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April 2023 ENSO update: El Niño Watch

Well, that was quick! Just two months ago I was writing about La Niña for what seemed like the 97th month in a row, and then by March La Niña had departed. Today we’re hoisting an El Niño Watch, meaning that conditions are favorable for the development of El Niño conditions within the next 6 months. In fact, there’s a 62% chance of El Niño conditions for the May–July period. Read on for the reasoning behind the outlook, thoughts about the potential strength of El Niño, and implications for global weather and climate.

Let’s run some numbers

The March average sea surface temperature in the Niño-3.4 region, our primary monitoring region for ENSO (El Niño/Southern Oscillation, the whole El Niño-La Niña system), was 0.2° Celsius (~0.4˚Fahrenheit) below the long-term average, according to ERSSTv5. This is solidly in the ENSO-neutral range, that is, between -0.5 and 0.5 °C difference from average.

line graph showing recent Nino-3.4 evolution

Three-year history of sea surface temperatures in the Niño-3.4 region of the tropical Pacific for the 8 existing multi-year La Niña events (gray lines) and the current event (purple line). Of all the previous 7 events, 2 went on to La Niña in their third year (below the blue dashed line), 2 went on to be at or near El Niño levels (above the red dashed line) and three were neutral. Graph by Emily Becker based on monthly Niño-3.4 index data from CPC using ERSSTv5.

The atmosphere is also looking quite neutral, overall. In March, both the Southern Oscillation Index and the Equatorial Southern Oscillation Index were close to zero. Both of these indexes measure the strength of the atmospheric component of ENSO, via the relative surface pressures in the western and central-eastern Pacific. Negative index values indicate the Walker circulation is weaker than average, an El Niño response, while positive values tells us the west-east pressure difference is greater than average, indicating a strengthened Walker circulation—a La Niña response. Near-zero, like the current values, tells us that the atmospheric patterns are near average over the tropical Pacific Ocean.

Onward!

That’s where we are… but where are we going?? There’s a 62% chance that El Niño will develop during the May–July period, and more than 80% chance of El Niño by the fall.

chart showing probabilities for El Nino, neutral, and La Nina through 2023

NOAA Climate Prediction Center forecast for each of the three possible ENSO categories for the next 8 overlapping 3-month seasons. Blue bars show the chances of La Niña, gray bars the chances for neutral, and red bars the chances for El Niño. Graph by Michelle L'Heureux.

We spend a lot of time and effort monitoring and predicting ENSO because it can give us an idea about upcoming potential weather and climate conditions (and because it is a fascinating natural system!). When El Niño or La Niña are holding court in the tropical Pacific, they can affect global temperature and rain/snow patterns in specific ways, with the strongest impacts during the winter. Since ENSO can be predicted months in advance, we can start playing the odds on what sort of climate patterns can be expected. There is a lot of variety, and no prediction is ever perfect! But it’s currently the best tool we have to anticipate upcoming seasonal conditions.

I’ll get back to the potential impacts of El Niño in a minute—first, let’s discuss this confident forecast. Forecasts made during the spring are often less accurate than those made other times of the year. ENSO tends to change phase during the spring, and the tropical Pacific ocean-atmosphere system can be more susceptible to smaller pushes like short-term weather variations, contributing to the “spring predictability barrier.” So it seems the forecasters are really feeling their oats this month, to be giving El Niño such relatively high odds. What’s behind this?

First, the latest runs from our computer climate models are providing very high probabilities that El Niño will develop this year. When there is a lot of agreement among the models, we tend to give more credence to their predictions. For some examples, here’re Niño-3.4 forecasts from the European multi-model ensemble, Australia’s ACCESS-S2, and the North American Multi-Model Ensemble.

But it’s not just model advice supporting the forecast. We always keep an eye on the temperature of the water under the surface of the tropical Pacific. After many months cooler than average, the amount of warmer subsurface water has increased over the past month as a downwelling Kelvin wave—an area of warmer water that sloshes from the west to the east beneath the surface—traverses the tropical Pacific.

animation showing subsurface temperature in equatorial Pacific

Water temperatures in the top 300 meters (1,000 feet) of the tropical Pacific Ocean compared to the 1991–2020 average in February–April 2023. NOAA Climate.gov animation, based on data from NOAA's Climate Prediction Center.

This warm subsurface will provide a source of warmer water to the surface over the next couple of months and helps provide confidence in the forecast.

