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2. Chapter3: Cenozoic history of Antarctic glaciation and climate from onshore and offshore studies

Author

Florindo, Fabio, Siegert, Martin J., De Santis, Laura, Naish, Tim, McKay, Robert, Escutia, Carlota, Donda, F., Duncan, B., Gohl, Karsten, Gulick, Sean P. S., Hernandez-Molina, F. J., Hillenbrand, Claus-Dieter, Hochmuth, Katharina, Kim, S., Kuhn, Gerhard, Larter, Robert D., Leitchenkov, German, Levy, Richard H., O'Brien, Philip, Perez, Lara, Shevenell, Amelia E., Williams, Trevor, Florindo, Fabio, Siegert, Martin J., De Santis, Laura, Naish, Tim, McKay, Robert, Escutia, Carlota, Donda, F., Duncan, B., Gohl, Karsten, Gulick, Sean P. S., Hernandez-Molina, F. J., Hillenbrand, Claus-Dieter, Hochmuth, Katharina, Kim, S., Kuhn, Gerhard, Larter, Robert D., Leitchenkov, German, Levy, Richard H., O'Brien, Philip, Perez, Lara, Shevenell, Amelia E., and Williams, Trevor

Published
2022

3. The Gulf of Cadiz: an unstable giant contouritic levee

Author

Mulder, T., Voisset, M., Lecroart, P., Le Drezen, E., Gonthier, E., Hanquiez, V., Faugères, J.-C., Habgood, E., Hernandez-Molina, F. J., Estrada, F., Llave-Barranco, E., Poirier, D., Gorini, C., Fuchey, Y., Voelker, A., Freitas, P., Sanchez, F. Lobo, Fernandez, L. M., Kenyon, N. H., and Morel, J.

Published
2003
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4. The impact of internal waves on upper continental slopes : insights from the Mozambican margin (Southwest Indian Ocean)

Author

Miramontes, E., Jouet, G., Thereau, E., Bruno, M., Penven, Pierrick, Guerin, C., Le Roy, P., Droz, L., Jorry, S. J., Hernandez-Molina, F. J., Thieblemont, A., Jacinto, R. S., and Cattaneo, A.

Subjects
sedimentary processes, bedform, internal solitary waves, sediment drift, tide, bottom currents, contourite
Abstract

Evidences of sedimentation affected by oceanic circulation, such as nepheloid layers and contourites are often observed along continental slopes. However, the oceanographic processes controlling sedimentation along continental margins remain poorly understood. Multibeam bathymetry and high-resolution seismic reflection data revealed a contourite depositional system in the Mozambican upper continental slope composed of a contourite terrace (a surface with a gentle seaward slope dominated by erosion) and a plastered drift (a convex-shape sedimentary deposit). A continuous alongslope channel and a field of sand dunes (mainly migrating upslope), formed during Holocene, were identified in the contourite terrace at the present seafloor. Seismic reflection data of the water column show internal waves and boluses propagating in the pycnocline near the upper slope. The channel and the dunes are probably the result of the interaction of the observed internal waves with the seafloor under two different conditions. The alongslope channel is located in a zone where intense barotropic tidal currents may arrest internal solitary waves, generating a hydraulic jump and focused erosion. However, upslope migrating dunes may be formed by bottom currents induced by internal solitary waves of elevation propagating landwards in the pycnocline. These small-scale sedimentary features generated by internal waves are superimposed on large-scale contouritic deposits, such as plastered drifts and contourite terraces, which are related to geostrophic currents. These findings provide new insights into the oceanographic processes that control sedimentation along continental margins that will help interpretation of palaeoceanographic conditions from the sedimentary record.

