Typical (Average) El Nino, Traditional El Nino, and El Nino Modoki Events
Guest Post by Bob Tisdale
Recently, there have been a number of posts around the blogosphere about the current El Nino or about Sea Surface Temperatures (SST). Accompanying them are predictions by the authors of those posts or by commenters of a pending La Nina event. But the “typical” El Nino event is not followed by a La Nina event. Also, the current 2009/10 El Nino event is an El Nino Modoki; that is, simply, the area with elevated SST anomalies is located more towards the center of the tropical Pacific than a traditional El Nino event; and few La Nina events follow El Nino Modoki.
A number of months ago I noticed some of my visitors arrived from Google searches of “typical El Nino” or “average El Nino”. I prepared this post for them back then but got sidetracked and never posted it.
This post looks at the development and decay of the average El Nino, of the average traditional El Nino, and of the average El Nino Modoki. I’ve also segmented the data into two periods, before and after 1979 to illustrate the change in development and strength of El Nino events. Last, as references, are spaghetti plots of the development and decay of all El Nino events since 1950 (excluding the current El Nino, since it’s not complete). The post could also be used by those bloggers who like to make predictions or by those wanting to see whether prognostications have any basis in history.
THE AVERAGE EL NINO
Figure 1 illustrates the development and decay of the average El Nino event for the period of 1950 through 2007. It starts in January of the development year and ends in December of the following (decay) year. To create the graph, I averaged the SST anomaly (ONI) values for the 24 months associated with each official El Nino event identified on the CPC’s Oceanic Nino Index (ONI) webpage:
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml
The average El Nino reaches the +0.5 deg C threshold of an El Nino in late May, peaks in December, then quickly decays until it drops below the +0.5 deg C El Nino threshold in mid March. The SST anomalies of the average El Nino do drop below zero, but during the following ENSO season they do not cross the -0.5 deg C threshold for a La Nina event.
http://i39.tinypic.com/k3vuvo.png
Figure 1
BEFORE AND AFTER 1979
The frequency and magnitude of ENSO events changed about 1976. Between the mid-1940s and the mid-1970s, La Nina events dominated (with a period of El Nino dominance in the 1960s), and after, El Nino events were dominant. This can be illustrated with a long-term graph of NINO3.4 SST anomalies smoothed with a 121-month filter, Figure 2.
http://i43.tinypic.com/33agh3c.jpg
Figure 2
But studies such as Trenberth et al (2002) divide the data into periods before and after 1979, based on the development of El Nino events, so I’ve divided the data in this post at 1979. (The 1976/77 event was a weak traditional El Nino, and the 1977/78 El Nino was a weak El Nino Modoki.) Link to Trenberth et al (2002) “Evolution of El Nino–Southern Oscillation and global atmospheric surface temperatures”:
http://www.cgd.ucar.edu/cas/papers/2000JD000298.pdf
The average SST anomalies of the El Nino events before and after 1979 are shown in Figure 3. It comes as no surprise that El Nino events after 1979 are stronger and last longer than those before the cutoff year. Still, even in more recent decades, the average El Nino is not followed by a La Nina.
http://i40.tinypic.com/2wpto8w.png
Figure 3
TRADITIONAL EL NINO VERSUS EL NINO MODOKI
Central Pacific versus Eastern Pacific El Nino events are discussed in a number of recent papers. Ashok et al (2007) “El Nino Modoki and its Possible Teleconnection”… https://www.jamstec.go.jp/frcgc/research/d1/iod/publications/modoki-ashok.pdf
…provides an equation that can be used to identify El Nino Modoki:
“EMI= [SSTA]A-0.5*[SSTA]B-0.5*[SSTA]C …(1)
“The square bracket in Equation (1) represents the area-averaged SSTA over each of theregions A (165E-140W, 10S-10N), B (110W-70W, 15S-5N), and C (125E-145E, 10S-20N), respectively.”