Further bolstering the chance for El Niño is a short-term forecast for the Madden-Julian Oscillation (MJO). The MJO is an area of storminess that travels west-to-east along the equator. It’s flanked by wind anomalies, as surface level winds rush toward the area of storminess. The MJO is predicted to be in a phase that will weaken the trade winds (the consistent east-to-west winds near the equator) over the next couple of weeks. Weaker trade winds allow the surface to warm and can contribute to the growth or propagation of downwelling Kelvin waves.

One more observation supporting the potential development of El Niño is the currently very warm far-eastern Pacific. The Niño-1+2 index, which measures the sea surface temperature off the coast of Peru, was near-record warm in March. A coastal El Niño like this can precede a larger El Niño event, although not always.

To summarize, there are several signs pointing to the development of El Niño, including model predictions and the current state of the ocean and atmosphere. It’s still possible that a developing El Niño will sputter out, and the forecast includes around a 1-in-8 chance of neutral conditions in the late fall. However, from our current vantage point, there is enough evidence to support a confident forecast for El Niño.

How strong of an El Niño are we talking?

That’s a lot of support for El Niño developing, but how strong it will get if it forms is a different question. Some of the models are predicting pretty extraordinary Niño-3.4 values, but we put a lot less trust in those predictions—models tend to overestimate, especially in the spring. The ENSO team has a method of predicting the strength of an El Niño or La Niña event that combines human forecasts and model predictions. This method has shown promise so far, although we’ve only been using it for a couple of years. (Lots more detail in Tom’s post on the topic.) By that method, the current chance for a strong El Niño (Niño-3.4 greater than 1.5 °C) is about 4 in 10; a clearer picture of the potential strength of El Niño will develop as we emerge from the spring barrier.

What would an El Niño mean for global climate?

Right, I promised to get back to impacts! El Niño influences the Atlantic and Pacific hurricane seasons, usually leading to fewer tropical storms and hurricanes in the Atlantic and more than average in the Pacific. In the case of the Atlantic, El Niño increases vertical wind shear—the change in wind direction and strength from the surface to higher in the atmosphere—which can impede a hurricane’s growth. NOAA’s hurricane outlook comes out next month, so keep your eyes peeled for that.

You can check out some of the El Niño-related expected temperature and precipitation patterns during June–August and December–February here. We’ll get into more detail about these potential patterns in coming months.

One last comment! ENSO has a strong relationship with the global average temperature: in general, the warmest year of any decade will be an El Niño year, and the coolest a La Niña one. Global warming means that we can’t just say “El Niño years are warmer than La Niña,” since recent La Niña years (we’re looking at you, past 3 years!) have featured much higher global averages than El Niño years from the 1990s and earlier. 2022 was the 6th warmest year since records began in 1880, and that was with a non-stop La Niña. If El Niño develops this year, it increases the odds of record-warm global temperature.

map of March 2023 sea surface temperature anomaly

Map showing the March 2023 sea surface temperature difference from the long-term average. Figure by climate.gov from NOAA Coral Reef Watch data.

Comments

This is a really great post, summarizing the ENSO forecast succinctly!

After 3 years of La Niña - which seemed to be waning mid-2021, yet reversed course for another year-and-a-half - one still wonders if there's a chance some new anomaly can come along, and alter prediction inputs in the near future?  That 2021 reversal is very interesting from a data perspective.  The fact the models are trying to predict outcomes amid a sea of input changes, (unintentional pun) and not lower variable / stable inputs, is what makes it so difficult! 

Anyhow, looking at the last 60 years of Sea Surface temps, Land temps and polar ice concentration data, it is stunning to see that despite a relatively linear increase in warming, the polar ice levels suddenly got knocked down, then seem to have reached a point of 'Relative' (with a capital "R") stability since around the mid-2000s.  The last decade of ice data emboldens some to claim interest in climate is "much ado about nothing", which is misguided.

In the mean time, the communications of these Real (with a capital "R"!) changes to climate is a touchy subject, yet one objectively gets the sense there isn't much room now for downplaying the patently obvious.

Keep up the excellent work, looking forward to see and hear any findings this current shift brings!

 

ENSO contributes to the variability of the global temperature, but does not influence climate change on long-term timescales. Climate change influences ENSO, and ENSO teleconnections, in complicated ways! More in Tom's posts here and here, and Michelle's recent post about trends in the tropical Pacific.

We should think of the ENSO phenomena as being a small part of a bigger climate picture.  Not a "causal aspect" - ENSO is part of the normal functioning of planet Earth's atmospheric ecosystem, like tide cycles.

