WEEKLY GLOBAL SEA SURFACE TEMPERATURE ANOMALIES
Weekly global sea surface temperature anomalies are still reaching higher, now easily above the peak reached during the 1997/98 El Niño. The vast majority of this new warming comes from the North Pacific. I’ll try to publish a post in the next week about the apparent 2013 North Pacific Climate Shift.
(16) Weekly Global Sea Surface Temperature Anomalies
THE EQUATORIAL PACIFIC
The monthly sea surface temperature anomalies for the equatorial Pacific are dropping below El Niño conditions. El Niño conditions so far this year were short-lived. Keep in mind, after the initial westerly wind bursts that initiated the start of the El Niño, the atmospheric side of ENSO has not cooperated (and is still not cooperating) in the development of an El Niño this year. I’ll also publish another update about the 2014/15 El Niño in the next few days. See the 2014/15 El Niño series of posts, starting at the first one, for a detailed discussion of the evolution of this quicky off-season El Niño.
The NINO3.4 Sea Surface Temperature anomalies for July 2014 are well below the +0.5 deg C threshold of El Nino conditions. They are presently at +0.31 deg C, having dropped (about -0.3 deg C) in the last month.
(2) NINO3.4 Sea Surface Temperature Anomalies
(5S-5N, 170W-120W)
Monthly Change = -0.311 deg C
####################################
The sea surface temperature anomalies of the NINO3.4 region in the eastern equatorial Pacific (5S-5N, 170E-120E) are a commonly used index for the strength, frequency and duration of El Niño and La Nina events. We keep an eye on the sea surface temperatures there because El Niño and La Niña events are the primary cause of the yearly variations in global sea surface temperatures AND they are the primary cause of the long-term warming of global sea surface temperatures over the past 30 years. See the discussion of the East Pacific versus the Rest-of-the-World that follows. We present NINO3.4 sea surface temperature anomalies in monthly and weekly formats in these updates.
The monthly values for the other primary NINO regions are listed below, from west to east:
- NINO4 (5S-5N, 160E-150W) = +0.51 Deg C
- NINO3 (5S-5N, 150W-90W) = +0.66 Deg C
- NINO1+2 (10S-0, 90W-80W) = +1.09 Deg C
MONTHLY SEA SURFACE TEMPERATURE ANOMALY MAP
The following is a Global map of Reynolds OI.v2 Sea Surface Temperature (SST) anomalies for July 2014. It was downloaded from the NOMADS website. The contour levels are set at 0.5 deg C, and white is set at zero.
July 2014 Sea Surface Temperature (SST) Anomalies Map
(Global SST Anomaly = +0.34 deg C)
MONTHLY OVERVIEW
Global Sea Surface Temperature anomalies dropped very slightly last month, a decrease of less than -0.01 deg C from June to July…with a +0.06 warming in the Northern Hemisphere more than offset by a -0.06 deg C cooling in the Southern Hemisphere. The most significant warming took place in the North Atlantic, with a surge of about +0.20 deg C. That rise was offset by the South Atlantic and Indian Oceans, where the surfaces dropped about -0.06 deg C and -0.17 deg C, respectively. The monthly Global Sea Surface Temperature anomalies are presently at +0.339 deg C.
(1) Global Sea Surface Temperature Anomalies
Monthly Change = -0.006 deg C
The following map presents the change in sea surface temperature anomalies from June to July 2014.
(00) Change in Global Sea Surface Temperature Anomalies (July 2014 Anomalies Minus May 2014 Anomalies)
####################################
THE EAST PACIFIC VERSUS THE REST OF THE WORLD
NOTE: This section of the updates has been revised. We discussed the reasons for the changes in the post Changes to the Monthly Sea Surface Temperature Anomaly Updates.
