Your search keyword '"Julia Haberkern"' showing total 4 results

1. Increasing impact of North Atlantic Ocean circulation on sedimentary processes along the passive Galicia Margin (NW Spain) over the past 40 million years

Author

Julia Haberkern, Till J. J. Hanebuth, Volkhard Spiess, and Tilmann Schwenk

Subjects

contourite drift systems, North Atlantic Ocean circulation, Cenozoic stratigraphy, continental margin morphology, Iberian Margin, marine geophysics, Science

Abstract

Off the Northwestern Iberian Peninsula, the vigorous bottom-current regime interacts with a complex seafloor topography inside the Galicia Interior Basin (GIB), which was tectonically shaped during the opening of the North Atlantic Ocean basin in Cretaceous times. The evolving North Atlantic Ocean circulation determined the depositional pattern of the basin fill over time, which can, in turn, be utilized as palaeoceanographic archive. This study reconstructs the evolution of the GIB sedimentary system since the mid-Eocene, namely, resulting from interplay between down- and along-slope sediment-transport processes, using high-resolution multichannel seismic data. Six major depositional stages are identified and connected to the evolution of the North Atlantic Ocean circulation. 1) Levelling of topography shows that the influence of contourparallel bottom currents on the depositional pattern steadily intensified since the mid-Eocene; 2) The strengthening of Northern Component Water (NCW), associated with the opening of the Faeroe-Shetland Basin in the late Eocene, is documented along the southwestern European continental margin for the first time by the onset of a plastered contourite drift; 3) A shift in the depocenters provide evidence that the closure of the Tethys-Indian Seaway led to Tethys Outflow Water into the Atlantic Ocean at intermediate ocean depths in the Miocene; 4) Until the mid-Miocene, the tectonic stress regime initially associated with the Pyrenean Orogeny and the following Betic Orogeny led to both sets of small-scale faulting systems as well as submarine mass wasting indicated by slope scarps and mass-transport deposits; 5) The onset of modern-style Mediterranean Outflow Water (MOW) after the Messinian Salinity Crisis (5.3 Ma) caused a distinct change in the depositional dynamics from combined along- and down-slope transport processes towards predominantly contouritic deposition, which is evident from the construction of several separated mounded contouritic drifts that formed during Pliocene and early Pleistocene times; and 6) The contourite drift growth continued during the middle and late Pleistocene, but under a gaining influence of down-slope processes.

Published

2024

2. Internal solitary waves control offshore extension of mud depocenters on the NW Iberian shelf

Author

Yongsheng Cui, Oxana Kurkina, Till J J Hanebuth, Han Zhang, Julia Haberkern, Rebecca Aepfler, Ira Didenkulova, Ana Santos, and Wenyan Zhang

Subjects

Orbital speed, 010504 meteorology & atmospheric sciences, Sediment, Geology, Storm, Shoaling and schooling, Internal wave, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Geochemistry and Petrology, Shear stress, Submarine pipeline, Sediment transport, Geomorphology, 0105 earth and related environmental sciences

Abstract

Hydrodynamic conditions and near-bottom sediment transport on the NW Iberian shelf associated with a 5-day storm in September 2014 were monitored. During the post-storm relaxation period, active bottom sediment transport by internal solitary waves (ISWs) on a mid-shelf mud depocenter, located in between 110 and 130 m water depth (WD), was observed. To explore the potential of internal waves in sediment transport and its link to development of mid-shelf mud depocenters, we apply a weakly nonlinear model based on the variable-coefficient Gardner equation to estimate the flow fields and bottom shear stress induced by shoaling of mode-1 long internal solitary waves. Shoreward propagation of the ISWs in three representative periods (pre-, intra- and post-storm) is simulated, respectively. Transformation of the internal wave, from a single sech2 shape characterized by negative polarity and small amplitude to a dispersive trailing wave packet with varying amplitude and inverse polarity, are satisfactorily reproduced. Model results indicate enhancement of the maximum orbital velocity of the ISWs during and after the storm on the outer shelf (130–220 m WD) including the seaward margin of the mud depocenter. Bottom shear stress consequently becomes strong enough (≥0.1 Pa) to winnow unconsolidated sediment and constrains the offshore extension of the depocenter. The enhanced bottom orbital velocity and the asymmetry in the excursion direction of mode-1 long ISWs in the post-storm period prove to be efficient in transporting fine-grained sediment across shelf. Our results suggest that mid-shelf mud depocenters are not necessarily areas under permanently calm conditions where fine-grained sediment can settle straightforwardly. They could also result from convergent sediment transport from both onshore and offshore directions, and sediment may go through numerous cycles of resuspension-transport-deposition before its ultimate lasting burial.

Published

2019

3. Mid-Holocene extinction of cold-water corals on the Namibian shelf steered by the Benguela oxygen minimum zone

Author

Leonardo Tamborrino, Wolf-Christian Dullo, Covadonga Orejas, Julia Haberkern, Jürgen Titschack, Claudia Wienberg, Paul Wintersteller, Andrea Schröder-Ritzrau, Dierk Hebbeln, Furu Mienis, and André Freiwald

Subjects

0106 biological sciences, Extinction, Medio Marino y Protección Ambiental, 010504 meteorology & atmospheric sciences, 010604 marine biology & hydrobiology, Coral, Front (oceanography), Geology, Oxygen minimum zone, 01 natural sciences, Oceanography, Period (geology), Upwelling, Submarine pipeline, 14. Life underwater, Centro Oceanográfico de Gijón, Holocene, 0105 earth and related environmental sciences

Abstract

An exceptionally large cold-water coral mound province (CMP) was recently discovered extending over 80 km along the Namibian shelf (offshore southwestern Africa) in water depths of 160–270 m. This hitherto unknown CMP comprises >2000 mounds with heights of up to 20 m and constitutes the largest CMP known from the southeastern Atlantic Ocean. Uranium-series dating revealed a short but intense pulse in mound formation during the early to mid-Holocene. Coral proliferation during this period was potentially supported by slightly enhanced dissolved oxygen concentrations compared to the present Benguela oxygen minimum zone (OMZ). The subsequent mid-Holocene strengthening of the Benguela Upwelling System and a simultaneous northward migration of the Angola-Benguela Front resulted in an intensification of the OMZ that caused the sudden local extinction of the Namibian corals and prevented their reoccurrence until today., Sí

Published

2019

4. Corrigendum to 'Internal solitary waves control offshore extension of mud depocenters on the NW Iberian shelf' [Mar. Geol. 409 (2019) 15–30]

Author

Ira Didenkulova, Han Zhang, Ana Santos, Wenyan Zhang, Yongsheng Cui, Rebecca Aepfler, Till J J Hanebuth, Oxana Kurkina, and Julia Haberkern

Subjects

Extension (metaphysics), Geochemistry and Petrology, Geology, Submarine pipeline, Oceanography, Geomorphology

Published

2019