Skip to main content

August 2017 ENSO update: Extreme neutral!

Now that it’s summer in the Northern Hemisphere, we’re more firmly on the other side of the infamous spring barrier. So, forecasters have growing confidence that this coming winter in the Northern Hemisphere will most likely be a continuation of “ENSO-Neutral,” and dominated by near average temperatures across the Pacific Ocean. The most recent forecast by CPC/IRI favors the continuation of these conditions through the winter 2017-18 (56% chance during December-February 2017-18).

ENSO-Neutral = El Niño or La Niña is not present

Following some weakly warm conditions last month, this past month was characterized by an impressive span of near-average sea surface temperatures over the tropical Pacific Ocean.

Sea surface temperatures in July 2017

Average sea surface temperature (SST) during July 2017, shown as departure from the long-term (1981-2010) average. Red shading shows where SSTs were above average and blue shading shows where they were below average. Climate.gov figure from OISSTv2 data at CPC.

Impressive because usually at least one region of the tropical Pacific Ocean (the so-called “Niño regions”) contains either below or above average temperatures. In July 2017, all four Niño regions were between +0.3°C and -0.3°C. This has happened only about 4% of the time since 1950, most recently in December 2013 (using ERSSTv4 data). So it’s been a while since surface temperatures across the tropical Pacific Ocean have been so very normal.

The atmosphere was livelier, as it is prone to be, given that air moves rapidly across the tropical Pacific, especially relative to the heavy, slower moving ocean. In the past month, we saw a weak, short-lived Madden-Julian Oscillation, which resulted in some increased rainfall near the International Date Line. But rainfall continues to persevere near the Maritime Continent, as do slightly stronger-than-average trade winds over the west-central Pacific.

Clouds and rainfall in July 2017

Places that were more (purple) or less (orange) cloudy than the 1981-2010 average during July 2017, based on satellite observations of outgoing longwave radiation (heat). Thick clouds block heat from radiating out to space, so less radiation equals more clouds, and more radiation equals clearer skies. Climate.gov map from CPC OLR data.

Despite the warm ocean conditions earlier this year, the atmosphere never locked into an El Niño. The official outlook reflects the models, which mostly show Niño-3.4 index hovering within ENSO-Neutral ranges (-0.5°C to +0.5°C). But because nothing in prediction is a sure thing, forecasters are assigning smaller, but non-zero chances to La Niña (28% chance) and El Niño (16% chance) this coming winter (December-February 2017-18). This also represents a flip from previous months when El Niño was slightly favored over La Niña. Now we’re seeing a clearer cooling trend in the observations and model guidance.

Does ENSO-Neutral cause Typical or Average Weather?

Nope. What Neutral means is that there is little-to-no forcing coming from either El Niño or La Niña in the tropical Pacific. You can think of a forcing as a push in a certain direction. El Niño and La Niña shove around the global atmospheric circulation, and the lack of either means this pushing motion is absent.

Team Other Climate Phenomena wins the North American Winter Climate

Concept by Tom Di Liberto and illustration by Emily Greenhalgh, NOAA Climate.gov.

As we’ve covered here, here, and here, El Niño and La Niña are linked to large changes in rainfall and convection patterns over the tropical Pacific Ocean. Those changes can then alter the tropical Walker circulation and the jet streams over the middle latitudes of the Northern and Southern Hemispheres.

So, Neutral conditions mean that atmospheric flow isn’t pushed around in a way that is predictable. Climate forecasters like having an El Niño and La Niña around because it can provides some useful information many months in advance. In the absence of an El Niño and La Niña, the predictable signals are weaker.

This doesn’t mean that there aren’t any other patterns out there that are influencing our weather and climate (there are tons), but it is harder to predict them months in advance. For example, we could see Arctic Oscillation or Madden-Julian Oscillation activity, which are very important, and can have a substantial influence on temperature and precipitation, but are not clearly anticipated months into the future. 

Despite the lack of forcing from ENSO, forecasters will still be closely examining the models to suss out other possible sources of prediction skill. These other more predictable forcings commonly come in the form of longer-term trends in temperature and changes in the land surface (soil moisture, snow, ice).

Where’s Emily? Free Emily!

She’s around! She is away this week doing work stuff. She’ll be the editor later this month on a guest post written by Phil Klotzbach on what is happening with the hurricanes this year. And make sure you check out her recent post on climate models.

Also, because there isn’t much going on with ENSO these days, we are looking to cover other climate and weather subjects in the coming months. If you have burning questions or an idea you’d like us to cover, just drop it in the comments section below. 

Comments

Well if you let us give suggestions off topic I'll pick way off topic. Way off the tropics even. Here's my favorite interactive graph.... "The Charctic" http://nsidc.org/arcticseaicenews/charctic-interactive-sea-ice-graph/ I've been thinking Arctic sea ice retreat, as well as snow mass in general in the N. Hemisphere, has been playing havoc with the lower elevation wind patterns and speeds in the North Pacific ocean. The westerlies that turn into north-westeries when they come to CA(where I live) and eventually to Hawaii as the trade winds seemed to have weakened. I think there's been some significant disruption and would love to see some historical analysis in a possible relationship between northern hemisphere ice/snow, lower level wind patterns/speed(east of the dateline and north of the tropics), and ocean temperatures at varying depths as well as historical "blobs". Just crunch 50 years of data from varying fields into a concise blog. No big deal, right? hehehe hahaha.... Because if I could pay for cable but only pick the channels I want, which I can't, I'd be pretty specific.

Thanks for the suggestion!  I agree that the impact of sea ice retreat/snow cover change on climate away from the Arctic is a fascinating topic that could be explored in a blog post.  This general topic is a very active area of research in the scientific community, and a subject for which it is very challenging to reach a consensus.  The main challenges are familiar to climate scientists in various types of problems - lack of enough observational data to reach robust conclusions, incomplete understanding of the relevant physical processes, and inconsistency among various types of climate model experiments.  Nevertheless, it is a worthwhile topic to pursue, and perhaps we can touch upon it in a future blog post. 

El Nino = Least Hurricanes Neutral = More Hurricanes La Nina = Most Hurricanes Thoughts?

I would say that your post could serve as a general rule of thumb for the Atlantic basin.  All else being equal, we would expect fewer Atlantic hurricanes in El Nino years and more in La Nina years.  However, there are other factors that can mess up that relationship in individual years.  Definitely tune in later this month when a hurricane expert, Phil Klotzbach, provides more insight in the next blog post!   

In reply to by Gene.Rench

This was an extremely well written piece. There's a raft of complicated information provided in a very accessible writing style. Nicely done.

good post

Good post. Like the research.

Add new comment

CAPTCHA
Enter the characters shown in the image.
This question is for testing whether or not you are a human visitor and to prevent automated spam submissions.