Note: this post was two weeks in the making, and well worth your time to read – Anthony
Guest post by Bob Tisdale
Global sea surface temperatures have warmed over the past 30 years, but there is no evidence the warming was caused by anthropogenic greenhouse gases. No evidence at all.
This post was written for persons who have seen my posts around the blogosphere for the past three and a half years, or have seen other bloggers discussing them, and have wondered what I was yakking on and on about—with the El Niño this and La Niña that. This post is a basic, down-to-Earth discussion of the causes of the warming of global sea surface temperatures over the past 30 years. It’s how data, not models, account for the warming. I’ve tried to make it as non-technical as possible.
In its draft form, this post was titled Why Do Proponents of Manmade Global Warming Continue to Misinform the Public about the Roles El Niño and La Niña Play in the Warming of the Global Oceans? The answer’s pretty obvious once you understand the roles El Niño and La Niña play.
OVERVIEW
Many of you have your doubts about manmade carbon dioxide-fueled global warming. Occasionally, you might even wonder what it would be like if those myths about CO2 slowly vanished from our collective consciousness: Fewer and fewer persons would care about carbon dioxide emissions. The guilt some people feel about their carbon footprints would fade away and end with an unheard blip. SUVs with the monster V8s would start to look appealing to some people again—those who can afford the price of gasoline. Governments around the world would have to be honest with their citizens and say they want to reduce their countries’ dependences on foreign oil. The non-stop marketing of green products would cease and we could return to primary colors—like blue as in deep blue sea. Instead of feeling responsible for the melting of glaciers, for sea level rise, for the loss of seasonal sea ice in the Arctic Ocean, etc., we’d experience child-like awe of Mother Nature’s capacity to alter the configuration of the globe around us. That admiration, that wonder, we used to feel about weather-related events such as flooding, drought, blizzards, heat waves, cold snaps, would return. Alarmist climate scientists, who have tried with limited success to convince the masses that we now control those weather events, would be stripped of their rock-star images, and they’d wither into obscurity like Milli Vanilli, leaving more research funds available for those climate scientists who want to study the genuine causes and effects of global warming. Wishful thinking.
Since we live on land, we often think of manmade global warming as a land surface air temperature concern. But…
The oceans cover about 70% of the surface of the Earth. The surface air temperatures of the smaller land portion imitate and amplify the warming or cooling of the oceans. The hypothesis of greenhouse gas-dominated manmade global warming has one fundamental requirement. Greenhouse gases MUST warm the surface and subsurface temperatures of the global oceans. If they don’t—that is, if the recent warming of the oceans can be shown to be natural—then carbon dioxide and other manmade greenhouse gases lose their importance. Those anthropogenic greenhouse gases then become second or third tier causes of the warming of land surface air temperatures. Instead of being important, manmade greenhouse gases then become impotent.
In order to shift the cause of global warming from natural to manmade factors, proponents of anthropogenic global warming have misinformed, and continue to misinform, the public about the roles El Niño and La Niña events play in the warming of global sea surface temperatures. Those proponents want to keep the myth of CO2-driven global warming alive and in the forefront of imaginations of a gullible public, so they have to turn Mother Nature’s glorious children, La Niña and her big brother El Niño, into nonfactors.
I used the word “misinformed” in the preceding paragraph. A synonym of the verb “misinform” is “lie to”. Take your pick. I’ll use misinform and other synonyms in a number of forms throughout the rest of this post, but you know what I mean.
This post provides a simple overview of how the instrument temperature record confirms that El Niño and La Niña events, not manmade greenhouse gases, are the primary causes of the warming of global sea surface temperatures we’ve experienced over the past 30 years. It provides a slightly different and simpler perspective of the data-based arguments I’ve discussed and illustrated in past posts here at Climate Observations, many of which have been cross-posted at the internet’s most-viewed website on global warming and climate change WattsUpWithThat. This is the same tack—make it easy to understand—I took when preparing my popular e-book Who Turned on the Heat? – The Unsuspected Global Warming Culprit, El Niño-Southern Oscillation.
INTRODUCTION
Proponents of manmade greenhouse gas-driven global warming (scientists and bloggers) have created a number of untruths about El Niño and La Niña, which are also known in scientific jargon as El Niño-Southern Oscillation (ENSO). The fabrications are intended to redirect the cause of the warming of global sea surface temperatures from the true cause, ENSO, to an imaginary cause, anthropogenic greenhouse gases, primarily carbon dioxide. Manmade greenhouse gases have no measurable effect on global sea surface temperatures. Most of the misinformation relies on the public’s limited understanding of the natural processes that drive El Niño and La Niña events.