Ashok et al further describe the basis for their selection of El Nino Modoki events: “Based on the time series of the EMI shown in Figure 4a, we have identified seven typical El Niño Modoki events that lasted from boreal summer through boreal winter, peaking in one of these seasons (seasonal standard deviations for boreal summer and winter are 0.5ºC and 0.54ºC respectively). These typical El Niño Modoki events occurred in 1986, 1990, 1991, 1992, 1994, 2002, and 2004. Additionally, we identified a typical El Niño Modoki during the boreal winter of 1979-80 that lasted through the summer of 1980, though its amplitude fell below the threshold of 0.7 σ by then.” And they clarify with the footnote, “We call an El Niño Modoki event ‘typical’ when its amplitude of the index is equal to or greater than 0.7 σ, where σ is the seasonal standard deviation.”
Ashok et al appeared to use two definitions of an El Nino Modoki: first, the average of boreal summer through boreal winter for most events, and, second, the average of the boreal winter for the 1979 event. Using the average boreal summer through winter (June through February) El Nino Modoki Index and the boreal winter El Nino Modoki Index, Figure 4, as references, I’ve identified the typical El Nino Modoki events before 1979 (based primarily on the boreal winter data when they conflict). These along with traditional El Nino events are shown in Table 1, as are the breakdown of El Nino events after 1979.
http://i40.tinypic.com/16kc3kg.png
Figure 4
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http://i39.tinypic.com/24e7v2t.png
Table 1
Note 1: El Nino Modoki events identified by Ashok et al that do not qualify as official El Nino events on the ONI Index have been excluded.
Note 2: As illustrated in Table 1, there were more El Nino Modoki before 1979 than after, yet in press releases we’re advised that El Nino Modoki events are new, and that this NEW TYPE is resulting in a greater number of hurricanes with greater frequency and more potential to make landfall.” Refer to the press release…http://media-newswire.com/release_1094000.html…for the Hye-Mi Kim, et al (2009) paper “Impact of Shifting Patterns of Pacific Ocean Warming on North AtlanticTropical Cyclones”:
http://www.sciencemag.org/cgi/content/abstract/325/5936/77
The press release describes El Nino Modoki as “new” more than once. The “newness” of El Nino Modoki was also contradicted by data in my July 6, 2009 post There Is Nothing New About The El Nino Modoki.
Figure 5 compares the average El Nino Modoki and Traditional El Nino event since 1950. The typical Traditional El Nino is stronger than the El Nino Modoki and it results in a La Nina event, where the typical El Nino Modoki decays to a neutral SST anomaly of ~0.
http://i44.tinypic.com/5pkhn8.png
Figure 5
MORE COMPARISONS
Figures 6 through 9 provide further comparisons of El Nino Modoki and Traditional El Nino events before and after 1979. I won’t discuss these individually, other than to call your attention to the comparison of El Nino Modoki and Traditional El Nino events prior to 1979, Figure 8. Note that El Nino Modoki events were stronger and their durations were longer than Traditional El Nino events.
http://i41.tinypic.com/qz222u.png
Figure 6
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http://i41.tinypic.com/bk4ux.png
Figure 7
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http://i42.tinypic.com/dqzon.png
Figure 8
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http://i39.tinypic.com/elcfa0.png
Figure 9
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COMPARISONS OF INDIVIDUAL EL NINO EVENTS
Figure 10 compares the ONI SST anomalies for the 8 Traditional El Nino events from 1950 to 2007. Dashes are used to identify the El Nino events before 1979. Of the 8 Traditional events, only two El Nino events did not transition into La Nina events. The 1976/77 El Nino was followed by the 1977/78 El Nino Modoki.
http://i44.tinypic.com/jtxvg9.png
Figure 10
And the 1951/52 El Nino was not followed by a La Nina. The 1951/52 El Nino is also anomalous in that it peaks before the typical El Nino peak months of November, December, and January. However, looking at maps of ICOADS SST anomaly data (the basis for the Hadley Centre and NCDC’s SST data) for the tropical Pacific for October through December 1951 and for January 1952, Figure 11, we can see that there were few to no SST readings during those months in the NINO3.4 region (and most of the tropical Pacific for that matter), so the 1951/52 El Nino data could be considered suspect. (Always keep in mind that much of SST data before the eras of buoys and satellites are infilled.)