For years, we have shown and discussed that the surfaces of the global oceans have not warmed uniformly during the satellite era of sea surface temperature data. In fact, some portions of the global oceans have cooled during that 3+ decade period. One simply has to look at a trend map for the period of 1982 to 2013 to see where the ocean surfaces have warmed and where they have not. Yet the climate science community has not addressed this. See the post Maybe the IPCC’s Modelers Should Try to Simulate Earth’s Oceans.
The North Atlantic (data illustrated later in the post) has had the greatest warming over the past 3+ decades, but the reason for this is widely known. The North Atlantic has an additional mode of natural variability called the Atlantic Multidecadal Oscillation. If you’re not familiar with the Atlantic Multidecadal Oscillation see the NOAA Frequently Asked Questions About the Atlantic Multidecadal Oscillation (AMO) webpage and the posts An Introduction To ENSO, AMO, and PDO — Part 2 and Multidecadal Variations and Sea Surface Temperature Reconstructions. As a result of the Atlantic Multidecadal Oscillation, the surface of the North Atlantic warmed at a rate that was more than twice the rate of the surface of the rest of the global oceans. See the trend comparison graph here.
The East Pacific Ocean also stands out in the trend map above. Some portions of its surfaces warmed and others cooled. It comes as no surprise then that the linear trend of the East Pacific (90S-90N, 180-80W) Sea Surface Temperature anomalies since the start of the Reynolds OI.v2 dataset is so low. With the El Nino conditions in the eastern tropical Pacific and the possible climate shift in the eastern North Pacific in 2013, it has acquired a slight positive trend, but it’s still far below the approximate +0.15 deg C/decade warming rate predicted by the CMIP5 climate models. Please see Figure 19 in the post Maybe the IPCC’s Modelers Should Try to Simulate Earth’s Oceans. (Note that the region also includes portions of the Arctic and Southern Oceans.) That is, there has been little to no warming of the sea surfaces of the East Pacific (from pole to pole) in 32 years. The East Pacific is not a small region. It represents about 33% of the surface area of the global oceans. The East Pacific linear trend varies very slightly with each monthly update. But it doesn’t vary greatly between El Niño and La Niña events.
(3) East Pacific Sea Surface Temperature (SST) Anomalies
(90S-90N, 180-80W)
####################################
That leaves the largest region of the trend map, which includes the South Atlantic, the Indian and West Pacific Oceans, with the corresponding portions of the Arctic and Southern Oceans. Sea surface temperatures there warmed in very clear steps, in response to the significant 1986/87/88 and 1997/98 El Niño/La Niña events. It also appears as though the sea surface temperature anomalies of this dataset July have made another upward shift in response to the 2009/10 El Niño and 2010/11 La Niña events. I further described the ENSO-related processes that cause these upward steps in the recent post Answer to the Question Posed at Climate Etc.: By What Mechanism Does an El Niño Contribute to Global Warming?
(4) Sea Surface Temperature Anomalies For The South Atlantic-Indian-West Pacific Oceans
(Weighted Average of 0-90N, 40E-180 @ 27.9% And 90S-0, 80W-180 @72.1%)
####################################
The periods used for the average temperature anomalies for the South Atlantic-Indian-West Pacific subset between the significant El Niño events of 1982/83, 1986/87/88, 1997/98, and 2009/10 are determined as follows. Using the original NOAA Oceanic Nino Index (ONI) for the official months of those El Niño events, I shifted (lagged) those El Niño periods by six months to accommodate the lag between NINO3.4 SST anomalies and the response of the South Atlantic-Indian-West Pacific Oceans, then deleted the South Atlantic-Indian-West Pacific data that corresponds to those significant El Niño events. I then averaged the South Atlantic-Indian-West Pacific Oceans sea surface temperature anomalies between those El Niño-related gaps.
The “Nov 2010 to Present” average varies with each update.
