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Super typhoon haiyan: a hint of what’s to come?

Climate Central

Super Typhoon Haiyan was one of the most intense tropical cyclones at landfall on record when it struck the Philippines on Nov. 7. Its maximum sustained winds at landfall were pegged at 195 mph with gusts above 220 mph. Some meteorologists even proclaimed it to be the strongest tropical cyclone at landfall in recorded history.

Haiyan’s strength and the duration of its Category 5 intensity — the storm remained at peak Category 5 intensity for an incredible 48 straight hours — raises the question of whether manmade global warming tipped the odds in favor of such an extreme storm. After all, the global atmosphere contains 4 percent more water vapor than there was in the 1970s and global air and sea surface temperatures are higher now than they used to be, due in large part to manmade global warming as well as natural climate variability. These changes would, in theory at least, lead to stronger and wetter storms.

High-resolution satellite image of Super Typhoon Haiyan at its peak intensity on Nov. 7. Credit: NOAA/CIRA.

Hurricane researchers contacted by Climate Central said Haiyan is an example of the type of extreme storm that may become more frequent as the climate continues to warm. But there is more consensus about the stormier future than there is about the present. The researchers also urged caution in attributing Haiyan’s strength to global warming, given the lack of evidence that manmade global warming has had any detectable influence on Western Pacific typhoons, let alone tropical cyclones in general (an umbrella term that includes typhoons and hurricanes).

Brian McNoldy, a a senior research associate at the University of Miami, told Climate Central that, “While Haiyan was absolutely amazing, it’s not alone. It’s in an elite company of a handful of other tropical cyclones scattered across the decades and across the world.”

McNoldy downplayed global warming’s role in helping to fuel Super Typhoon Haiyan, saying, “We don’t get to pick and choose which storms are enhanced by a warmer climate and which ones aren’t, so this was just as subject to this year’s climate as the numerous others that weren’t so impressive. Extremely intense tropical cyclones are rare, but have always been a part of nature — we don’t need to find an excuse for them.”

Gabe Vecchi, a research oceanographer with the National Oceanic and Atmospheric Administration (NOAA), said that if global warming altered Haiyan, it did not do so to a significant extent. “I expect that the contribution of global warming to Haiyan’s extreme intensity is likely to have been small, relative to other factors like weather fluctuations and climate variability.”

Graphic showing the total amount of heat energy available for Super Typhoon Haiyan to absorb, not just on the surface, but integrated through the water column. Deeper, warmer pools of water are colored purple, though any region colored from pink to purple has sufficient energy to fuel storm intensification. The dotted line represents the best-track and forecast data as of 16:00 UTC on Nov. 7. Credit: NOAA

 

Climate research has not yet provided a clear picture of how global warming is altering tropical cyclones around the world. Importantly, though, studies are providing clues that we may be in for a much stormier future, with more intense storms that bring with them stronger winds, heavier rainfall, and greater storm surge due to sea level rise.

First, there’s what the science says about the present state of the atmosphere. Between theU.N. Intergovernmental Panel on Climate Change’s (IPCC) report in 2007 and the latest report released earlier this year, the science has become less certain on global warming’s influence on such storms. That’s partly because the historical records of tropical cyclones, be they hurricanes in the Atlantic or Pacific Typhoons, are full of gaps in the data, varying methodologies and inaccuracies.

The most recent IPCC report said: “Globally, there is low confidence in attribution of changes in tropical cyclone activity to human influence.” The IPCC found that insufficient observational evidence, a lack of understanding regarding the physical connection between manmade climate change and tropical storms, and considerable disagreement between studies justified downplaying any detectable changes in tropical cyclones due to global warming.

What is clearer and more worrisome than the present picture, though, is what is expected to happen in coming decades, assuming that the climate continues to warm as expected. In general, the latest IPCC report found that manmade global warming is likely to make tropical cyclones produce more rainfall and have higher wind speeds than they typically do now, but the frequency of these storms may decline in some ocean basins.

Monster storms like Haiyan may, in fact, become more common in the future, thanks to a readier supply of warm ocean waters and possible changes to atmospheric wind shear, which can tear storms apart, in some ocean basins that could aid such storms (such changes could also inhibit storms in other ocean basins). Some studies have found that manmade emissions of soot in South Asia, in addition to global warming, have already lessened wind shear over the Indian Ocean, leading to an increase in tropical cyclone intensities there in recent years.

“The available modelling studies that are capable of producing very strong cyclones typically project substantial increases in the frequency of the most intense cyclones and it is more likely than not that this increase will be larger than 10 percent in some basins,” the IPCC report said. Given that the strongest storms tend to be responsible for a disproportionate share of storm damage and loss of life, the IPCC report said, “It should be emphasized that this metric is generally more important to physical and societal impacts than overall frequency or mean intensity.”

Projected changes in tropical cyclone statistics. All values represent expected percent change in the average over period 2081–2100 relative to 2000–2019, under a high emissions scenario. The metrics presented here include the total annual frequency of tropical storms, the annual frequency of Category 4 and 5 storms, the mean lifetime maximum intensity of tropical cyclones, and the precipitation rate within 200 km of the storm center at its most intense point. The solid blue line is the best guess of the expected percent change, and the coloured bar provides the likely confidence interval for this value.
Credit: IPCC Working Group II.

Vecchi, who has published a slew of scientific papers on hurricanes and global warming, told Climate Central that it may not be until the end of this century that a global warming signal emerges in tropical cyclone records.

“ . . . Globally, and by the end of the 21st century, we expect global warming to make tropical cyclones (hurricanes, typhoons and cyclones) more intense, and the frequency of the most intense storms (like Haiyan) is expected to increase,” Vecchi said in an email. “However, we have much less confidence in what global warming should do in each individual basin.”

While the scientific consensus clearly skews toward stronger, wetter, but less frequent tropical cyclones in the coming decades, there are some studies that depart from that view. In fact, a study published in the journal Proceedings of the National Academy of Sciences in July found that tropical cyclones are likely to become both stronger and more frequent in the years to come, with a huge jump in storm frequency and intensity in the Northwest Pacific Ocean Basin. The study, by MIT hurricane expert Kerry Emanuel, used the latest generation of computer models to arrive at its results, but it has not yet been backed by subsequent research from other groups.

“It is premature to judge how robust this finding will be” once its techniques are replicated across different computer models and compared to other similar methods, Tom Knutson, a researcher at NOAA’s Geophysical Fluid Dynamics Laboratory in Princeton, N.J., said.

 

Source: Climate Central. Reproduced with permission.

 

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