Published
2020

5. Sedimentary processes on the Antarctic Peninsula Pacific margin: new geophysical and sediment core data

Author

Larter, Robert D., Hillenbrand, Claus-Dieter, Graham, Alastair G. C., Hernandez-Molina, F. J., Crowhurst, S. J., Hodell, David A., Channell, James E. T., Xuan, Chuang, Allen, Claire, Ehrmann, Werner, Hogan, Kelly, McCave, Ian Nick, Rodrigues, Sara, Williams, Maricel, Gohl, Karsten, Uenzelmann-Neben, Gabriele, Rebesco, Michele, Larter, Robert D., Hillenbrand, Claus-Dieter, Graham, Alastair G. C., Hernandez-Molina, F. J., Crowhurst, S. J., Hodell, David A., Channell, James E. T., Xuan, Chuang, Allen, Claire, Ehrmann, Werner, Hogan, Kelly, McCave, Ian Nick, Rodrigues, Sara, Williams, Maricel, Gohl, Karsten, Uenzelmann-Neben, Gabriele, and Rebesco, Michele

Abstract

Late Miocene to Recent sediments offshore from the Antarctic Peninsula are predominantly lithogenic, having originated through glacial erosion. Sediments that accumulated during interglacial periods commonly have a greater biogenic component, but deposits in which this constitutes a substantial fraction are rare. Only a small fraction of the continental block is above sea level and even during interglacial periods temperatures are only warm enough to generate significant melt at low elevations for a few weeks each summer, so sediment input to the sea from surface runoff is minor. Sediment transport to the continental margin takes place mainly at the ice bed during glacial periods when the grounding line advances to the shelf edge. On the Pacific margin, downslope transport from the shelf edge region occurs mainly through gravitational mass transport processes. These processes are likely most active during glacial periods when rapid delivery of glacial sediment leads to instability on the uppermost slope and discharge of sediment-laden subglacial meltwater at the shelf edge grounding line initiates turbidity currents. The lack of obvious large slide scars along most of the relatively steep continental slope suggests that most individual failures are small in volume. Dendritic networks of small channels on the lower slope feed into large turbidity current channels that run out across the continental rise for hundreds of kilometres. Between the channels are giant sediment drifts, some with more than a kilometre of relief, which are composed predominantly of finely-bedded silt and clay layers. The drifts have been produced through entrainment of the fine-grained components of turbidity currents in the ambient bottom current that flows southwestward along the margin. Results from Ocean Drilling Program Leg 178 showed that these drifts contain high-resolution records of ice sheet and oceanographic changes, although unfortunately insufficient core material was recovered to

Published
2019

6. The Cadiz Contourite Channel: Sandy contourites, bedforms and dynamic current interaction

Author

Biología, Física Aplicada, Bruno Mejías, Miguel, Stow, D. A. V., Hernandez-Molina, F. J., Llave, E., Garcia, M., Diaz del Rio, V., Somoza, L., Brackenridge, R. E., Biología, Física Aplicada, Bruno Mejías, Miguel, Stow, D. A. V., Hernandez-Molina, F. J., Llave, E., Garcia, M., Diaz del Rio, V., Somoza, L., and Brackenridge, R. E.

Abstract

The Cadiz Contourite Channel is the largest and most prominent contourite channel in the middle slope of the Gulf of Cadiz, and is known to channelise the southern branch of the Lower Core of Mediterranean Outflow Water (MOW) as it flows westwards from the Gibraltar Gateway. The channel lies in water depth between 650 and 1500 m, is 150 km long, 2–12 km wide, up to 120 m deep, and broadly s-shaped in plan view. It has several associated subparallel marginal channels and shorter spillover channel segments. Its geometry is controlled by the interaction of a strong bottom current with the seafloor morphology, affected by neotectonic deformation and diapiric intrusion. Bottom photographs and dredge hauls reveal a channel floor shaped by high-energy flow, in places with bare rock, boulders and gravel, and elsewhere covered with sandy contourites. The rocky substrate and derived clasts are formed of authigenic iron-rich carbonates, testifying the high degree of fluid escape from adjacent diapiric ridges and mud volcanoes. The sandy substrate shows a wide range of current-induced bedforms including small, straight-crested ripples, large sinuous sand waves and dunes (wavelength 3.5–5 m, height 0.3–0.9 m), weak surface lineation on sands, and aligned gravel stringers and deep erosive scours around large boulders. Bedform orientation indicates flows directed to the south/south-west (main channel) and west (spillover channel), which can be related to MOW bottom currents, and current velocities that vary between about 0.2 and 0.8 m s− 1, even in the same channel location. However, current vane orientation was clearly responding, at least in part, to tidal effects and periodicity in the Gulf of Cadiz at the time the photographs were taken. Maximum current velocities are achieved by a combination of barotropic and internal tides (probably generated at the continental slope) that reinforce the normal MOW flow. In addition, meteorologically-induced internal waves with periods short

