‘Black Swan’ storms: rising ocean temperatures could spawn birth of super-storms

A “black swan” cyclone may sound like the latest comic book hero, but this “extreme of the extremes” is the result of climate models that suggest global warming will make future hurricanes more intense. The rare monster tropical cyclones (the term for hurricanes, typhoons and other tropical storms) could inundate coastal areas with storm surges greater than 15 feet (4.6 meters), and could even surpass 30 feet (9 m) in some regions of the world. The research was described here yesterday (Dec. 3) at the annual meeting of the American Geophysical Union. By simulating thousands of possible future storms, researchers identified the outliers that could hit coastal areas in the future but that wouldn’t show up in predictions based solely on historical records, said Ning Lin, a professor at Princeton University. The scientists relied on the same model the National Weather Service uses to predict hurricane activity for a given season. Lin and colleague Kerry Emanuel of MIT looked at the possible storm surge from extreme storms in three locations: Tampa Bay, Fla., Dubai, United Arab Emirates (UAE), and Darwin, Australia. Lin said more than 16 feet (5 m) of surge was possible in Tampa Bay. A Florida black swan hurricane would move northward, parallel to the west Florida coast. The probability of one of these storms hitting Tampa Bay is one in 10,000, Lin said. Even though Hurricane Sandy broke several records and generated tremendous storm surge, the superstorm was not a black swan, Lin said. The simulated storm surges calculated by the model for New York, at up to 16 feet, top the record set by Hurricane Sandy, at 14 feet (4.3 m) — part of which was the high tide at the time. Tropical cyclones are already extremely rare in the Arabian Sea, with its low humidity and high wind shear, which disrupts storm formation, but one made landfall in Oman and Iran in 2007. Extreme storm surges of 30 feet (9 m) in Abu Dhabi, UAE, and Doha, Qatar, and 23 feet (7 m) in Dubai are possible as a result of a black swan storm, the researchers report in their abstract for the meeting. Finally, in Darwin, which was immensely devastated by Cyclone Tracy in 1974, a black swan storm could generate surges above 33 feet (10 m), the researchers plan to report in a talk on their findings on Tuesday. The model Lin and Emanuel used to look at the effect of black swans takes into account the effects of climate change. Rising ocean temperatures have shifted the intensity of tropical cyclones, which include hurricanes and typhoons, to higher levels. In the past century, sea surface temperatures have risen 0.9 degree Fahrenheit (0.5 degree Celsius) globally. Scientists continue to debate whether this increase in temperature will boost the intensity or decrease the number of storms. Globally, about 90 tropical cyclones, on average, occur every year. EP