I’ve been trying to post these little
updates on the developing El Nino every few weeks. This will cover the
developing conditions in the Pacific.
El Nino and La Nina Explained
courtesy of NOAA’s National Ocean
Service
The waters of the eastern tropical
Pacific Ocean continue to warm as we approach the end of meteorological summer.
This El Nino is expected to continue strengthening over the Fall, then reach
its peak sometime in winter or early Spring 2024.
It’s only the middle of August now it’s
pushing global temperatures to the 1.5 ºC climate threshold,
Sea
Surface Temperature (SST) Anomaly …
courtesy of Coral
Reef Watch
Pacific SST…
courtesy
of Coral Reef Watch
Atlantic SST…
Phases of El
Nino…
There are East Based, Central Based, and
West Based
Snow lovers hate East Based El Nino
Central Based (Modoki)
A Modoki is just when the greatest
warm water anomalies are centered near the Dateline, this allows for a deep
trough to setup south of the Aleutians. While Modoki’s can be blocky in the Atlantic,
that’s not always the case. Modoki’s are a mixed bag. The trough in the Pacific shifts back and
forth between the Gulf of Alaska and the Aleutian Islands, resulting in a up
and down pattern, where high latitude blocking shifts west and east between
Iceland and Canada. So, what type of winter events we see can vary greatly. Modoki winters can experience wild swings in
temperature, resulting in rain, mix, and snow events. It’s all about the timing
of the cold air outbreaks and the current storm track.
West Based sets up closer to ideal,
the 500 mb pattern along with the polar and subtropical jet, making for a
better chance for a snowy season.
Currently we’re in a very strong East
Based El Nino. But looking at the subsurface water temperature progression and
other signs that this is shifting west.
Strength of El
Nino…
Judging the impacts of an El Nino isn’t
just about the phase of ENSO we are in. But we have to include the strength of
the event too. You can have weak, moderate or strong El Nino phases. Typically,
stronger El Nino’s bring more impactful weather to parts of the United States,
especially for California and the southwest, compared to weaker El Nino phases.
.Weak El Nino (with a 0.5 to 0.9 SST anomaly), Moderate El Nino (1.0 to 1.4), Strong El Nino (1.5 to 1.9) and Very Strong (Super) (≥ 2.0) events.
The latest weekly SST departures are:
Niño 4 0.9ºC
Niño 3.4 1.2ºC
Niño 3 1.8ºC
Niño 1+2 3.3ºC
Currently the developing El Nino is
considered moderate to strong. The northern hemisphere ocean/atmosphere system
has coupled, with what is going on in the equatorial Pacific. During El Nino we typically see an active
northern polar jet, with an active and amplified southern sub-tropical jet.
That has certainly been the case for the last several months.
We should note that, for historical context, the most accepted method of categorizing the intensity of El Nino’s and their opposite, La Nina’s, utilize NOAA's three-month running mean SST anomaly, known as the Oceanic Nino Index (ONI), instead of looking at one week or even one month's worth of data.
Subsurface water temperature.
Latest SOI index
The SOI is a tool we use to determine
how the ocean and atmosphere dynamics are evolving.
The current SOI is indicating the atmosphere
is responding to a weak to moderate El Nino signal. This could be part of the reason for some of
the disconnect we’re seeing in the ocean/atmosphere system. This is just one of
the reasons this El Nino, isn’t acting as a typical El Nino would.
The most recent IRI plume indicates El Nino will persist through the Northern Hemisphere winter 2023-2024.
.
Some of the factors
in play…
Hunga Tonga-Hunga Ha'apai volcano (Yep,
I’m still talking about it.) underwater eruption in the South Pacific Ocean
occurred Jan. 13 to Jan. 15, 2022. The eruption blasted an enormous plume of
water vapor and enormous quantities of ash and volcanic gases into Earth's
stratosphere. All of this is still affecting the Stratosphere and in turn the
troposphere
there are a number of other factors
that have contributed to how this year has been, including going from La Nina
to El Nino, the current Solar cycle, the Tonga-Hunga Ha'apai eruption leading
to a reduction in atmospheric particulates allowing more sunlight to reach the surface.
All of these factors, added to a generally warming planet. Mean the Planet is
going to warm even more, and become much more volatile.
All of this is changing the pattern,
in ways that the outcome isn’t clear. We
have never had a super warm Atlantic Basin during an El Nino. This is having a
big impact on the hurricane season. Typically, during El Nino, conditions over
the tropical Atlantic are more hostile resulting in fewer tropical cyclones.
But this year, the warm water in the Atlantic, is making for a likely above
average season. Like wise the Northeast has been extremely
humid this summer, again that is the result of how all of these factors are
interacting with each other. So, we’re more or less in uncharted territory when
it comes to how this current El Nino is going to act like.
A few thoughts on what this might mean for winter 2023-2024…
A winter outlook involves the speed
and amount of Eurasia snow growth, sea ice extent, movement of the QBO, The
very warm Global Oceans. And many other things. Much of these things we can’t
look at for at least a couple of months; So, we have a long way to go, before
an outlook can be released. So, while it’s way too early to talk about
specifics, we can at least apply a broad brush to the subject.
We have to remember, no two El Nino’s
are alike, when looking only at the five previous strong El Nino’s, there are
some general commonalities to note headed into winter 2023-2024.
El Nino years following triple-dip La Nina.
. 1957, 1976, 2002, 2023
Some analogues I’m considering…
1957-1958, 1965-1966, 1972-1973,
1982-1983, 1986-1987, 2002-2003, 2015-2016.
An El Nino Modoki is just when the
greatest warm water anomalies are centered near the Dateline, forcing a deep
trough in a really nice spot south of the Aleutians. they're also quite blocky
in the Atlantic
These analogues include East Based,
Central Based and Western Based. I have to include all of them, because this El
Nino is still strengthening and evolving. But we are starting to see shifting forcing
west. So right now, we have a chance for
a Motoki or even a west based El Nino event. I’m leaning toward the idea of this being a hybrid
Modoki and West Based event. But there is a chance this could end up as a basin
wide event. This too would make for a fairly decent winter as well.
The farther west this warming water can get
the greater the likelihood for low pressure setup up in the western Aleutians, this
would increase the odds for favorable high latitude blocking. How and where the
blocking set up will be a major deal this winter. The QBO will also have a lot
to say on how much blocking we see, a negative QBO and ascending would increase
the odds for more blocking.
In general, Northeast and Middle
Atlantic winters tend to be overall warmer and wetter during an El Nino. During
strong El Nino’s we tend to see less overall snow.
But as I’ve already said, no two El Nino’s are exactly the same.
During the super El Nino’s of 1982-83
and 1997-98 there were big 2nd half of winter snow events.
The winters of 1957-58 and 1965-66
were cold.
But El Nino is only one factor when it
comes to how a winter will end up being. As I’ve already pointed out Blocking
will be another major influence. Blocking involves the North Atlantic
Oscillation (NAO)
Here is a look at snowfall from 1950
to 2017 in nine Northeast Cities, broken down by El Nino, La Nina and neutral seasons,
as well as those stronger El Nino seasons with a dominant positive or negative
NAO.
We can see there is the sharp contrast
in strong El Nino’s depending on whether they're dominated by a positive or
negative NAO.
The bottom line, I’m still thinking this will be very strong El Nino, how this coming winter turns out will depend on the degree of blocking. The overall pattern is such that nobody is sure what kind of winter we’re going to see, but right now I’m thinking moderate to severe end of the spectrum.
