This is a great article by NOAA about wether or not the current is the strongest El Nino on record. NOAA has stated in various places that it is and that it isn’t… NOAA clears things up a bit in this article by saying: maybe.
” It’s hard to say definitively what single El Niño is the strongest, because there are a lot of different ways to measure strength.” – NOAA
OK, so in reality, they just don’t know yet, but they will know in the coming months.
February 2016 El Niño update: Q & A…and some Thursday-morning quarterbacking
Despite getting a little boost from some strong winds across the tropical Pacific Ocean in January, the warmer-than-average ocean temperatures that drive El Niño have likely peaked. Now that we’re looking out from the other side of the mountain, let’s answer some questions.
So is this the strongest El Niño on record, or what?
This is definitely one of the strongest three going back to 1950. It’s hard to say definitively what single El Niño is the strongest, because there are a lot of different ways to measure strength.
The Oceanic Niño Index, the three-month-average sea surface temperature departure from the long-term normal in one region of the Pacific Ocean, is the primary number we use to measure the ocean part of El Niño, and that value for November – January is 2.3°C, tied with the same period in 1997-98. There are other areas of the ocean that we watch, though, including the eastern Pacific (warmer in 1997/98) and the western Pacific (warmer in 2015/16).
Also, don’t forget the “SO” part of the El Niño/Southern Oscillation (ENSO), which is the all-important atmospheric response. All that extra heat in the tropical Pacific Ocean warms up the atmosphere above it, leading to more rising air, which changes the circulation all around the globe. By one measure (the EQSOI), the El Niño-related changes in the atmospheric circulation in 1997/98 and 2015/16 are tied; by another (the SOI), 1997/98 was stronger.
We also look at tropical Pacific near-surface winds , subsurface ocean temperatures, upper-atmosphere winds, cloudiness… the list goes on! The image of tropical cloudiness (an indicator of rainfall) below is a good example of how a single index number over a single region doesn’t give you the whole picture of an El Niño’s “personality.”
The El Niño-related cloudiness and rainfall pattern extended farther east along the equator in 1998, stretching all the way to the South American coast. These patterns are closely linked to the changes El Niño causes to global circulation, and therefore to El Niño’s impact on weather and climate.
In short, we can argue over which El Niño is stronger, or we can argue about who’s the better quarterback, John Elway or Peyton Manning. Hm… the Denver Broncos won the Super Bowl in both the 1997 and 2015 seasons…
But I saw in the media that this month’s Niño3.4 is a few hundredths of a degree above January 1997. Isn’t that a record?
Maybe. Maybe not. Part of the difficulty in assigning “record” status in a close contest is that we just can’t measure the temperature of every molecule of water in the tropical Pacific. (And satellites don’t have magical space thermometers.) So there’s always some uncertainty in the measurement.
We checked with our colleagues at NOAA’s National Center for Environmental Information*, who told us that, for this dataset, the ERSSTv4, the uncertainty in those final numbers beyond the decimal point prevents a declaration of “record!” The uncertainty in this one dataset is not huge, as you can see in the shaded area below, but it’s bigger than the difference between 1998 and 2016.
Hey, wait a second. Last month, you said the October – December Niño3.4 average was 2.3°C above normal, but now it says 2.2°C. What’s going on there?
This is related to the uncertainty I just mentioned. At the end of every month, there are some missing observations from that month. These observations have to be filled in using a statistical method, and it’s not finalized until the end of the next month. There aren’t a lot of these points, but enough that they can slightly change the average, which is what happened for October–December.
What’s the deal with California rain? And the drought?
Tom just wrote about that!
Was the East Coast blizzard caused by El Niño?
I think it was caused by the Denver Broncos. I kid!
It’s just not possible to attribute a single storm to one climate influence, especially such a complicated storm as a snowy nor’easter. A lot of components had to come together to create that blizzard, including a cold snap, warm Atlantic Ocean waters to feed moisture to the storm, and a strong frontal system, among others. El Niño’s fingerprint may have been present in some of those factors, but it’s really tough to separate it out. El Niño does tend to create conditions that steer storms across the Gulf states, Florida, Georgia, and the Carolinas; typically, these storms will exit to the Atlantic south of Maryland/Virginia. The more northward track of this storm is somewhat unusual for El Niño-related conditions, but not unheard of.
The official El Niño/Southern Oscillation forecast says it’s likely the tropical Pacific will transition to neutral conditions (sea surface temperature in the Niño3.4 region dropping below the 0.5°-above-normal threshold) in the late spring. The longer-term outlook for early fall is slightly favoring La Niña conditions by September-November, which would be consistent with the historical tendency for strong El Niño events to be followed by La Niña. Computer models still have a wide range of possible outcomes for next fall, though, so stay tuned!