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Predicting locations sensitive to flash flooding in an arid environment

Predicting locations sensitive to flash flooding in an arid environment
Predicting locations sensitive to flash flooding in an arid environment
Flash floods are a common, but poorly understood feature of arid environments. Much of the uncertainty associated with flash flooding events is associated with a lack of accurate environmental data. In addition to limiting the understanding of hydrological processes, this situation handicaps human use and development in such regions, necessitating the use of modelling approaches for environmental prediction. Here, a hydrological model driven mainly by information on land cover distribution (derived by satellite remote sensing) and soil properties (derived from field measurement) was used to predict sites at risk from large peak flows associated with flash flooding in a wadi located in the Eastern Desert of Egypt. The land cover map was derived from a maximum likelihood classification of a Landsat TM image and had an estimated accuracy of 89.5%. The soils of the classes depicted in this map differed markedly in terms of texture and permeability, with the field based estimates of infiltration capacity ranging from 0.07 cm h?1 for desert pavement through 14.01 cm h?1 for unconsolidated wadi bed deposits. Using the derived information within the hydrological modelling system, the discharge from the wadi and its sub-basins was predicted for an assumed severe storm scenario. The outputs of the model indicated two locations within the wadi where a very large peak discharge (>115 m3 s?1) could be expected. These sites corresponded to those that suffered flood damage in a recent storm event. The results indicate the potential to drive an integrated hydrological model from limited data to derive important and useful hydrological information in a region where data are scarce.
Flash flood, remote sensing, hydrologic model, land cover
0022-1694
48-58
Foody, G.M.
06e50027-603d-4a5b-88f5-af2bb6235a37
Ghoneim, E.M.
1ae6ab57-f57b-41de-bf2e-6607814cc935
Arnell, N.W.
196119de-cdf5-4ba8-a5d5-5e5cf4c88085
Foody, G.M.
06e50027-603d-4a5b-88f5-af2bb6235a37
Ghoneim, E.M.
1ae6ab57-f57b-41de-bf2e-6607814cc935
Arnell, N.W.
196119de-cdf5-4ba8-a5d5-5e5cf4c88085

Foody, G.M., Ghoneim, E.M. and Arnell, N.W. (2004) Predicting locations sensitive to flash flooding in an arid environment. Journal of Hydrology, 292 (1-4), 48-58. (doi:10.1016/j.jhydrol.2003.12.045).

Record type: Article

Abstract

Flash floods are a common, but poorly understood feature of arid environments. Much of the uncertainty associated with flash flooding events is associated with a lack of accurate environmental data. In addition to limiting the understanding of hydrological processes, this situation handicaps human use and development in such regions, necessitating the use of modelling approaches for environmental prediction. Here, a hydrological model driven mainly by information on land cover distribution (derived by satellite remote sensing) and soil properties (derived from field measurement) was used to predict sites at risk from large peak flows associated with flash flooding in a wadi located in the Eastern Desert of Egypt. The land cover map was derived from a maximum likelihood classification of a Landsat TM image and had an estimated accuracy of 89.5%. The soils of the classes depicted in this map differed markedly in terms of texture and permeability, with the field based estimates of infiltration capacity ranging from 0.07 cm h?1 for desert pavement through 14.01 cm h?1 for unconsolidated wadi bed deposits. Using the derived information within the hydrological modelling system, the discharge from the wadi and its sub-basins was predicted for an assumed severe storm scenario. The outputs of the model indicated two locations within the wadi where a very large peak discharge (>115 m3 s?1) could be expected. These sites corresponded to those that suffered flood damage in a recent storm event. The results indicate the potential to drive an integrated hydrological model from limited data to derive important and useful hydrological information in a region where data are scarce.

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More information

Published date: 2004
Keywords: Flash flood, remote sensing, hydrologic model, land cover

Identifiers

Local EPrints ID: 15440
URI: http://eprints.soton.ac.uk/id/eprint/15440
ISSN: 0022-1694
PURE UUID: be579d00-83d5-432e-90e0-eb9e23a48c30

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Date deposited: 14 Apr 2005
Last modified: 15 Mar 2024 05:39

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Contributors

Author: G.M. Foody
Author: E.M. Ghoneim
Author: N.W. Arnell

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