Published
2017

7. Evidence of early bottom water current flow after the Messinian Salinity Crisis in the Gulf of Cadiz

Author

Van Der Schee, Marlies, Sierro, F. J., Jimenez-espejo, F. J., Hernandez-molina, F. J., Flecker, R., Flores, J. A., Acton, G., Gutjahr, M., Grunert, P., Garcia-gallardo, A., Andersen, N., Van Der Schee, Marlies, Sierro, F. J., Jimenez-espejo, F. J., Hernandez-molina, F. J., Flecker, R., Flores, J. A., Acton, G., Gutjahr, M., Grunert, P., Garcia-gallardo, A., and Andersen, N.

Abstract

Integrated Ocean Drilling Program (IODP) Expedition 339 cored multiple sites in the Gulf of Cadiz in order to study contourite deposition resulting from Mediterranean Outflow water (MOW). One Hole, U1387C, was cored to a depth of 865.85 m below seafloor (mbsf) with the goal of recovering the latest Miocene to Pliocene transition in order to evaluate the history of MOW immediately after the end of the Messinian Salinity Crisis. To understand this history, an accurate age model for the succession is needed, but is challenging to construct, because the Miocene-Pliocene boundary is not marked by a clear biostratigraphic event in the Atlantic and coring gaps occur within the recovered stratigraphic record. These limitations are overcome by combining a variety of chronostratigraphic datasets to construct an age-model that fits the currently available age indicators and demonstrates that coring in Hole U1387C did indeed recover the Miocene-Pliocene boundary at about 826 mbsf. This boundary is associated with a distinct and abrupt change in depositional environment. During the latest Messinian, hemipelagic sediments exhibiting precession-induced climate variability were deposited. These are overlain by Pliocene sediments deposited at a much higher sedimentation rate, with much higher and more variable XRF core scanning Zr/Al ratios than the underlying sediment, and that show evidence of winnowing, particle sorting and increasing grain size, which we interpret to be related to the increasing flow of MOW. Pliocene sedimentary cyclicity is clearly visible in both the benthic delta O-18 record and the Zr/Al data and is probably also precessionally controlled. Two contouritic bigradational sandy-beds are revealed above the third sedimentary cycle of the Pliocene. On the basis of these results, we conclude that sedimentation associated with weak Mediterranean-Atlantic exchange, began in the Gulf of Cadiz virtually at or shortly after the Miocene-Pliocene boundary.

Published
2016
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8. Digital image treatment applied to ichnological analysis of marine core sediments

Author

Dorador, Javier, Rodríguez-Tovar, Francisco J., Hernandez-Molina, F. J., Stow, D. A.V., Alvarez-Zarikian, C., Acton, G., Bahr, A., Balestra, Barbara, Ducassou, E., Flood, R., Flores, J. A., Furota, S., Grunert, P., Hodell, D., Jimenez-Espejo, F., Kim, J. K., Krissek, L., Kuroda, J., Li, B., Llave, E., Lofi, J., Lourens, L., Miller, M., Nanayama, F., Nishida, N., Richter, C., Roque, C., Pereira, H., Sanchez Gon˜i, M., Sierro Sanchez, F., Singh, A., Sloss, C., Takashimizu, Y., Tzanova, A., Voelker, A., Williams, T., Xuan, C., Dorador, Javier, Rodríguez-Tovar, Francisco J., Hernandez-Molina, F. J., Stow, D. A.V., Alvarez-Zarikian, C., Acton, G., Bahr, A., Balestra, Barbara, Ducassou, E., Flood, R., Flores, J. A., Furota, S., Grunert, P., Hodell, D., Jimenez-Espejo, F., Kim, J. K., Krissek, L., Kuroda, J., Li, B., Llave, E., Lofi, J., Lourens, L., Miller, M., Nanayama, F., Nishida, N., Richter, C., Roque, C., Pereira, H., Sanchez Gon˜i, M., Sierro Sanchez, F., Singh, A., Sloss, C., Takashimizu, Y., Tzanova, A., Voelker, A., Williams, T., and Xuan, C.

