Natural Hazards and Earth System Sciences (Feb 2024)

Assessing LISFLOOD-FP with the next-generation digital elevation model FABDEM using household survey and remote sensing data in the Central Highlands of Vietnam

  • L. Hawker,
  • J. Neal,
  • J. Savage,
  • T. Kirkpatrick,
  • R. Lord,
  • Y. Zylberberg,
  • A. Groeger,
  • A. Groeger,
  • T. D. Thuy,
  • S. Fox,
  • F. Agyemang,
  • P. K. Nam

DOI
https://doi.org/10.5194/nhess-24-539-2024
Journal volume & issue
Vol. 24
pp. 539 – 566

Abstract

Read online

Flooding is an endemic global challenge with annual damages totalling billions of dollars. Impacts are felt most acutely in low- and middle-income countries, where rapid demographic change is driving increased exposure. These areas also tend to lack high-precision hazard mapping data with which to better understand or manage risk. To address this information gap a number of global flood models have been developed in recent years. However, there is substantial uncertainty over the performance of these data products. Arguably the most important component of a global flood model is the digital elevation model (DEM), which must represent the terrain without surface artifacts such as forests and buildings. Here we develop and evaluate a next generation of global hydrodynamic flood model based on the recently released FABDEM DEM. We evaluate the model and compare it to a previous version using the MERIT DEM at three study sites in the Central Highlands of Vietnam using two independent validation data sets based on a household survey and remotely sensed observations of recent flooding. The global flood model based on FABDEM consistently outperformed a model based on MERIT, and the agreement between the model and remote sensing was greater than the agreement between the two validation data sets.