The study was prepared in order to support underwriters and clients in North America, the world's largest insurance and reinsurance market. Using its NatCatSERVICE -- with more than 30,000 records the most comprehensive loss data base for natural catastrophes -- Munich Re analyzes the frequency and loss trends of different perils from an insurance perspective. The North American continent is exposed to every type of hazardous weather peril -- tropical cyclone, thunderstorm, winter storm, tornado, wildfire, drought and flood. One reason for this is that there is no mountain range running east to west that separates hot from cold air.
According to a release, nowhere in the world is the rising number of natural catastrophes more evident than in North America. The study shows a nearly quintupled number of weather-related loss events in North America for the past three decades, compared with an increase factor of 4 in Asia, 2.5 in Africa, 2 in Europe and 1.5 in South America. Anthropogenic climate change is believed to contribute to this trend, though it influences various perils in different ways. Climate change particularly affects formation of heat-waves, droughts, intense precipitation events, and in the long run most probably also tropical cyclone intensity. The view that weather extremes are becoming more frequent and intense in various regions due to global warming is in keeping with current scientific findings, as set out in the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC) as well as in the special report on weather extremes and disasters (SREX). Up to now, however, the increasing losses caused by weather related natural catastrophes have been primarily driven by socio-economic factors, such as population growth, urban sprawl and increasing wealth.
Among many other risk insights the study now provides new evidence for the emerging impact of climate change. For thunderstorm-related losses the analysis reveals increasing volatility and a significant long-term upward trend in the normalized figures over the last 40 years. These figures have been adjusted to account for factors such as increasing values, population growth and inflation. A detailed analysis of the time series indicates that the observed changes closely match the pattern of change in meteorological conditions necessary for the formation of large thunderstorm cells. Thus it is quite probable that changing climate conditions are the drivers. The climatic changes detected are in line with the modeled changes due to human-made climate change.
The Head of Munich Re's Geo Risks Research unit, Prof. Peter Höppe said, "In all likelihood, we have to regard this finding as an initial climate-change footprint in our US loss data from the last four decades. Previously, there had not been such a strong chain of evidence. If the first effects of climate change are already perceptible, all alerts and measures against it have become even more pressing." Höppe continued that even without changing hazard conditions, increases in population, built-up areas and increasing values, particularly in hazard-prone regions, need to be on Munich Re's risk radar. All stakeholders should collaborate and close ranks to support improved adaptation. In addition, climate change mitigation measures should be supported to limit global warming in the long term to a still manageable level. He said, "As North America is particularly exposed to all kinds of weather risks, it especially would benefit from this."
Peter Röder, Board member with responsibility for the US market said, "Climate change-related increases in hazards -- unlike increases in exposure -- are not automatically reflected in the premiums. In order to realize a sustainable model of insurance, it is crucially important for us as risk managers to learn about this risk of change and find improved solutions for adaptation, but also mitigation. We should prepare for the weather risk changes that lie ahead, and nowhere more so than in North America."
Tony Kuczinski, CEO of Munich Reinsurance America said, "This publication represents another contribution to the global dialogue concerning weather-related activities and their causes. What is clearly evident when the longterm data is reviewed is that losses from weather events are trending upward. To simply say that this trend is a statistical anomaly or part of a long-term cycle of activity misses the point of these efforts -- we must set aside our biases and continue a meaningful dialogue in search of answers to mitigate the losses that we are experiencing."
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