Abstract

Characterization of trace fossils in marine core sediments is, most times, difficult due to the weak differentiation between biogenic structures and the host sediment, especially in pelagic and hemipelagic facies. This problem is accentuated where a high degree of bioturbation is associated with composite ichnofabrics. Simple methods are presented here based on modifications to image features such as contrast, brightness, vibrance, saturation, exposure, lightness, and color balance using the software Adobe Photoshop CS6 (Adobe Systems, San Jose, CA, USA) to enhance visibility and thus allow for a better identification of the trace fossils. Adjustments involving brightness, levels and vibrance generally give better results. This approach was applied to marine cores of pelagic and hemipelagic sediments obtained from the Integrated Ocean Drilling Program Expedition 339, Site U1385. Enhancing the digital images facilitates ichnological analysis through improving the visibility of weakly observed trace fossils, and in some cases revealing traces not detected previously.

Published
2014

9. Studying Past Deep-ocean Circulation and the Paleoclimate Record in the Gulf of Cadiz

Author

Mulder, L.P., Lecroart, T. P, Voisset, M., Schönfeld, Joachim, Le Drezen, E., Gonthier, E., Hanquiez, V., Zahn, R., Faugeres, J.-C., and Hernandez-Molina, F. J.

Abstract

Deep marine currents are strongly influenced by climatic changes. They also deposit, rework, and sort sediment, and can generate kilometer-scale sedimentary bodies (drifts). These drifts are made of thoroughly bioturbated, stacked sedimentary sequences called contourites [Gonthier et al., 1984]. As a consequence, change in the direction or intensity of currents can be recorded in the sediments

Published
2002

10. The Cadiz Contourite Channel: Sandy contourites, bedforms and dynamic current interaction

Author

Biología, Física Aplicada, Bruno Mejías, Miguel, Stow, D. A. V., Hernandez-Molina, F. J., Llave, E., Garcia, M., Diaz del Rio, V., Somoza, L., Brackenridge, R. E., Biología, Física Aplicada, Bruno Mejías, Miguel, Stow, D. A. V., Hernandez-Molina, F. J., Llave, E., Garcia, M., Diaz del Rio, V., Somoza, L., and Brackenridge, R. E.

Abstract

The Cadiz Contourite Channel is the largest and most prominent contourite channel in the middle slope of the Gulf of Cadiz, and is known to channelise the southern branch of the Lower Core of Mediterranean Outflow Water (MOW) as it flows westwards from the Gibraltar Gateway. The channel lies in water depth between 650 and 1500 m, is 150 km long, 2–12 km wide, up to 120 m deep, and broadly s-shaped in plan view. It has several associated subparallel marginal channels and shorter spillover channel segments. Its geometry is controlled by the interaction of a strong bottom current with the seafloor morphology, affected by neotectonic deformation and diapiric intrusion. Bottom photographs and dredge hauls reveal a channel floor shaped by high-energy flow, in places with bare rock, boulders and gravel, and elsewhere covered with sandy contourites. The rocky substrate and derived clasts are formed of authigenic iron-rich carbonates, testifying the high degree of fluid escape from adjacent diapiric ridges and mud volcanoes. The sandy substrate shows a wide range of current-induced bedforms including small, straight-crested ripples, large sinuous sand waves and dunes (wavelength 3.5–5 m, height 0.3–0.9 m), weak surface lineation on sands, and aligned gravel stringers and deep erosive scours around large boulders. Bedform orientation indicates flows directed to the south/south-west (main channel) and west (spillover channel), which can be related to MOW bottom currents, and current velocities that vary between about 0.2 and 0.8 m s− 1, even in the same channel location. However, current vane orientation was clearly responding, at least in part, to tidal effects and periodicity in the Gulf of Cadiz at the time the photographs were taken. Maximum current velocities are achieved by a combination of barotropic and internal tides (probably generated at the continental slope) that reinforce the normal MOW flow. In addition, meteorologically-induced internal waves with periods short

