Estimating the long-term historic evolution of exposure to flooding of coastal populations
Estimating the long-term historic evolution of exposure to flooding of coastal populations
Coastal managers face the task of assessing and managing flood risk. This requires knowledge of the area of land, the number of people, properties and other infrastructure potentially affected by floods. Such analyses are usually static; i.e. they only consider a snapshot of the current situation. This misses the opportunity to learn about the role of key drivers of historical changes in flood risk, such as development and population rise in the coastal flood plain and sea-level rise.
In this paper, we develop and apply a method to analyse the temporal evolution of residential population exposure to coastal flooding. It uses readily available data in a GIS environment. We examine how population and sea level change modify exposure over two centuries in two neighbouring coastal sites: Portsea and Hayling Islands on the UK south coast. The analysis shows that flood exposure changes as a result of increases in population, changes in coastal population density and sea level rise. The results indicate that to date, population change is the dominant driver of the increase in exposure to flooding in the study sites, but climate change may outweigh this in the future. A full analysis of flood risk is not possible as data on historic defences and wider vulnerability are not available. Hence, the historic evolution of flood exposure is as close as we can get to a historic evolution of flood risk.
The method is applicable anywhere that suitable floodplain geometry, sea level and population datasets are available and could be widely applied, and will help inform coastal managers of the time evolution in coastal flood drivers
flooding, exposure, coast
1681-1715
Stevens, A.J.
fab8e88b-0e62-488b-be4f-c8a3cb9988db
Clarke, D.
9746f367-1df2-4e0e-8d71-5ecfc9ddd000
Nicholls, R.J.
4ce1e355-cc5d-4702-8124-820932c57076
Wadey, M.P.
e712b840-f36b-41aa-ae28-d4d81de31831
27 February 2015
Stevens, A.J.
fab8e88b-0e62-488b-be4f-c8a3cb9988db
Clarke, D.
9746f367-1df2-4e0e-8d71-5ecfc9ddd000
Nicholls, R.J.
4ce1e355-cc5d-4702-8124-820932c57076
Wadey, M.P.
e712b840-f36b-41aa-ae28-d4d81de31831
Stevens, A.J., Clarke, D., Nicholls, R.J. and Wadey, M.P.
(2015)
Estimating the long-term historic evolution of exposure to flooding of coastal populations.
Natural Hazards and Earth System Sciences Discussions, 3 (2), .
(doi:10.5194/nhessd-3-1681-2015).
Abstract
Coastal managers face the task of assessing and managing flood risk. This requires knowledge of the area of land, the number of people, properties and other infrastructure potentially affected by floods. Such analyses are usually static; i.e. they only consider a snapshot of the current situation. This misses the opportunity to learn about the role of key drivers of historical changes in flood risk, such as development and population rise in the coastal flood plain and sea-level rise.
In this paper, we develop and apply a method to analyse the temporal evolution of residential population exposure to coastal flooding. It uses readily available data in a GIS environment. We examine how population and sea level change modify exposure over two centuries in two neighbouring coastal sites: Portsea and Hayling Islands on the UK south coast. The analysis shows that flood exposure changes as a result of increases in population, changes in coastal population density and sea level rise. The results indicate that to date, population change is the dominant driver of the increase in exposure to flooding in the study sites, but climate change may outweigh this in the future. A full analysis of flood risk is not possible as data on historic defences and wider vulnerability are not available. Hence, the historic evolution of flood exposure is as close as we can get to a historic evolution of flood risk.
The method is applicable anywhere that suitable floodplain geometry, sea level and population datasets are available and could be widely applied, and will help inform coastal managers of the time evolution in coastal flood drivers
Text
nhessd-3-1681-2015.pdf
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Accepted/In Press date: 6 February 2015
Published date: 27 February 2015
Keywords:
flooding, exposure, coast
Organisations:
Physical Oceanography, Water & Environmental Engineering Group
Identifiers
Local EPrints ID: 374733
URI: http://eprints.soton.ac.uk/id/eprint/374733
PURE UUID: 1d01aa4c-c05d-4b9f-bf16-ac9c3a4a34ac
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Date deposited: 02 Mar 2015 09:11
Last modified: 15 Mar 2024 03:18
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Contributors
Author:
A.J. Stevens
Author:
M.P. Wadey
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