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Why Are Hurricanes Forming In January?

January hurricanes are extremely rare events. But this year, two have already formed Alex in the northeastern Atlantic last week, and Pali in the central Pacific, south of Hawaii, a few days earlier. The last hurricane to form in January in the Atlantic did so in 1938. A January hurricane is almost as unusual in the Pacific.

Many accounts have attributed these strange storms to El Nio, climate change, or both. Can atmospheric scientists like me pinpoint the cause of these January hurricanes?

The answer is that El Nio can take some of the blame for Pali. For Alex, maybe a little. Regardless of its effect on these two storms, El Nio is the big climate signal out there at the moment, and what it does next will be important when the proper hurricane season of 2016 arrives in a few months.

I dont think this is a climate change story, on the other hand. There is a good scientific basis for the expectations that hurricanes should increase in intensity as the climate warms, and change in some other ways. But theres no indication from existing climate science that they should start forming more often during winter (or even more often altogether). While I wouldnt rule out anything categorically all weather systems now are occurring in a climate altered by human influence, after all theres a better case that these January storms are attributable to what climate scientists call natural variability.

Warm Water, Cold Air

To put these events in context, its helpful to understand why hurricanes normally change with the seasonal cycles as they do. Hurricanes typically form over warm water, so they are most prevalent in the places, and at the times of year, where the oceans reach their highest surface temperatures. In the current climate, a rule of thumb is that the sea surface temperature has to be above 26.5 or 27 degrees Celsius, or 80 degrees Fahrenheit, for a hurricane to form.

Hurricanes usually form in summer and fall in each hemisphere. Robert Simmon/NASA GSFC

It isnt quite that simple, though. Hurricanes are machines whose job is to move heat from the warm ocean to the cold atmosphere above. What really affects whether they can develop and how strong they can get if they do is the difference between the temperature of the seas surface and the temperature high up in the atmosphere. Either the ocean surface needs to be particularly warm, or the atmosphere needs to be particularly cold, or both.

If something makes the atmosphere unusually cold, then a hurricane has a fighting chance even if its over unusually cold water. In fact, there are storms called polar lows that work a lot like hurricanes. As the name suggests, they can form over the Arctic ocean in winter where the ocean is really cold, but the atmosphere above it is really, really cold.

Normal tropical hurricanes, though, usually go away in winter. The ocean surface gets too cold for them, even with the colder atmosphere above. Also, the winter jet stream the strong belt of west-to-east winds in the upper atmosphere of the middle latitudes, between the tropics and polar regions causes large vertical wind shear, or wind blowing at different speeds or in different directions at different altitudes. This disrupts hurricanes’ circulation and squelches them. Instead, it favors the development of winter storms.

What Generated Pali and Alex

Pali and Alex both seem to be results of unusual temperatures for this time of year. One was due to a warm ocean, the other to a cold atmosphere.

The warm ocean is mostly due to El Nio. Sea surface temperatures in the central equatorial Pacific near where Pali formed are running as high as 3.5 C (7 F) above normal. That is a huge anomaly, whose shape and location exhibit the classic signature of a very strong El Nio. Events like this typically lead to active hurricane seasons in the eastern and central Pacific.

This El Nio event has been in place for most of the last year, and the whole central Pacific hurricane season of 2015 was wildly active relative to normal, and maybe even more unusual than the Atlantic season of 2005. That year, after Katrina, Rita, Wilma and several other destructive hurricanes hit the United States, the storms kept coming, to the point that the alphabetical naming sequence ran out of letters. The last few were named with Greek letters.

The last one, Zeta, formed in December and survived into January as a tropical storm the last Atlantic tropical storm to exist in January until now. (Zeta didnt reach hurricane strength, and didnt form in January, so Alex beats it for freakishness on at least two counts.) Pali is reminiscent of Zeta, a late aftershock at the tail of an explosive hurricane season in the Pacific.

Storm tracks during the 2015 east Pacific hurricane season. NOAA National Hurricane Center

Alex, on the other hand, doesnt owe its existence to an unusually warm ocean. On the contrary, it became a hurricane over sea surface temperatures that were well below the typical threshold. Instead, it reached hurricane status because the atmosphere above it was unusually cold. That upper-level cold isnt obviously attributable to El Nio or any other larger-scale climatic factor, but just to the particular distortion of the jet stream that happened to be in place at that moment.

We may be able to associate Alex with El Nio in another way, though, at least a little. El Nio events tend to drag the jet stream toward the equator, and the southern United States tends to become stormier in winter. Alex evolved from a winter storm that tracked to the northeast from offshore of Florida, in what has been a record rainy December and January down there.

More To Come?

Does any of this mean anything about the coming hurricane season this summer and fall? Neither Alex nor Pali specifically does, because individual storms at the end of one season have no particular implication for the following season. But we can make a prediction based on the typical trajectories of strong El Nio events like the current one.

The 2015 hurricane season was typical of El Nio: very active in the eastern and central Pacific, but on the quiet side in the Atlantic. El Nio events typically peak in the winter, though. When spring comes, they often end. The tropical Pacific returns to its normal state, or even reverses entirely into a La Nia event, the mirror image of El Nio.

The current forecasts indicate that one of these two outcomes is likely and that by the opening of this years hurricane season, its likely that the current El Nio will be over. A neutral state in the tropical Pacific would give us no reason to expect either an unusually active or inactive hurricane season, while a La Nia is typically associated with an active Atlantic and quiet eastern Pacific.

All that said, the state of the tropical Pacific is only one of the factors that influence hurricanes, and seasonal hurricane forecasts are not particularly accurate this far ahead of time. But the way things look now, we can say that its not very likely that well have as extreme a season in the central Pacific as we did in 2015, and the Atlantic stands at least some chance to become more active.

And come January 2017, its very unlikely that well have two hurricanes, as we did last week.

Adam H. Sobel, Professor , Columbia University

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