http://i42.tinypic.com/qod3bq.png
Figure 11
And Figure 12 is a comparison of the 10 El Nino Modoki events. I’ve also identified the earlier events with dashes. Of the 10 El Nino Modoki, only 2 events transitioned into La Nina events, the 1963/64 and 1994/95 El Nino events. The SST anomalies during the ENSO season following the 2004/05 El Nino dipped below the La Nina threshold, but did not remain there long enough to be considered an official La Nina.
http://i44.tinypic.com/72deeq.png
Figure 12
CLOSING COMMENT
Will a La Nina follow the 2009/10 El Nino? Considering that only 2 of 10 El Nino Modoki events since 1950 were followed by La Nina events, the odds are against it. But nature does provide surprises.
SOURCES
The ONI data is available through the NOAA CPC webpage:
http://www.cpc.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml
The HADISST SST anomaly data used for the El Nino Modoki graph, and the ICOADS data used for the tropical Pacific SST maps are available through the KNMI Climate Explorer:
http://climexp.knmi.nl/selectfield_obs.cgi?someone@somewhere
I also used the KNMI Climate Explorer to create the maps.
The traditional El Nino typically has a later start in the year than a Modoki. The event you marked as 87/88 really starts in late 86, and fits the late start pattern, and wanders on for 19 months, quite an exceptional length. My analysis of this; http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml is that the Vernal Equinox is the pivotal uplift point that kicks the El Nino in.
Forecasts of potential warming can go a long way to plot how likely this El Nino will last, I made a solar based forecast on December 2007 for Ocean warming in Autumn 2008 but no El Nino, then stronger warming Spring 2009 leading to an El Nino by Summer 2009. Did anyone else forecast this El Nino?
Regardless of solar forecasts, looking at Zonal Wind conditions can also help predict the lifespan of the current event;
http://www.cpc.ncep.noaa.gov/products/CDB/Tropics/figt3.gif
200hPa Trade wind don`t look like they are in a huury to turn +ve yet. 20/30hPa (QBO) look the they are following the 2000-2002 pattern and have a long way to go before becoming +ve.
A very good post with lots of great information. This is what makes this a great site and we all appreciate all the work. Maybe a small clink in the tip jar is in order.
Most ocean sst charts show a hot spot between Canada and Greenland – what causes this? Maybe Mr Tisdale can explain.
I am paricularly interested in the ENSO status during 1968-70, 1976-78 and 1986-88.
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ensostuff/ensoyears.shtml
Note the periodicity between these episodes.
With a long hot summer, this El Nino could easily be re-strengthening next Autumn, and continue until next spring, with a slight weakening in the middle, as we currently seeing.
Best discussion of oil spill yet, get past Gibbs to the scientists.
BOB
Interesting anlysis. Of the last 18 El Nino’s , 50% have had a La Nina follow within 1-7 months after the El Nino ends . El Nino years also bring more negative AO[cold] . 61% of El Nino months also had negative and cold AO. Hence the colder weather in many parts of the globe. So it is not that positive that a La Nina will not form in my opinion.Traditional wisdom has not been making accurate forecasts when it comes to weather prediction during the recent past as the Met Office found out about their winter forecast. My best judgement is that temperatures will start to drop after this El Nino goes neutral and we will have cool year even though traditional wisdom calls for a warm year after an El nino ends. I also happen to think a La Nina will form this year. In my judegement , volcanic ash may also play a role in creating more cooler weather this year in several parts of the globe.
Ulric Lyons: Regarding your prediction of a possible back-to-back El Nino, the subsurface temperature anomalies suggest otherwise, though it is a possibility:
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_update/wkxzteq.shtml
Time will tell.
What ist the source for the SST anomalies from 1900 to 1950 and how reliable are those values? I found some lists about El Nino years before 1950 like this one:
http://apollo.lsc.vsc.edu/classes/met130/notes/chapter10/elnino.html,
but never complete data for the years before 1950.
Though we are in “interesting times”, in a minimum, so here you can find el Nino data from 1525:
http://www.scribd.com/doc/30810082/Ninos
And UN´s FAO forecasts for fish catches in the pacific; see page 50, fig.9 :
ftp://ftp.fao.org/docrep/fao/005/y2787e/y2787e08.pdf
We are in downward slope to 2020.
