Author
Listed:
- Jakob Zscheischler
(ETH Zurich)
- Seth Westra
(University of Adelaide)
- Bart J. J. M. Hurk
(Royal Netherlands Meteorological Institute (KNMI)
Vrije Universiteit Amsterdam)
- Sonia I. Seneviratne
(ETH Zurich)
- Philip J. Ward
(Vrije Universiteit Amsterdam)
- Andy Pitman
(University of New South Wales)
- Amir AghaKouchak
(University of California)
- David N. Bresch
(ETH Zurich
MeteoSwiss)
- Michael Leonard
(University of Adelaide)
- Thomas Wahl
(University of Central Florida)
- Xuebin Zhang
(Environment and Climate Change Canada)
Abstract
Floods, wildfires, heatwaves and droughts often result from a combination of interacting physical processes across multiple spatial and temporal scales. The combination of processes (climate drivers and hazards) leading to a significant impact is referred to as a ‘compound event’. Traditional risk assessment methods typically only consider one driver and/or hazard at a time, potentially leading to underestimation of risk, as the processes that cause extreme events often interact and are spatially and/or temporally dependent. Here we show how a better understanding of compound events may improve projections of potential high-impact events, and can provide a bridge between climate scientists, engineers, social scientists, impact modellers and decision-makers, who need to work closely together to understand these complex events.
Suggested Citation
Jakob Zscheischler & Seth Westra & Bart J. J. M. Hurk & Sonia I. Seneviratne & Philip J. Ward & Andy Pitman & Amir AghaKouchak & David N. Bresch & Michael Leonard & Thomas Wahl & Xuebin Zhang, 2018.
"Future climate risk from compound events,"
Nature Climate Change, Nature, vol. 8(6), pages 469-477, June.
Handle:
RePEc:nat:natcli:v:8:y:2018:i:6:d:10.1038_s41558-018-0156-3
DOI: 10.1038/s41558-018-0156-3
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