Attendees observed a brief moment of silence during this month’s climate briefing. Why? Because after nine months, the climate phenomenon La Niña has died. Is there any chance a zombie La Niña could rise from the dead, though? Tony Barnston, IRI’s lead forecaster, answered that question and more.
This year’s La Niña was near record setting by one measurement. The Southern Oscillation Index (SOI), which measures the difference in atmospheric pressure between the island of Tahiti and Darwin, Australia, reached nearly three standard deviations above normal. The only time a stronger La Niña-leaning SOI was recorded was in August 1917, when it reached 3.3 standard deviations above normal.
In contrast, sea surface temperature anomalies in the eastern equatorial Pacific, which is the other common metric to measure ENSO events, were only moderate strong compared to past La Niñas.
Even as it was winding down, ocean and atmospheric conditions still indicated a moderately strong La Niña up until two weeks ago. Then suddenly, a pool of warm water surfaced in the eastern equatorial Pacific, breaking up the pool of cooler water that’s indicative of La Niña conditions. Atmospheric conditions decayed quickly afterwards and by the beginning of May, La Niña was officially a goner.
It seems likely to stay that way, too. The IRI’s forecast shows an increased likelihood for neutral conditions in the region through the rest of the year. Neither La Niña nor El Niño has more than a 20-25% chance of forming.
That means a likely reprieve from the torrential rains that have soaked Australia, the Philippines, Colombia and Thailand over the past few months. It also means a possibly break for the Southeastern U.S., which experienced unprecedented tornado and flooding outbreaks in April and May.
Much has been made recently of whether climate change had a hand in the swath of destructive tornadoes. La Niña might be a better place to start looking, though. “Some statistics suggest there’s an enhanced tendency for tornadoes in a La Niña year. However, a general connection does not appear to be overwhelming,” Lyon said.
However, Lyon stressed more research needs to be done because not all La Niñas have spawned above normal tornado seasons. One possible area of future research is whether certain factors associated with La Niña, such as SOI, have a greater impact on tornadoes than others.
In the meantime, a number of the wet and wind-whipped regions should have a chance to recover. Visit IRI’s forecast page for the full story.