Jack Morrow: You asked, “Most ocean sst charts show a hot spot between Canada and Greenland – what causes this?”
Looking at a graph of the SST anomalies for that area, there has been a mid-year seasonal spike in recent years, but this one is early. Last time we had an early one like this was during the 2002/03 El Nino.
http://i43.tinypic.com/261gthe.png
But not all recent El Nino events have caused an early spike.
Douglas DC says: “From my point of view that is not good.”
Why is that not good? If the tropical Pacific releases heat through an El Nino but doesn’t replace it with a La Nina, tropical Pacific Ocean Heat Content drops.
etudiant says:
“Is there anyone you would recommend who has done comprehensive ocean heat content measurements that are publicly available and as intelligible as your Nino/Nina work?”
———–
This is really the best place to start:
http://www.nodc.noaa.gov/OC5/3M_HEAT_CONTENT/
From there go to:
http://ioc-unesco.org/index.php?option=com_oe&task=viewDocumentRecord&docID=4781
and download the study of OHC in pdf form at that site.
And when discussing all things related to ocean heat, one ought to get a good foundation of the climate shift that occurred in 76-77 by starting at these sites:
http://www.ldeo.columbia.edu/res/pi/arch/climate_shift.shtml
http://horizon.ucsd.edu/miller/download/climateshift/climate_shift.pdf
From my understanding of some AGW skeptics arguments, the climate shift that occurred in 76/77 is now shifting back to a cooler period, and the whole rise in temps that we saw since that time (and associated cycles of stronger El Ninos) is all a normal cyclical event and in no way connected to AGW. Is that correct my skeptical friends?
“Bob Tisdale says:
May 2, 2010 at 8:37 am”
How much lattitude has this?
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_update/wkxzteq.shtml
If it were 10N to 10S then you may have a point, if its just a line along the eqautor, then it could be missing some of the current warmest regions. It differs somewhat from surface obseravations on this animation up to 21st April;
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_update/gsstanim.shtml
etudiant wrote: “That indicates an enormous amount of heat added in the more recent Nino events.
“As such, this data seems to me the most robust evidence of global warming yet presented.”
It was the La Nina event of 1973/74/75/76 that fueled the post 1976 El Nino events, through 1994. Then the 1995/96 La Nina replenished it for the 1997/98 El Nino. Refer to the following graph…
http://i46.tinypic.com/2vja1z5.png
…from the following post:
http://bobtisdale.blogspot.com/2010/02/la-nina-underappreciated-portion-of.html
“Enneagram says:
May 2, 2010 at 8:57 am
Though we are in “interesting times”, in a minimum, so here you can find el Nino data from 1525: http://www.scribd.com/doc/30810082/Ninos”
Thank you, interesting how far the list goes back. Nevertheless for this graph: http://i43.tinypic.com/33agh3c.jpg
detailed monthly SST values from 1900 to 1950 are necessary and I can’t find them anywhere.
It seems that we never dare to see the origin of earth´s climate, el Nino and La Nina included:
http://www.geomag.bgs.ac.uk/earthmag.html
The sunlight not only makes the air conduct, it also heats it causing thermo-tidal winds. These winds combine with the tidal winds caused by the gravitational pull of the Sun and Moon and drive the ionospheric dynamo. This dynamo generates currents as the conducting ionosphere is driven through the Earth’s magnetic field. These current systems form two closed loops: an anti-clockwise vortex in the northern hemisphere and a clockwise vortex ..
This is why Piers Corbyn has always succeded in his forecasts, if instead of seeking for the cause (that big and round light up above, called SUN) we´ll keep on groping in the dark, making “acceptable” by consensus and post normal science statistics and play station “models”.