Published
2013

11. Morfología y caracterización de las facies relictas en la plataforma interna del golfo de Cádiz entre Ayamonte y Huelva (sur de la península Ibérica)

Author

Luis Miguel Fernández-Salas, Rey, J., Perez-Vazquez, E., Ramirez, J. L., Hernandez-Molina, F. J., Somoza, L., Andres, J. R., Lobo, F. J., and Mosquera-de-Arancibia, C. (Concha)

Subjects
cuaternario, plataforma continental, facies relictas, Golfo de Cádiz, geomorfología
Abstract

The objectives of the present paper are the determination of the morphologic characteristics of the superficial Quaternary relict facies on the internal continental shelf in the Gulf of Cadiz, between Ayamonte and Huelva (southern Spain), their characterisation, and their evolution in the final phases of the last eustatic hemicycle. The study area extends from the mouth of the Guadiana River to the mouth of the Tinto-Odiel River, and from the 6 m isobath to the 56 m isobath. High-resolution seismic profiles (3.5 kHz and Geopulse, 175 J), sonographic profiles (SSS, 100 kHz), and bathymetric profiles (Echotrac sounder) were used in this study. Sediment samples were obtained using Van Veen and Shipek drags. Bathymetric, physiographic, lithologic and morphologic analyses were performed to determine the superficial sediment distribution, relict facies distribution, and thickness of the unconsolidated sediment cover. Analysis of the data obtained indicated that the relict facies beaches and coastal barriers associated with coastal spits located in the ancient outlets of the rivers. Relict facies were grouped into well-differentiated depths, indicating that their position on the continental shelf is influenced by the still-stands and the periods of rapid sea-level changes. The nature of the outcropping relict facies shows that their final configuration can be related to the shelf construction processes, as well as to the most important Holocene transgressive phases. Los objetivos de este trabajo son la determinación de las características morfológicas, la caracterización de las facies relictas cuaternarias superficiales y el estudio de su evolución con relación a las fases finales del último hemiciclo eustático en la plataforma continental interna del golfo de Cádiz, entre Ayamonte y Huelva. El área de estudio abarca desde la desembocadura del río Guadiana hasta la del río Tinto-Odiel y desde los 6 m hasta 56 m de profundidad. Se utilizó gran cantidad de material geofísico, en el que se encuentran perfiles sísmicos de alta resolución (3.5 kHz y Geopulse, 175 J), perfiles sonográficos y perfiles batimétricos, además de muestras de sedimentos obtenidas con dragas Van Veen y Shipek. Con esta información se han realizado análisis batimétricos, fisiográficos, litológicos y morfológicos, además de determinar la distribución de los sedimentos superficiales y de las facies relictas y de cuantificar la potencia de la cobertera sedimentaria. Con todos los datos obtenidos se ha determinado que las facies relictas son interpretadas como playas y cordones litorales asociados a flechas litorales situadas en las antiguas desembocaduras de los ríos. Las formas descritas están agrupadas en zonaciones batimétricas bien diferenciadas, lo que indica que su posición en la plataforma continental está influida por las paradas y etapas de movimiento rápido del nivel del mar. Las características de las facies relictas aflorantes indican que su configuración final puede estar relacionada con los procesos de edificación de la plataforma a partir de las mayores fases transgresivas holocenas. Instituto Español de Oceanografía

Published
2001

13. Past deep-ocean circulation and the paleoclimate record-Gulf of Cadiz

Author

Mulder, T., Lecroart, T. P., Voisset, Michel, Schönfeld, J., Le Drezen, Eliane, Gonthier, E., Hanquiez, Vincent, Zahn, R., Faugères, J.-c., Hernandez-molina, F. J., Llave-barranco, E., Gervais, Anne, Mulder, T., Lecroart, T. P., Voisset, Michel, Schönfeld, J., Le Drezen, Eliane, Gonthier, E., Hanquiez, Vincent, Zahn, R., Faugères, J.-c., Hernandez-molina, F. J., Llave-barranco, E., and Gervais, Anne

Abstract

Deep marine currents are strongly influenced by climatic changes. They also deposit, rework, and sort sediment, and can generate kilometer-scale sedimentary bodies (drifts). These drifts are made of thoroughly bioturbated, stacked sedimentary sequences called contourites [Gonthier et al., 1984]. As a consequence, change in the direction or intensity of currents can be recorded in the sediments.

