EGU2020-79
https://doi.org/10.5194/egusphere-egu2020-79
EGU General Assembly 2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

The asynergies of disaster risk reduction measures in Afghanistan

Marleen de Ruiter1, Jens de Bruijn1,2, James Daniell3, Johanna Englhardt1, Philip Ward1, and Hans de Moel1
Marleen de Ruiter et al.
  • 1VU University Amsterdam - Institute for Environmental Studies, Water and Climate Risk department
  • 2International Institute for Applied System Analysis (IIASA) - Water Program
  • 3Geophysical Institute and Center for Disaster Management and Risk Reduction Technology, Karlsruhe Institute of Technology (KIT)

Many countries face the risk of multiple hazards. The UNDRR’s Global Platform for Disaster Risk Reduction have called upon the science community for an increased understanding of the complexities of multi-hazard risk (UNDRR 2019). Nonetheless, in the currently prevailing risk assessment paradigm, risk is often represented as static and fragmented in terms of hazard types. While positively influencing the risk of one hazard, DRR measures can have adverse effects on the risk of another hazard type thereby increasing the vulnerability of the built environment, exacerbating impacts and potentially causing compound or cascading disasters. For example, wood-frame buildings tend to perform well under ground shaking but are likely to sustain higher damages due to an inundation than concrete buildings. We refer to these negative impacts between hazards as the asynergy of a DRR measure. Due to the predominantly single-hazard approach, the potential asynergies of DRR measures remain poorly understood.

In a case study of Afghanistan, we calculate the asynergies of building level DRR measures for floods and earthquakes. To this extent, we develop two increased-resilience scenarios where a decrease in flood and earthquake vulnerability are mimicked. These scenarios are used to assess the asynergies and to illustrate to what degree a risk reduction of one risk may actually be offset by an increase of the other risk. This can then be used to show which type of measure is worthwhile in which area.

An improved capability of understanding risk more holistically would strongly benefit first responders, aid organizations, urban planners and decision makers in designing sustainable DRR measures. We discuss several key potential asynergies of building level DRR measures for floods and earthquakes tailored to decrease the risk of one hazard on the risk of the other hazard. Finally, we outline a roadmap highlighting key future research and policy directions, and possible ways to strengthen coherent policies for DRR.

How to cite: de Ruiter, M., de Bruijn, J., Daniell, J., Englhardt, J., Ward, P., and de Moel, H.: The asynergies of disaster risk reduction measures in Afghanistan, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-79, https://doi.org/10.5194/egusphere-egu2020-79, 2019

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