OT – apologies if this has already been posted.
this is well worth watching, climategate and the world temperature data manipulations summed up.
http://www.blip.tv/file/3539174
“On April 16th, the Cooler Heads Coalition and the Heritage Foundation hosted a briefing on Climategate by Dr. Patrick J. Michaels, Senior Fellow in Environmental Studies, Cato Institute and Joseph DAleo, Executive Director, ICECAP, and Consulting Meteorologist. “
Staffan Lindström says:
May 2, 2010 at 6:45 am
melinspain (May 2, 2010 at 5:14) …Pero si…”El Niño”…”La Niña” … I swear by my
old scout honour I didn’t copy from your post…But why not “MelenEspaña?”..[“Swedish”
keyboard!]
Thank you Steffan for your suggestion…..I will think about it.
How will the PDO affect the chances of a La Nina?
I’m betting on a switch to La Nina starting soon (the peak is usually in November to January so it will start slow).
Equatorial Upper Ocean Heat Content in the Nino regions declined a full 1.0C in April and is now negative -0.03.
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ocean/index/heat_content_index.txt
The traditional circulation pattern will bring the even cooler water below to the surface soon.
http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/ocean/anim/wkxzteq_anm.gif
Yesterday’s cross-section.
http://www.ecmwf.int/products/forecasts/d/charts/ocean/real_time/xzmaps/
The Nino regions lag about 1 month behind these Upper Ocean Heat numbers so we should be very close to Zero anomaly for the ENSO in May.
http://img62.imageshack.us/img62/7098/ensovseuoha.png
“John Finn says:
May 2, 2010 at 12:38 am”
1) Cold winters on CET are much more likely to found around solar max, when there are less coronal holes. Recent odd numbered cycle maximums (C23, C21, C19 etc.) have showed up as warmer, but gave many of the coldest winters through Maunder and Dalton, while even numbered cycles were low during LIA, have more recently become stronger.
A clear phase change has taken place from LIA to present.
2) The solar signal changes sharply on a short term basis. If you look at temperatures, 3-5 months after most of the coldest winters on CET, very positive anomalies usualy occur. The current winter/spring is is a good example. The timing of these drops in the solar signal relative to the seasons, is critical to whether the N.H. gets a cold winter or not. Looking at trends in solar activity will not spot this all important detail.
GW since 1985 can be easily expressed as a drop in the number of negative anomalies, especially in N.H. winter time, and due to higher solar wind velocity during recent winters, exactly when, and where the warming is observed. And yes, the solar wind velocity was low during the last winter.
Thanks for a great post Bob, it really got me thinking!
I have a couple of question which I’d be grateful if you can have a stab at please.
Do prolonged neutral El Niño conditions result in a greater loss in total ocean energy than the other the other events?
Is there a link between El Niño strength and the SH polar vortex?
R. Gates says:
May 2, 2010 at 9:27 am
If, my skeptical counterpart friend, the world were composed of airport tarmacs, M as in METAR mistranscribings, pal-reviewed paper circular reasonings, IPCC National Inquirer style findings, gridded GISS anomalies, catastrophical sea level rises of a few millimeters in a world populated by ants, a trace gas with magical powers of ten thousand times the ordinary water molecule and a Super-Methane molecule that no biologic species or physical process could break down, then yes, the dire consequential model holds water.
Such a theory has all the technological advatages of the TRS-80 computer as of today, May 02, 2010.
Let me ask you a question:
Do the climate models run you, or do you run the models?
rbateman says:
“Do the climate models run you, or do you run the models?”
———–
Wow, that question came from out of the blue. Neither of those is the case as I am not a scientist…merely a curious observer of all phenomena of the natural world, trying to find and observe the evidence of any CO2 induced AGW signal amidst all the natural noise from solar cycles, ENSO’s, PDO’s, AMO, volcanoes, etc. etc. etc. and trying also to weed out the true science from all the noise thrown up from the true believers on both sides of the issue.
Weekly Tropical Climate Note
at 1300 CST Tuesday 27 April 2010
El Nino-Southern Oscillation Update
The 30-day Southern Oscillation Index [SOI] to 25 April was +15. During the past 2 weeks the SOI has returned to positive values after tracking negative since 11 October 2009. Contributing pressure anomalies were -0.7 hPa at Darwin, and +1.3 hPa at Tahiti. The monthly SOI for March was -11, and the 5-month running mean [centred on January] was -10.
http://www.bom.gov.au/