What’s the most-often-presented falsehood they’ve manufactured about El Niño and La Niña?
The primary myth about ENSO is the La Niña phase of ENSO is the opposite of El Niño. It sounds like it might be true, but it’s nonsense. There is nothing in the instrument temperature record that supports it. I’ll show you how the differences present themselves in the data later in the post.
The processes of El Niño and La Niña themselves are not opposites. La Niña is simply an exaggeration of the “normal” state of the tropical Pacific—that is, La Niñas are the normal state with some oomph. On the other hand, an El Niño takes naturally created warm water from below the surface of the western tropical Pacific and relocates it the surface. When it’s below the surface, the warm water is not included in the surface temperature record, but during and after the El Niño, the warm water is included in the surface temperature record. That warm water makes a short appearance in the eastern tropical Pacific—where scientists measure sea surface temperatures so that we know an El Niño is taking place—before the warm water is distributed around the global oceans, causing the long-term natural warming of sea surface and land surface air temperatures.
Further, at the end of the El Niño, sea surface temperatures in the eastern tropical Pacific cool and return to normal levels. They might even cool to temperatures below normal if a La Niña follows the El Niño. That typically happens after a very strong El Niño—that is, La Niñas typically follow strong El Niños.
Now here’s where the proponents of manmade global warming get goofy. In very basic terms: some climate scientists point to the cooling temperature in the eastern tropical Pacific and say global surface temperatures should also cool because the El Niño is done where they have their El Niño-measuring thermometers. Those scientists know there’s a huge amount of warm water left over after a strong El Niño; they know the leftover warm water has been redistributed to other parts of the global oceans away from their El Niño-measuring thermometers; yet they have the gall of conmen when they to point to those El Niño-measuring thermometers in the eastern tropical Pacific and tell us the effects of the El Niño are done. They then heap it on thicker when they say, since surface temperatures have warmed away from their El Niño-measuring thermometers, the warming elsewhere must be caused by manmade greenhouse gases. They have presented that absurd argument in a good number of scientific papers. They know it makes no sense, I know it and now you know it.
The next question you may have: The El Niño released lots of warm water from below the surface of the western tropical Pacific, but how was that warm water created?
It was created during a La Niña that came before the El Niño. This happens because La Niña events reduce cloud cover and allow more sunlight than normal to penetrate and warm the tropical Pacific. It’s all so simple, and it’s all supported by data, not by incorrect assumptions implanted into the programming climate models.
There are variations of the myth that “La Niña is the opposite of El Niño”. One variation: the response of global surface temperatures to a La Niña is similar to an El Niño but of the opposite sign. That’s just as wrong as the original. The differences in the aftereffects of El Niño and La Niña are very obvious—you can’t miss them—especially after the strong El Niño events that took place during satellite era of sea surface temperature records. That’s the 30-year period we’ll discuss in this post.
Another variation to the fairy tale: ENSO is simply noise or an exogenous factor in the global surface temperature record. The fancy-schmancy word exogenous was recently and incorrectly used to describe ENSO in the 2011 Foster and Rahmstorf paper Global Temperature Evolution 1979–2010. Exogenous, according to Webster, means:
…caused by factors (as food or a traumatic factor) or an agent (as a disease-producing organism) from outside the organism or system.
Actually, ENSO is an integral part of the sea surface temperature record. As such, the effects of ENSO cannot be removed from the surface temperature record. ENSO represents a natural coupled ocean-atmosphere process, not some outside factor. The events that initiate an El Niño are weather related, making El Niño basically random events, but they’re still part of normal and natural global climate. By labeling ENSO as noise or an exogenous factor, the scientists and statisticians are attempting to conceal its long-term effects—just another way to misinform the public.
This post will clearly show that global sea surface temperatures do not respond to all La Niña events as they do to the El Niño events that came before them. There’s also a major portion (33% of the surface area) of the global oceans that have defied greenhouse gases. The sea surface temperatures there have NOT warmed in three decades. That’s tough to explain in a world where greenhouse gases are supposed to be warming the oceans.
HOW THE BASIC ANTHROPOGENIC GLOBAL WARMING MYTH IS PORTRAYED
Proponents of anthropogenic global warming, including bloggers and climate scientists, have done a wonderful job of convincing the public that there are three basic components to the warming of global sea surface temperatures. They include:
(1.) An anthropogenic global warming component that is supposed to explain the warming trend of the global sea surface temperatures. That’s the part they portray as evil, but it doesn’t exist so there’s nothing sinister behind the warming of the global oceans. Then there are the two natural factors;
(2.) A sun-blocking volcanic aerosols component to explain the sudden but temporary cooling of global sea surface temperatures that are caused by catastrophic volcanic eruptions; and,
(3.) An El Niño- and La Niña-related component to explain the year-to-year wiggles above and beyond the anthropogenic global warming component (1.).