Published
2002
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17. Paleoambientes, cambios relativos del nivel del mar e influencia tectónica en las unidades sísmicas cuaternarias de la plataforma continental de Huelva (golfo de Cádiz, suroeste de la península Ibérica)

Author

Francisco José Lobo, Hernandez-Molina, F. J., Somoza, L., Diaz Del Rio, V., and Mosquera-de-Arancibia, C. (Concha)

Subjects
Estratigrafía sísmica, cuaternario, plataforma continental, configuración sísmica, Golfo de Cádiz
Abstract

A seismic stratigraphical study was conducted on the Huelva continental shelf (southwestern Iberian Peninsula) between the mouths of the Guadalquivir and Guadiana Rivers. Applying the basic concepts of seismic stratigraphy, 13 seismic units bound by erosive discontinuities have been identified. Two main kinds of seismic units can be distinguished: a) Units that internally show a wide variability of seismic configurations and sheet to lensoidal external shape, located in inner-to-middle shelf settings. These units are considered high-energy units (HEU), deposited during intervals of rising and highstand sea levels. They represent coastal deposits comprising two main depositional systems: coastal barriers in the form of shoreface deposits and landward lagoonal and tidal deposits. b) Units displaying low-angle oblique seismic configurations, with reflectors exhibiting good lateral continuity and amplitude. Their thickness increases seaward, with the largest depocentres located near the shelf-break, displaying therefore a typical wedge external shape. These units are located very frequently from middle shelf emplacements to outer shelf and upper slope settings, and are considered low-energy units (LEU). They are believed to have been formed during periods of falling sea level, representing the distal portions of coastal and deltaic bodies that have been preserved from erosion. The stacking pattern of the units shows three different tectonic settings: a central subsiding sector, bounded laterally by two tectonic highs, one of them structurally controlled (the western one) and the other conditioned by diapiric uplifting (the eastern one). Un análisis de estratigrafía sísmica se ha realizado en la plataforma continental de Huelva (suroeste de la península Ibérica) entre las desembocaduras de los ríos Guadiana y Guadalquivir. Aplicando los concep tos básicos de la estratigrafía sísmica, han sido identificadas 13 unidades sísmicas limitadas por discontinuidades erosivas. Dos tipos principales de unidades sísmicas han sido identificadas: a) Unidades que internamente muestran una gran variabilidad de facies sísmicas y forma externa de lámina o lenticular, localizadas en la plataforma interna-media. Estas unidades son consideradas de alta energía (high- energy units, HEU), depositadas durante intervalos de ascenso y alto nivel del mar. Se relacionan con depósitos costeros compuestos de dos sistemas deposicionales principales: barreras costeras formadas por depósitos de frente de playa y, hacia tierra, depósitos mareales y de laguna. b) Unidades caracterizadas por clinoformas progradacionales de bajo ángulo, con reflectores de alta amplitud y continuidad. Su espesor aumenta hacia el borde de plataforma, adquiriendo una forma típica de cuña. Estas unidades están localizadas frecuentemente desde la plataforma media hasta el talud superior y son consideradas como unidades de baja energía (low-energy units, LEU). Se interpreta que representan las porciones distales de cuerpos costeros y deltaicos que se han formado durante periodos de descenso relativo del nivel del mar, y que han sido preservadas de la erosión que sufrieron las capas más someras. El patrón de apilamiento de las unidades muestra tres emplazamientos tectónicos diferentes: un sector central subsidente limitado lateralmente por dos altos tectónicos, uno controlado estructuralmente (sector oeste) y otro condicionado por un levantamiento de origen diapírico (sector este). Instituto Español de Oceanografía

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