Andy Siffert, BMS’ resident Meteorologist, reviews the first 6 months of 2013 in terms of U.S. extreme weather events and their impact on the industry.
As we round the corner into the second half of 2013 we can now put into perspective some of the U.S. extreme weather events that occurred during the first half of the year. With the tally of some of these disasters still being assessed, the U.S. insurance losses estimated by Property Claims Services (PCS) will continue to rise. As of July 1, 2013 the U.S. has seen $6.8 billion in PCS claimed losses from weather events across the U.S. Considering the expected upward adjustment of claimed weather events, losses reported thus far would fall below the five-year average for first- and second-quarter weather-related losses, which total $13.1 billion. This below-average loss is primarily connected to the current “Tornado Drought” that has been ongoing since the second half of 2012. Severe convective storm outbreaks in May 2013 produced major tornadoes causing widespread damage to properties in Texas, Oklahoma, and other states. But as of July 1, the tornado count is 42% below the five-year average, with a major portion of the tornado activity occurring in the lower Mississippi and Tennessee River valleys. Given that May is peak tornado season in the Central Plains, it should be no surprise that strong and violent tornadoes formed and caused damage there. In Tornado Alley this typically occurs during the second quarter of the year, but the number of tornadic weather events in the Central Plains and Midwest regions has been below normal again this year.
The overall lower PCS loss numbers could also be a result of fewer hail events, which, according to Storm Prediction Center (SPC) storm report data, are currently 21% below normal (with only 3,714 hail reports). With the main drivers of severe convective storm losses resulting from the May 20 tornado in Moore, OK and overall hail reports below the five-year normal trend, it seems that derecho or straight-line wind events are the likely driver of most U.S. weather-related losses to-date. These events appear to be trending with the five-year SPC severe wind reports, which as of July 1 stand at 7,360 vs the five-year mid-year average of 7,369 severe wind reports.
The Black Forest wildfire in Colorado appears to be one of the most destructive fires in Colorado’s history. Because of this, wildfires have been getting a lot of media attention lately and it might be interesting to put the current wildfire season into perspective.
According to the National Interagency Fire Center, the U.S. is about a million acres below the 10-year running mean of 2.4 million acres burned in the 22,050 wildfires that have been reported. This is also 15,000 fires fewer than the 10-year running mean. In fact, in 2013 there have been fewer fires than in any of the last 10 years, and the year stands next to last in terms of acres burned.
Like the tornado season, so far the fire season has been well below normal. The Black Forest wildfire in Colorado and the recent deaths of 19 fire fighters in the Yarnell Hill, Arizona wildfire are examples of fires that stick out like a sore thumb in a below-normal wildfire season – just like the two late-May tornadoes which were exceptions to the trend of the overall tornado season.
It is my understanding that in both the Black Forest and Yarnell wildfires, areas burned that had not burned in the previous 40 years – which has to be a major factor contributing to the wildfire catastrophe. The media would say the fires are due to dry conditions, which definitely exist and in some cases are extreme. But if it had been a wet spring, then more fuel would have been available as the summers always see drier conditions in the southwest. The old saying, “Pay me now or pay me later” applies here: If it’s wet, the resulting new growth will eventually dry out and die. And if it’s dry and dead, it will eventually burn.
Worldwide, recent catastrophes seem to be focused largely on flooding-related events, with the notable events originating from the remnants of Tropical Cyclone Oswald that triggered severe flooding in Queensland and New South Wales in Australia. More recently, flood losses that impacted a large area along the Elbe river basin in Europe will likely surpass the 2002 European flood losses. In North America, heavy rainfall provoked catastrophic flooding in southern Alberta, Canada – which will likely go down as the largest flood-related loss ever experienced in Canada. However, with the 7th-latest start to the typhoon season, few typhoons have resulted in flooding or the kind of disasters typically seen in Asia. In fact, global Accumulated Cyclone Energy (ACE) is still stuck in the lowest range – which began in 2007 and is similar to the 1980s. Before Super Typhoon Soulik was upgraded on July 10 to a major 96+ knots tropical cyclone, the last major tropical cyclone, Sandra hit just east of Australia on March 11. And the clock is still ticking on the 2,811 days since the U.S. was last hit by a Cat3+ hurricane – the longest such period since 1900, if not before.
Overall it would appear there is a silver lining – because extreme weather events could be worse based on past years, plus you can’t control nature. Most often, catastrophic events like the wildfires, tornadoes and floods of 2013 can be tied to events of similar magnitude that occurred in the past. We are building bigger towns in locations where catastrophic events have occurred in the past, and the understanding of changes in population, income and housing units can often explain the increase in loss.