The variable that coincides most with change is the atmospheric increase of greenhouse gases, a finding scientists have known about for well over 150 (possibly 200?) years, and something that's been discussed in popular culture for 50 odd years at least!  Coverage seemed to wane a bit after the 1990s, but of course "everything old is new again".  I digress:

In the data, we can see a correlation suggesting hot El Niño phases tend to coincide with the upper direction of global temps, while cool La Niña phases coincide with where we can presume the "new normal" temps settle out.

This is the "patently obvious" that needs to be discussed, so that proper mitigation measures can be taken.  The trend in data is indisputably upward, ENSO or not.  Meanwhile 'extreme weather events' will likely continue 'surprising' the public, insurance co's and governance functions, more and more, until then.

The Nino 1.2 is up to 2.5 degrees. The coast off of Peru is on fire at 5 degrees above

It’s only going to get worsen ,this summer

will be really bad I fear. 

In reply to by Bob G

Thank you, Emily, for another interesting post. While reading the post, I was simply wondering if a wind (stress) forcing that generates a downwelling Kelvin wave has also been observed.

 

The catalyst is subsurface tides along the equatorial thermocline causinn uneven upwelling. The winds are a result of this as a pressure differential forms due to unequal heating -- winds blow from high to low pressure. 

I hate El Niño is not good snowy winters that means a dry winter for Wisconsin. I was hoping El Niño didn’t come. I hope you guys are wrong. I am sad 

I hate El Niño it needs to die for life California doesn’t need another cold and snowy winter 

On the contrary, California needs another good snow year (within limits). Snowpack = water. What we don't need is a major warm spell that will cause massive runoff that the river system can't handle. Unfortunately, the demand for water in California outstrips the supply, and demand keeps increasing.

In reply to by Jesse f

Observando el clima en Ecuador puedo afirmar que el Niño llegó. Las tormentas eléctricas, abundantes y casi a diario indican que está aquí. Pero las plantas están "felices", después de una sequía de varios años, estas lluvias han dado vida al campo. Los habitantes precolombinos sabían cuándo llegaría el Niño y se preparaban para sembrar y cosechar en abundancia.  Deberíamos aprender de ellos

Thanks for the informative post.

It will be interesting seeing if the forecast holds, as well as how strong the El Niño would be and how it would influence the weather in this country and around the world.

Thank you for all the details. Lots of warm water, wind shear and more details. 
Honestly, in my opinion, it was too much. I started skimming along, looking for what, I believe, the everyday person would look for - what does El Niño mean for me? Less hurricanes, warmer summer, colder winter? I feel such information should be included in starting paragraph. Example - El Niño will be more active for the next however many months. This means the southeast and will see more/less hurricanes, hotter/colder summers. The north and west will experience . . . - etc.

Just my personal preference.

Hi readers,

Just dropping a note to say that I am sorry there are a batch of comments from you waiting in the queue to be approved and published! Your comment moderator this week forget his password encountered technical difficulties with the system. We are working to get the issue resolved and will publish your comments by the end of the day today. Thanks for your patience.

El Niño has a direct impact on the Indian Monsoon. Significant portion of Indian GDP is contributed by the agrarian activities which is dependent on the monsoon rains. Signs of El Niño becoming prominent in the coming months means lesser rains and thereby less agricultural production that will adversely impacting the country’s economy.

We need to gear up to mitigate the impact of El Niño on Indian Monsoon.

Thanx for the update.

Have you heard of a guy named Kevin? He has a Facebook page, Southern California Weather Forecast. He likes to predict the weather too. His predictions are very similar to your predictions. 

This is fantastic blog in term of graphic and clear explanation of el Niño; I wonder why there are not prediction for the El Niño in the regions 3 or 1+2?

We focus on Niño-3.4 because that index has the strongest relationship with ENSO teleconnections over North America. Peru's ENFEN makes predictions for Niño-1+2: see their recent notice here.

In reply to by Arturo F. Puchaicela

California native hearing with alarm this confident prediction of El Niño returning during the fall and winter of 2023. I'm saddened because scientists predict El Niño will hasten the melting of the polar ice cap. The anticipated dreadful blue ocean event. Hang on to your faith and appreciate the good things in your life.

I think the "blue ocean event" refers to the point when Arctic sea ice extent will fall below 1 million square kilometers. Although the downward trend in September sea ice extent is dramatic, we have not approached the blue ocean event threshold yet, but feel free to check the Sea Ice Prediction Network outlook starting in early summer to see what may in store for this September.

