Abstract
Floods in the Mekong delta are recurring events and cause substantial losses to the economy. Sea level rise and increasing precipitation during the wet season result in more frequent floods. For effective flood risk management, reliable losses and risk analyses are necessary. However, knowledge about damaging processes and robust assessments of flood losses in the Mekong delta are scarce. In order to fill this gap, we identify and quantify the effects of the most important variables determining flood losses in Can Tho city through multi-variate statistical analyses. Our analysis is limited to the losses of residential buildings and contents. Results reveal that under the specific flooding characteristics in the Mekong delta with relatively well-adapted households, long inundation durations and shallow water depths, inundation duration is more important than water depth for the resulting loss. However, also building and content values, floor space of buildings and building quality are important loss-determining variables. Human activities like undertaking precautionary measures also influence flood losses. The results are important for improving flood loss modelling and, consequently, flood risk assessments in the Mekong delta.
Highlights
Floods are recurring natural phenomena [1]
The objective of this study is to improve the quantitative knowledge about damaging processes and loss-determining variables for residential buildings in the Mekong delta, in Can Tho city
Through multi-variate statistical analysis, we analyze the correlations among potential flood loss predictors and their single and joint effects on loss parameters
Summary
Floods can be caused by extreme rainfall events, sometimes in combination with snow melt inland or by storm surges in coastal area [2]. In addition to extreme hydro-meteorological events, different anthropogenic activities, such as population growth, extensive urbanization, land use and poverty distribution, play an important role in producing catastrophic floods [5]. The number of large inland flood catastrophes between 1996 and 2005 was twice as large, per decade, than between 1950 and 1980, while the economic losses increased by a factor of five [6]. The impacts of floods can be significantly reduced through a holistic approach to “flood risk management”. Flood risk management now is focused on technical measures, such as dyke systems, and on reducing exposure and vulnerability [7,8]. The estimation of flood losses supplies crucial information to decision support and policy development in the fields of flood management [9]
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