Your search keyword '"Ward, Sophie L."' showing total 3 results

1. Sensitivity of palaeotidal models of the northwest European shelf seas to glacial isostatic adjustment since the Last Glacial Maximum.

Author

Ward, Sophie L., Neill, Simon P., Scourse, James D., Bradley, Sarah L., and Uehara, Katsuto

Subjects

*GLACIAL isostasy, *LAST Glacial Maximum, *SEA level, *GLACIAL melting, *ICE shelves, *SEDIMENT transport, *TEMPORAL distribution (Quantum optics)

Abstract

The spatial and temporal distribution of relative sea-level change over the northwest European shelf seas has varied considerably since the Last Glacial Maximum, due to eustatic sea-level rise and a complex isostatic response to deglaciation of both near- and far-field ice sheets. Because of the complex pattern of relative sea level changes, the region is an ideal focus for modelling the impact of significant sea-level change on shelf sea tidal dynamics. Changes in tidal dynamics influence tidal range, the location of tidal mixing fronts, dissipation of tidal energy, shelf sea biogeochemistry and sediment transport pathways. Significant advancements in glacial isostatic adjustment (GIA) modelling of the region have been made in recent years, and earlier palaeotidal models of the northwest European shelf seas were developed using output from less well-constrained GIA models as input to generate palaeobathymetric grids. We use the most up-to-date and well-constrained GIA model for the region as palaeotopographic input for a new high resolution, three-dimensional tidal model (ROMS) of the northwest European shelf seas. With focus on model output for 1 ka time slices from the Last Glacial Maximum (taken as being 21 ka BP) to present day, we demonstrate that spatial and temporal changes in simulated tidal dynamics are very sensitive to relative sea-level distribution. The new high resolution palaeotidal model is considered a significant improvement on previous depth-averaged palaeotidal models, in particular where the outputs are to be used in sediment transport studies, where consideration of the near-bed stress is critical, and for constraining sea level index points. [ABSTRACT FROM AUTHOR]

Published

2016

2. The challenges of constraining shelf sea tidal models using seabed sediment grain size as a proxy for tidal currents.

Author

Ward, Sophie L., Scourse, James D., Yokoyama, Yusuke, and Neill, Simon P.

Subjects

*TIDAL currents, *OCEAN bottom, *GRAIN size, *SEDIMENTS, *SHEARING force, *GLACIAL isostasy

Abstract

Past major changes in sea level have had a significant influence on global- and shelf sea tidal dynamics. Some of these changes are preserved in sedimentary records from the shelf seas, and so appropriate proxy data have the potential to constrain tidal model outputs over the recent geological past. Tidal models which simulate the evolution of tide-dependent parameters over geological timescales are fundamental to understanding the response of the tides to sea-level rise and climate change. This study explores a potential new sedimentary proxy for validating past shelf sea tidal dynamics, interrogating the relationship between tidally-modulated bed shear stress and seabed sediment grain size at discrete sediment core locations over the northwest European shelf seas. Radiocarbon-dated sediment grain size profiles were generated for four British Geological Survey UK shelf sediment vibrocores, spanning a range of physical environments. Changes in observed sediment grain size through time were compared with simulated changes in tidal-induced bed shear through time, using temporal and spatial outputs from the most recently developed palaeotidal model of the Northwest European shelf seas. Although a positive correlation between observed grain size and simulated bed shear stress was observed at three of the four sediment cores sites, no robust relationship could be quantified. The palaeotidal model output failed to resolve the details of the actual sediment dynamics, since only tidal-induced bed shear stresses were considered. Wave processes were neglected, and the model was not sensitive enough to constrain simulated past tidal conditions at point locations; rather it is suitable for examining general trends. There remains a need to develop new proxies for past shelf sea hydrodynamic conditions which can be used to constrain numerical model output of tidal currents at regional scales. • We explore a new proxy for validating models of past shelf sea tidal dynamics. • Age-constrained seabed sediment data for 5 marine cores for NW Europe presented. • Evolutions of median grain size compared with simulated tidal-induced bed stress. • General trends in sediment grain size and simulated bed shear stress were observed. • The tidal model did not fully resolve the intricacies of observed sediment dynamics. [ABSTRACT FROM AUTHOR]

Published

2020

3. Nonlinear landscape and cultural response to sea-level rise.

Author

Barnett, Robert L., Charman, Dan J., Johns, Charles, Ward, Sophie L., Bevan, Andrew, Bradley, Sarah L., Camidge, Kevin, Fyfe, Ralph M., Gehrels, W. Roland, Gehrels, Maria J., Hatton, Jackie, Khan, Nicole S., Marshal, Peter, Maezumi, Yoshi, Mills, Steve, Mulville, Jacqui, Perez, Marta, Roberts, Helen M., Scourse, James D., and Shepherd, Francis

Subjects

*CULTURAL landscapes, *EARTH sciences, *OCEANOGRAPHY, *ENVIRONMENTAL sciences, *GLACIAL isostasy, *HUMAN settlements, *SEA level

Abstract

The article informs about how rising sea levels have been associated with human migration and behavioral shifts throughout prehistory, often with an emphasis on landscape submergence and consequent societal collapse. It also mentions how climate warming and persistent sea-level rise will cause increased extreme sea levels as a result of changes in water levels, tidal dynamics, wave climates, and storm surges.

Published

2020