The Sea Surface Temperature anomalies of the East Pacific Ocean, or approximately 33% of the surface area of the global oceans, have shown little to no long-term warming since 1982 based on the linear trend. And between upward shifts, the Sea Surface Temperature anomalies for the South Atlantic-Indian-West Pacific subset (about 52.5% of the global ocean surface area) remain relatively flat, though they actually cool slightly. Anthropogenic forcings are said to be responsible for most of the rise in global surface temperatures over this period, but the Sea Surface Temperature anomaly graphs of those regions discussed above prompt a two-part question: Since 1982, what anthropogenic global warming processes would overlook the sea surface temperatures of 33% of the global oceans and have an impact on the other 52% but only during the months of the significant El Niño events of 1986/87/88, 1997/98 and 2009/10?
They were also discussed in great detail in my recently published book Who Turned on the Heat? The Unsuspected Global Warming Culprit, El Niño-Southern Oscillation. The Free Preview includes the Table of Contents; the Introduction; the beginning of Section 1, with the cartoon-like illustrations; the discussion About the Cover; and the Closing. Also see the blog post Everything You Every Wanted to Know about El Niño and La Niña… for an overview. It’s now sale priced at US$5.00. Please click here to buy a copy. (Paypal or Credit/Debit Card. You do not need to open a PayPal account.)
STANDARD NOTE ABOUT THE DATA
The MONTHLY graphs illustrate raw monthly OI.v2 sea surface temperature anomaly data from November 1981 to July 2014, as it is presented by the NOAA NOMADS website linked at the end of the post. NOAA uses the base years of 1971-2000 for this dataset. I’ve added the 13-month running-average filter to smooth out the seasonal variations.
MONTHLY INDIVIDUAL OCEAN AND HEMISPHERIC SEA SURFACE TEMPERATURE UPDATES
(5) Northern Hemisphere Sea Surface Temperature (SST) Anomalies
Monthly Change = +0.059 deg C
####################################
(6) Southern Hemisphere Sea Surface Temperature (SST) Anomalies
Monthly Change = -0.057 deg C
####################################
(7) North Atlantic Sea Surface Temperature (SST) Anomalies
(0 to 70N, 80W to 0)
Monthly Change = +0.204 deg C
####################################
(8) South Atlantic Sea Surface Temperature (SST) Anomalies
(0 to 60S, 70W to 20E)
Monthly Change = -0.058 deg C
####################################
(9) Pacific Sea Surface Temperature (SST) Anomalies
(60S to 65N, 120E to 80W)
Monthly Change = +0.015 Deg C
####################################
(10) North Pacific Sea Surface Temperature (SST) Anomalies
(0 to 65N, 100E to 90W)
Monthly Change = +0.025 Deg C
####################################
(11) South Pacific Sea Surface Temperature (SST) Anomalies
(0 to 60S, 120E to 70W)
Monthly Change = -0.023 deg C
####################################
(12) Indian Ocean Sea Surface Temperature (SST) Anomalies
(60S to 30N, 20E to 120E)
Monthly Change = -0.165 deg C
####################################
(13) Arctic Ocean Sea Surface Temperature (SST) Anomalies
(65N to 90N)
Monthly Change = +0.105 deg C
####################################
(14) Southern Ocean Sea Surface Temperature (SST) Anomalies
(90S-60S)
Monthly Change = +0.036 deg C
####################################
WEEKLY SEA SURFACE TEMPERATURE ANOMALIES
Weekly NINO3.4 sea surface temperature anomalies are cycling below the threshold of an El Niño. Where to next?
(15) Weekly NINO3.4 Sea Surface Temperature (SST) Anomalies
####################################
INTERESTED IN LEARNING MORE ABOUT HOW AND WHY THE GLOBAL OCEANS INDICATE THEY’VE WARMED NATURALLY?