In reply to by christine

So is the downwelling caused by the build up of the warmer water by Indonesia?  Like the clockwise circulation of the water in the in the Northern Pacific and the counter-clockwise in the Southern Pacific but with a third dimension being the downwelling?  Does the downwelling wave travel in a counter-clockwise arc south of the equator and a clockwise arc north of the equator?  Does local upwelling caused winds more readily allow for the Kelvin wave to reach the surface?  Are these waves ever blocked or prevented from rising to or warming the surface water?  Why does the Kelvin wave stay above 300 meters, a thermocline?  What are the chances of a megalodon bursting through?  (ok sorry about that last question, I just couldn't resist)

Hi Bailey,

The trade winds help to keep warmer water piled up in the far west of the tropical Pacific, and yes, this is part of the oceanic gyres that circulate in the North and South Pacific. When the trade winds relax, as happens during certain phases of the MJO, due to random internal variability, or as part of an El Nino-related coupled ocean-atmosphere system, a downwelling Kelvin wave can get started. Conversely, strengthened trade winds can lead to upwelling Kelvin waves. The warmer-than-average subsurface anomalies can weaken before affecting the surface, but this is not common. Regarding the megalodon, well... the ocean contains many mysteries! I'd put the probability of Megalodon 2023-24 at around 0.7%. 

Hello, thanks for the very informative post!

I have a question: how stable will the pacific high be that is "usually" situated somewhere between hawaii, alaska and the US mainland during the the months of june/july this year?. In 2014 I believe an el nino year, in june/july the high was stable and well established. Later in the summer the high was not at all well established if at all.

Is it reasonable to expect the same sort of conditions this year?

Thank you 

Thanks Emily. Is there any way of knowing if the high will be fairly stable....sort of a normal trade wind situation between hawaii and southern california in june/july this year? The June and July CFSv2 suggests normal....?

Thanks

A very great and informative article, and I hope we won't have to deal with a fourth year La Nina next Fall and Winter.

Question #1 : Would a Strong El Nino allow less phasing to occur between the Polar Jet and the Subtropical Jet ?

Question #2 : Would a Weak El Nino allow more phasing to occur between the Polar Jet and the Subtropical Jet ?

Hi Stephen,

"Phasing" is unfamiliar language to me, but if you mean that a stronger El Niño has a stronger affect on global circulation, especially the wintertime merging of the subtropical jet and the Polar jet over the Pacific and the eastward extension of the jet, then... yes!

Thank you so much for this explanation ,we have been looking and worried so appreciate a real person explaining. As farmers we have in recent years been a bit worried that every forcast is computer generated report ,a person helping is great

 

  

Excellent blog post!  Also.  I’m not smart and would appreciate if you also wrote the dumbed down version for 6-year olds as an abstract or appendix- (like no big words, plus some sweet looking graphics, and no math).

 

Thanks!

Hey there, fantastic blog post! I am wondering if there has been any establishment on a link between a stronger El Niño and a weakening of the subtropical high pressure that supports the North American monsoon. Is there any data from El Niño years about how the North American Monsoon interacts with this? Thanks!

Hi,

Thanks for a great blog post.

You mention increased wind shear in the Atlantic but do not mention what happens in the Pacific. I assume it decreases which in turn contributes to the increased hurricane activity.

As a cruising sailor, these topics are of immense significance.

Thanks again.

Harry

 

How will the up coming el nino effect the monsoon in AZ this summer? With less hurricanes predictions will there be less moisture in place ? What is the relationship between el nino and the southwest monsoon? Thanx Dan

Thanks for your post. I can't believe we have an El Nino watch this early in the year. In Kenya, we are already experiencing the benefits of ENSO neutral with good rainfall. It's been a horrible 3 years of drought with La Nina. 

If a strong El Nino materializes as the eastern Pacific continues to warm up, one would expect less Atlantic tropical cyclones this upcoming season.  However, what if the eastern Atlantic stays warm?  Would we see increased hurricane activity despite the presence of a significant El Nino?

That's a good question. It's possible that we could have competing effects between El Nino (if it develops by late summer) and anomalously warm tropical Atlantic conditions (if they persist), and so it's not a given that El Nino would lead to an inactive tropical Atlantic TC season. We should have more information about these factors when the seasonal Atlantic hurricane outlook is issued in a few weeks.

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