Extreme weather events
Name(s):
Freak weather
Increasing incidence of record meteorological events
Nature
Extreme weather includes unexpected, unusual, severe, or unseasonal weather; weather at the extremes of the historical distribution—the range that has been seen in the past. Extreme events are based on a location's recorded weather history. They are defined as lying in the most unusual ten percent (10th or 90th percentile of a probability density function). The main types of extreme weather include heat waves, cold waves and heavy precipitation or storm events, such as tropical cyclones. The effects of extreme weather events are economic costs, loss of human lives, droughts, floods, landslides. Severe weather is a particular type of extreme weather which poses risks to life and property.
Weather patterns can experience some variation, and so extreme weather can be attributed, at least in part, to the natural climate variability that exists on Earth. For example, the El Niño-Southern Oscillation (ENSO) or the North Atlantic Oscillation (NAO) are climate phenomena that impact weather patterns worldwide. Generally speaking, one event in extreme weather cannot be attributed to any one single cause. However, certain system wide changes to global weather systems can lead to increased frequency or intensity of extreme weather events.
Climate change is making some extreme weather events more frequent and more intense.: 1517 This applies in particular to heat waves and cold waves. The science of extreme event attribution looks at the reasons behind extreme events. Scientists are fairly sure that climate change makes heavy rainfall events as well as drought periods more severe. Climate models indicate that rising temperatures will make extreme weather events worse worldwide.
Extreme weather has serious impacts on human society and on ecosystems. There is loss of human lives, damage to infrastructure and ecosystem destruction. For example, a global insurer Munich Re estimates that natural disasters cause more than $90 in billion global direct losses in 2015. Some human activities can exacerbate the effects, for example poor urban planning, wetland destruction, and building homes along floodplains.
Source: Wikipedia
Incidence
Total winter precipitation in the United States had increased by 10 percent since 1900 and that "extreme precipitation events" -- rainstorms that dumped more than two inches of water in twenty-four hours and blizzards -- had increased by 20 percent.
Global warming models indicate that rising global temperatures are likely to affect many atmospheric parameters including precipitation and wind velocity, and raise the incidence of extreme weather events, including storms and heavy rainfall, cyclones and drought. It may or may not be just coincidence that the Munich Reinsurance Company recorded more than 700 'large loss events' in 1998, compared with between 530 and 600 during previous recent years. The most frequent natural catastrophes were windstorms (240) and floods (170), which accounted for 85 per cent of the total economic losses (Munich Re 1998).
Claim
Engineers designing storm sewers, bridges, and culverts used to plan for what they called the "hundred-year storm." That is, they built to withstand the worst flooding or wind that history led them to expect in the course of a century. That history no longer applies. "There isn't really a hundred-year event anymore... we seem to be getting these storms of the century every couple of years." The flood of the Red River over Grand Forks, North Dakota in the spring of 1997 was referred to by some as "a 500-year flood" -- meaning, that prediction of the old kind is finished; that these are not acts of God.
Narrower
Aggravates
Aggravated by
Strategy(ies)
Type
(F) Fuzzy exceptional problems