Topography Wetness Index Application in Flood-Risk-Based Land Use Planning

Land use planners and drainage engineers require, among other information, a clear map that delineates land subject to flash flooding before they can approve residential development. Through the application of spatially distributed models, the topographic wetness index (TWI) can be determined as an...

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Published inApplied spatial analysis and policy Vol. 9; no. 1; pp. 39 - 54
Main Authors Pourali, S. H., Arrowsmith, C., Chrisman, N., Matkan, A. A., Mitchell, D.
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.03.2016
Springer Nature B.V
Subjects
Drainage
Engineers
Human Geography
Land use planning
Landscape/Regional and Urban Planning
Planners
Regional/Spatial Science
Risk
Social Sciences
Topography
Australia
Victoria Australia
GIS
Flood
Land use planning
Victoria
LiDAR
Australia
Bass coast shire
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Abstract Land use planners and drainage engineers require, among other information, a clear map that delineates land subject to flash flooding before they can approve residential development. Through the application of spatially distributed models, the topographic wetness index (TWI) can be determined as an alternative to the traditional approach of delineating flood-prone areas using contours alone. The TWI provides a more cost-efficient approach to flood determination than conventional hydrodynamic models. This paper describes an application of the TWI approach to a flood-prone study area in the town of Inverloch, Victoria, Australia. The TWI proved useful in the early stages of land use planning for residential development in Inverloch.
AbstractList Land use planners and drainage engineers require, among other information, a clear map that delineates land subject to flash flooding before they can approve residential development. Through the application of spatially distributed models, the topographic wetness index (TWI) can be determined as an alternative to the traditional approach of delineating flood-prone areas using contours alone. The TWI provides a more cost-efficient approach to flood determination than conventional hydrodynamic models. This paper describes an application of the TWI approach to a flood-prone study area in the town of Inverloch, Victoria, Australia. The TWI proved useful in the early stages of land use planning for residential development in Inverloch.
Author Chrisman, N.
Pourali, S. H.
Matkan, A. A.
Mitchell, D.
Arrowsmith, C.
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Keywords GIS
Flood
Land use planning
Victoria
LiDAR
Australia
Bass coast shire
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Snippet Land use planners and drainage engineers require, among other information, a clear map that delineates land subject to flash flooding before they can approve...
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SubjectTerms Drainage
Engineers
Human Geography
Land use planning
Landscape/Regional and Urban Planning
Planners
Regional/Spatial Science
Risk
Social Sciences
Topography
Title Topography Wetness Index Application in Flood-Risk-Based Land Use Planning
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