Abstract
Abstract. Coastal cities are vulnerable to flooding, and flood risk to coastal cities will increase due to sea-level rise. Moreover, Asian cities in particular are subject to considerable population growth and associated urban developments, increasing this risk even more. Empirical data on vulnerability and the cost and benefits of flood risk reduction measures are therefore paramount for sustainable development of these cities. This paper presents an approach to explore the impacts of sea-level rise and socio-economic developments on flood risk for the flood-prone District 4 in Ho Chi Minh City, Vietnam, and to develop and evaluate the effects of different adaptation strategies (new levees, dry- and wet proofing of buildings and elevating roads and buildings). A flood damage model was developed to simulate current and future flood risk using the results from a household survey to establish stage–damage curves for residential buildings. The model has been used to assess the effects of several participatory developed adaptation strategies to reduce flood risk, expressed in expected annual damage (EAD). Adaptation strategies were evaluated assuming combinations of both sea-level scenarios and land-use scenarios. Together with information on costs of these strategies, we calculated the benefit–cost ratio and net present value for the adaptation strategies until 2100, taking into account depreciation rates of 2.5% and 5%. The results of this modelling study indicate that the current flood risk in District 4 is USD 0.31 million per year, increasing up to USD 0.78 million per year in 2100. The net present value and benefit–cost ratios using a discount rate of 5 % range from USD −107 to −1.5 million, and from 0.086 to 0.796 for the different strategies. Using a discount rate of 2.5% leads to an increase in both net present value and benefit–cost ratio. The adaptation strategies wet-proofing and dry-proofing generate the best results using these economic indicators. The information on different strategies will be used by the government of Ho Chi Minh City to determine a new flood protection strategy. Future research should focus on gathering empirical data right after a flood on the occurring damage, as this appears to be the most uncertain factor in the risk assessment.
Highlights
Coastal cities are vulnerable to flood risk, as shown by the recent floods in New York City, USA (2012), Manila, Philippines (2012, 2013) and Brisbane, Australia (2011)
Ho Chi Minh City (HCMC) in Vietnam is a typical example of a vulnerable coastal city, which is frequently hit by floods
The inundated area increases when looking at the baseline floods with return periods of 1/10, 1/100 and 1/1000. For floods with these return periods using the sea-level rise (SLR)+30 scenario, we see that the inundation depth increases, as already at the 1/10 flood return period the whole district is flooded
Summary
Coastal cities are vulnerable to flood risk, as shown by the recent floods in New York City, USA (2012), Manila, Philippines (2012, 2013) and Brisbane, Australia (2011). By the middle of this century, the majority of the world’s population will live in cities in or near deltas, estuaries or coastal zones, resulting in even more people located in highly exposed areas (Jongman et al, 2012). Such socio-economic trends further amplify the possible consequences of future floods, as more people move toward urban delta areas, and capital is continuously invested in ports, industrial centres and financial businesses in these flood-prone areas.
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