Why should you be interested? The hypothesis of manmade global warming depends on manmade greenhouse gases being the cause of the recent warming. But the sea surface temperature record indicates El Niño and La Niña events are responsible for the warming of global sea surface temperature anomalies over the past 32 years, not manmade greenhouse gases. Scroll back up to the discussion of the East Pacific versus the Rest of the World. I’ve searched sea surface temperature records for more than 4 years, and I can find no evidence of an anthropogenic greenhouse gas signal. That is, the warming of the global oceans has been caused by Mother Nature, not anthropogenic greenhouse gases.
I’ve recently published my e-book (pdf) about the phenomena called El Niño and La Niña. It’s titled Who Turned on the Heat? with the subtitle The Unsuspected Global Warming Culprit, El Niño Southern Oscillation. It is intended for persons (with or without technical backgrounds) interested in learning about El Niño and La Niña events and in understanding the natural causes of the warming of our global oceans for the past 30 years. Because land surface air temperatures simply exaggerate the natural warming of the global oceans over annual and multidecadal time periods, the vast majority of the warming taking place on land is natural as well. The book is the product of years of research of the satellite-era sea surface temperature data that’s available to the public via the internet. It presents how the data accounts for its warming—and there are no indications the warming was caused by manmade greenhouse gases. None at all.
Who Turned on the Heat? was introduced in the blog post Everything You Ever Wanted to Know about El Niño and La Niña… …Well Just about Everything. The Free Preview includes the Table of Contents; the Introduction; the beginning of Section 1, with the cartoon-like illustrations; the discussion About the Cover; and the Closing.
Please buy a copy. (Paypal or Credit/Debit Card). You do not need to have a PayPal account. Simply scroll down to the “Don’t Have a PayPal Account” purchase option. It’s now sale priced at US$5.00.
SOURCES
The Sea Surface Temperature anomaly data used in this post is available through the NOAA NOMADS website (Both NOMAD2 and NOMAD3 websites have been down recently, which leaves us with NOMAD1):
http://nomad1.ncep.noaa.gov/cgi-bin/pdisp_sst.sh
Bob Tisdale - Climate Observations 
Bob Tisdale has become the World’s “Go to” guy for oceanic temperature analysis and results!
NO ONE, and no organization, does it better!!!
THANKS BOB!!!!!
Thanks, Bob, for your good efforts to help us understand the complexity of the real world.
From http://www.cpc.ncep.noaa.gov/products/analysis_monitoring/enso_disc_aug2014/ensodisc.html :
“The chance of El Niño has decreased to about 65% during the Northern Hemisphere fall and early winter.”
And we shall see what actually happens.
Bob,
Why you even more, misunderstand what variability and whats cause, that we reaching a new high is the cause of longtime-Warming in Ocean, but it gives some variability like PDO or ENSO, what triggers the form of the increase.
I cant belive that you not Understand such simply modification-modes, in oceans often via the Mixed-Layer.
What this looks like to me is previously warmed equatorial water (from the last strong La Nina?) working its way out of the oceans riding on the main currents. It seems especially so in the Arctic. Good thing we have less ice there. The heat can escape.
hmmmmmm. Well that can’t be right. Heat is not supposed to be escaping. It’s going the wrong way! Not up! You need to go down! Somebody quick…call that guy from Red October.
It will be interesting to see if that spike crashes now that the El Nino has ‘evaporated’ unexpectedly,or if it remains a relatively sustained event.
Bob,
Don’t you find it quite fascinating how the lower troposphere above the North Pacific does not seem to follow suit with the sea surface beneath, especially over the last year. Well, qualitatively to some extent it does, but not at all quantitatively:
Is it simply from a more subdued general convective/evaporative response to a warming sea surface once you move away from the tropics? Is it from reduced mean wind shear in the area? Or is it something else?
I’d be interested to hear your thoughts on this.
Kristian: That question would be better posed to Roy Spencer.
Pingback: On The Recent Record-High Global Sea Surface Temperatures – The Wheres and Whys | Bob Tisdale – Climate Observations
Pingback: On The Recent Record-High Global Sea Surface Temperatures – The Wheres and Whys | Watts Up With That?