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iCOASST - integrating coastal sediment systems

Nicholls, Robert J., Bradbury, Andy, Burningham, Helene, Dix, Justin, Ellis, Michael, French, Jon, Hall, Jim W., Karunarathna, Harshinie U., Lawn, Jonathan, Pan, Shunqi ORCID: https://orcid.org/0000-0001-8252-5991, Reeve, Dominic E., Rogers, Benedict, Souza, Alejandro, Stansby, Peter K., Sutherland, James, Tarrant, Owen, Walkden, Michael and Whitehouse, Richard 2012. iCOASST - integrating coastal sediment systems. Presented at: Proceedings of 33rd Conference on Coastal Engineering, Santander, Spain, 1-6 July 2012. Published in: Lynett, Patrick and Smith, Jane McKee eds. Coastal Engineering 2012: Proceedings of 33rd Annual Conference. Coastal Engineering Proceedings. (33) Coastal Engineering Research Council, 10.9753/icce.v33.sediment.100

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Abstract

UK coasts are subject to widespread erosion in part due to the cumulative effect of human intervention on soft coastlines, and further threatened due to more rapid change due to climate change, especially sea-level rise. At the same time, Shoreline Management now requires predictions of coastal evolution up to 100 years in the future. This leads to the challenge of predicting coastal geomorphic behaviour at the mesoscale (10 to 100 km and 10 to 100 years). Currently, this is often based on expert judgement. However, relevant components for mesoscale coastal simulation are emerging, including: (1) new methods for system-level analysis of coast, estuary and offshore landform behaviour, which include engineering and management interventions in a consistent manner to natural drivers; (2) well validated ‘bottom-up’ hydrodynamic and sediment transport models such as POLCOMS and TELEMAC; (3) operational ‘reduced complexity models’ of selected coastal landforms (e.g., cliffs (SCAPE), estuaries (ASMITA), saltmarsh (SLAMM)); and (4) growing observational datasets that allow data-driven approaches to coastal analysis and prediction. The iCOASST Project will use these components to develop and apply an integrated systems modelling framework for mesoscale coastal simulation as explained in this paper.

Item Type: Conference or Workshop Item (Paper)
Date Type: Publication
Status: Published
Schools: Engineering
Subjects: T Technology > TC Hydraulic engineering. Ocean engineering
Uncontrolled Keywords: coastal management; sediment transport; erosion; reduced complexity models; climate change impacts
Publisher: Coastal Engineering Research Council
ISBN: 9780989661119
ISSN: 2156-1028
Funders: NERC
Related URLs:
Last Modified: 25 Oct 2022 08:35
URI: https://orca.cardiff.ac.uk/id/eprint/53623

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