Is land subsidence increasing the exposure to sea level rise in Alexandria, Egypt?
Is land subsidence increasing the exposure to sea level rise in Alexandria, Egypt?
Delta margins are subject to relatively high rates of land subsidence and have the potential to significantly exacerbate future changes in sea levels predicted by global warming models used in impact studies. Through a combined analysis of GPS and persistent scatterer interferometry data, we determine that most of the coastline of Alexandria has been subject to moderate land subsidence over the past decade (0.4?mm/yr on average and up to 2?mm/yr locally). This contrasts to previous studies that suggested subsidence in excess of 3?mm/yr. Based on our findings, we infer that on multi-century to millennia timescales, land subsidence in the area of Alexandria is dominated by tectonic setting and earthquakes or gravitational collapse episodes of a growth fault, whereas on shorter interseismic decadal to century timescales, subsidence rates are likely steady and moderate, in agreement with natural compaction and dewatering of the observed Holocene sediment layer
Wöppelmann, G.
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Le Cozannet, G.
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de Michele, M.
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Raucoules, D.
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Cazenave, A.
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Garcin, M.
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Hanson, S.
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Marcos, M.
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Santamaría-Gómez, A.
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Wöppelmann, G.
68a3a6fe-dac3-4b41-9a5e-a49dd6fa0a7d
Le Cozannet, G.
ea4b270c-e656-47e8-9016-5696f790e261
de Michele, M.
97961af2-46f7-4bd9-b303-3f98ca307a3a
Raucoules, D.
87f98760-a7e1-426f-98c6-ec28a9b6aedb
Cazenave, A.
e557878c-4c34-43b5-8964-171e8564741c
Garcin, M.
f9cb95aa-fe05-4d3c-8598-d30a0275cdc3
Hanson, S.
dc079588-5eb2-4177-8df5-01fa493d8c16
Marcos, M.
3cd7a6cd-def3-47a9-a7c4-7ef305fc0bf1
Santamaría-Gómez, A.
2bb620c8-9bcd-4464-b4d0-d2b3cd9ba78d
Wöppelmann, G., Le Cozannet, G., de Michele, M., Raucoules, D., Cazenave, A., Garcin, M., Hanson, S., Marcos, M. and Santamaría-Gómez, A.
(2013)
Is land subsidence increasing the exposure to sea level rise in Alexandria, Egypt?
Geophysical Research Letters.
(doi:10.1002/grl.50568).
Abstract
Delta margins are subject to relatively high rates of land subsidence and have the potential to significantly exacerbate future changes in sea levels predicted by global warming models used in impact studies. Through a combined analysis of GPS and persistent scatterer interferometry data, we determine that most of the coastline of Alexandria has been subject to moderate land subsidence over the past decade (0.4?mm/yr on average and up to 2?mm/yr locally). This contrasts to previous studies that suggested subsidence in excess of 3?mm/yr. Based on our findings, we infer that on multi-century to millennia timescales, land subsidence in the area of Alexandria is dominated by tectonic setting and earthquakes or gravitational collapse episodes of a growth fault, whereas on shorter interseismic decadal to century timescales, subsidence rates are likely steady and moderate, in agreement with natural compaction and dewatering of the observed Holocene sediment layer
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e-pub ahead of print date: 18 June 2013
Organisations:
Energy & Climate Change Group
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Local EPrints ID: 354109
URI: http://eprints.soton.ac.uk/id/eprint/354109
ISSN: 0094-8276
PURE UUID: 5ce5c20c-78ef-48a3-854b-629f1ddb0a16
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Date deposited: 01 Jul 2013 13:32
Last modified: 14 Mar 2024 14:14
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Author:
G. Wöppelmann
Author:
G. Le Cozannet
Author:
M. de Michele
Author:
D. Raucoules
Author:
A. Cazenave
Author:
M. Garcin
Author:
M. Marcos
Author:
A. Santamaría-Gómez
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