the southern flank is erosional. Rocky outcrops provide the substratum for cold-water coral (CWC) communities’ development, in which the white coral Madrepora oculata is the most abundant species, This research was supported by the European projects INDEMARES (Life + NAT/E/000732), HERMES (Goce-CT-2005-511234-I), HERMIONE (Contract number: 226354), INTERREG (“Pirineus Mediterrànis: La muntanya que uneix”), and the Spanish national projects DEEPCORAL (CTM2005-07756-C02-02/MAR) from the Spanish Ministry of Science and Technology and SHAKE (CGL2011-30005-C02-02) of the Spanish Ministry of Science and Innovation. Some bathymetric data has been kindly provided by the Spanish Fishery General Secretary (“Secretaria General de Pesca”). We are grateful to Dan Orange (AOA Geophysics Inc.) for having provided the bathymetric data set of the Cap de Creus canyon

Published

2012

16. Large-scale bedforms along a tideless outer shelf setting in the western Mediterranean

Author

Albert Palanques, Marcel-lí Farran, Marta Ribó, Juan Acosta, Claudio Lo Iacono, Jorge Guillén, Pere Puig, and María Gómez Ballesteros

Subjects

Western Mediterranean, geography, geography.geographical_feature_category, Bedform, Continental shelf, Height, Wavelength, Sediment, Geology, Sede Central IEO, Aquatic Science, Oceanography, Seafloor spreading, Grain size, Geostrophic current, Mediterranean sea, Subaqueous dunes, Volcano, Bathymetry, Medio Marino, Geomorphology, Height/wavelength relationship, Water depth

Abstract

5 pages, 4 figures, High-resolution multibeam swath-bathymetry and sediment samples were collected across the outer shelf region of the Columbretes Islands (southern Ebro continental shelf, western Mediterranean Sea). Bathymetric data from the submerged part of the Columbretes volcanic system revealed the presence of three main relict sand bodies along the outer shelf, at 80-116. m depth range, above which asymmetric and slightly asymmetric large and very large 2D and 3D subaqueous dunes were observed. These bed features were recognized, mapped and quantified with the aim of evaluating their potential formation mechanisms in relation to the local hydrodynamic and morphologic settings of the area. Dunes range from 150 to 760. m in wavelength and from tens of centimeters to 3. m in height, and are among the longest ever recognized in an outer shelf region. These bedforms are mostly composed of medium-sized sandy sediments, presumably coming from the degraded relict sand bodies on top of which they have developed, mixed with fine fractions from the recent draping holocenic sediments. The orientation of the dunes is SSW, progressively turning W towards the southernmost sector of the area, following the trend of the shelf-edge. Contemporary hydrodynamic measurements at the Ebro continental shelf-edge show that recorded currents are insufficient to form the observed bedforms and that stronger currents are required for sediment mobilization and dune formation. Based on their morphology and orientation, it is proposed that these bedforms are produced by the action of the southward-flowing Liguro-Provençal-Catalan (LPC) geostrophic current. The LPC probably reaches high near-bottom currents during energetic hydrodynamic events through interactions with the seafloor morphology of the study area. Subaqueous dunes are expected to be basically inactive features with respect to present-day processes, although they can be reactivated during high-energy events. The small Δh/λ ratio measured in the dune fields of the Columbretes shelf revealed that the dune heights fall below the values predicted by the Flemming (1988) global equation, as observed in other outer shelf settings also dominated by unidirectional flows. This may suggest a different morphodynamic character of large dunes formed on outer shelves in a micro-tidal regime, This research was supported by the Spanish national Projects CASCADES (Ref. CTM2008-01334-E/MAR) and COSTEM (Ref. CTM2009-07806). Additional support was provided by the Secretaría General de Pesca Marítima (MAPA), which provided ship-time to carry out the BALCOM cruise

Published

2010