Modelling the influences of climate change-associated sea-level rise and socioeconomic development on
future storm surge mortality
Modelling the influences of climate change-associated sea-level rise and socioeconomic development on
future storm surge mortality
Climate change is expected to affect health through changes in exposure to weather disasters. Vulnerability to coastal flooding has decreased in recent decades but remains disproportionately high in low-income countries. We developed a new statistical model for estimating future storm surge-attributable mortality. The model accounts for sea-level rise and socioeconomic change, and allows for an initial increase in risk as low-income countries develop. We used observed disaster mortality data to fit the model, splitting the dataset to allow the use of a longer time-series of high intensity, high mortality but infrequent events. The model could not be validated due to a lack of data. However, model fit suggests it may make reasonable estimates of log mortality risk but that mortality estimates are unreliable. We made future projections with and without climate change (A1B) and sea-based adaptation, but given the lack of model validation we interpret the results qualitatively. In low-income countries, risk initially increases with development up to mid-century before decreasing. If implemented, sea-based adaptation reduces climate-associated mortality in some regions, but in others mortality remains high. These patterns reinforce the importance of implementing disaster risk reduction strategies now. Further, while average mortality changes discontinuously over time, vulnerability and risk are evolving conditions of everyday life shaped by socioeconomic processes. Given this, and the apparent importance of socioeconomic factors that condition risk in our projections, we suggest future models should focus on estimating risk rather than mortality. This would strengthen the knowledge base for averting future storm surge-attributable health impacts.
Lloyd, S.J.
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Kovats, R.S.
411d4f90-f93c-43e9-8ef0-9d89d2f2641b
Chalabi, Z.
91e0f94b-ef9e-4038-96e8-99a8744c17f3
Brown, S.
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Nicholls, R.J.
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Lloyd, S.J.
8a4f4516-f858-43b1-b3e0-642b34f1ed03
Kovats, R.S.
411d4f90-f93c-43e9-8ef0-9d89d2f2641b
Chalabi, Z.
91e0f94b-ef9e-4038-96e8-99a8744c17f3
Brown, S.
dd3c5852-78cc-435a-9846-4f3f540f2840
Nicholls, R.J.
4ce1e355-cc5d-4702-8124-820932c57076
Lloyd, S.J., Kovats, R.S., Chalabi, Z., Brown, S. and Nicholls, R.J.
(2015)
Modelling the influences of climate change-associated sea-level rise and socioeconomic development on
future storm surge mortality.
Climatic Change.
(doi:10.1007/s10584-015-1376-4).
(In Press)
Abstract
Climate change is expected to affect health through changes in exposure to weather disasters. Vulnerability to coastal flooding has decreased in recent decades but remains disproportionately high in low-income countries. We developed a new statistical model for estimating future storm surge-attributable mortality. The model accounts for sea-level rise and socioeconomic change, and allows for an initial increase in risk as low-income countries develop. We used observed disaster mortality data to fit the model, splitting the dataset to allow the use of a longer time-series of high intensity, high mortality but infrequent events. The model could not be validated due to a lack of data. However, model fit suggests it may make reasonable estimates of log mortality risk but that mortality estimates are unreliable. We made future projections with and without climate change (A1B) and sea-based adaptation, but given the lack of model validation we interpret the results qualitatively. In low-income countries, risk initially increases with development up to mid-century before decreasing. If implemented, sea-based adaptation reduces climate-associated mortality in some regions, but in others mortality remains high. These patterns reinforce the importance of implementing disaster risk reduction strategies now. Further, while average mortality changes discontinuously over time, vulnerability and risk are evolving conditions of everyday life shaped by socioeconomic processes. Given this, and the apparent importance of socioeconomic factors that condition risk in our projections, we suggest future models should focus on estimating risk rather than mortality. This would strengthen the knowledge base for averting future storm surge-attributable health impacts.
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Lloyd et al Storm surge mort Rev3 manuscript.pdf
- Accepted Manuscript
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Lloyd et al Storm surge mort Rev3 References.pdf
- Accepted Manuscript
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Lloyd et al Storm surge mort Rev3 SuppMat.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 1 March 2015
Organisations:
Energy & Climate Change Group
Identifiers
Local EPrints ID: 375238
URI: http://eprints.soton.ac.uk/id/eprint/375238
PURE UUID: f3000e66-7444-4013-966c-71d55290f919
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Date deposited: 18 Mar 2015 15:20
Last modified: 15 Mar 2024 03:31
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Contributors
Author:
S.J. Lloyd
Author:
R.S. Kovats
Author:
Z. Chalabi
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