Those three components are shown in Figure 1.
According to the supposition of anthropogenic global warming, the end result of those three components is the warming of the global sea surface temperature anomalies over the past 30 years with all of its yearly variations. See Figure 2. It assumes there is an anthropogenic component that’s responsible for all of the long-term warming, and it assumes there is a volcanic aerosols component to explain the dips and rebounds caused by of the eruptions of El Chichon in 1982 and Mount Pinatubo in 1991. It also assumes that the global sea surface temperatures respond proportionally to El Niño and La Niña events, which explain the large year-to-year variations above and beyond the long-term warming trend caused by manmade greenhouse gases. That is, it assumes global sea surface temperatures will cool in response to La Niña events and warm in response to El Niño events and do so proportionally.
REALITY IS DIFFERENT THAN THE HYPOTHESES/SUPPOSITIONS/ASSUMPTIONS
One of the components discussed above is presented correctly: the volcanic aerosols component. After the two major explosive volcanic eruptions, global sea surface temperatures did cool and then warm back up gradually over a few years. Those dips and rebounds are tough to find in some parts of the global oceans, but in others you can’t miss the effects of those volcanos. Additionally, the way the El Niño-La Niña component is portrayed is partly correct. Global sea surface temperatures do warm in response to El Niño events…
If you’re waiting for me to say global sea surface temperatures cool during all La Niña events, you’ll be waiting a long time, because the sea surface temperature records don’t show they cool during all La Niñas. Let me clarify that: the sea surface temperatures for a portion of the global oceans do respond proportionally to El Niño and La Niña events, but in a much larger area, they do not.
Also, as a result, there is no evidence in the satellite-era of sea surface temperature records that manmade greenhouse gases are responsible for any portion of the warming of the global oceans.
WHY IS THAT IMPORTANT?
If a hypothesis does not agree with the data that’s used to support it, then the hypothesis is flawed. According to the climate models used as marketing tools by the Intergovernmental Panel on Climate Change (IPCC), only greenhouse gases can explain the warming over the past 30 years. If the IPCC had evaluated sea surface temperature data for that time period by breaking the data into logical subsets, they’d have discovered the warming can be explained naturally. Maybe some contributing authors/scientists/computer modelers do understand and they have elected not to express it.
Consider this: Most of us live on land. The vast majority of the warming of land surface air temperatures is caused by the warming of the surface temperatures of the oceans. How vast a majority? About 85%—give or take—of the warming of land surface air temperatures is in response to warming of the global sea surface temperatures. This can be shown through data analysis and with climate model outputs available on the web. Refer to Compo and Sardeshmukh (2009): Oceanic influences on recent continental warming. Compo and Sardeshmukh didn’t identify how much of the warming of land surface air temperatures could be attributed to the warming of the sea surface temperatures, but I did in Chapter 8.11 of my book Who Turned on the Heat? Figure 3 is from that chapter. The data presented in it is from the NASA Goddard Institute for Space Studies (GISS) ModelE Climate Simulations – Climate Simulations for 1880-2003 webpage, specifically Table 3. Those outputs are based on the GISS Model-E coupled general circulation model. They were presented in the Hansen et al (2007) paper Climate simulations for 1880-2003 with GISS modelE.
The additional warming of land surface air temperatures could be caused by anthropogenic greenhouse gases, but it is just as likely the warming was caused by other factors such as land-use changes, urban heat island effect, black soot on snow, overly aggressive corrections (modifications) to the land surface air temperature records, problems associated the locations of the temperature measuring surface stations, etc.
Let me rephrase that. These additional factors—land use changes, urban heat island effect, etc.—do not impact the surface temperatures of the oceans in the real world or in climate models. Therefore, because the oceans cover 70% of the planet, the entire warming of the oceans in the climate models is assumed to be caused by manmade greenhouse gases and by changes in aerosols. That’s why carbon dioxide is considered to be so important by climate scientists. However, because the warming of the global oceans can be shown to be natural, then greenhouse gases, including the well-marketed carbon dioxide, become also-rans, with carbon dioxide vying for a place with the other land-only factors.
THE USE OF GLOBAL DATA AS A METRIC FOR GLOBAL WARMING CAN BE DECEIVING
I know the heading sounds odd, but it’s true. If we look at data on a global basis, we can only see that the global dataset has warmed—we can’t see if there are obvious reasons for the warming. To eliminate that problem, we’ll simply divide the data into two portions. We’ll call these regions the East Pacific (90S-90N, 180-80W) and the Rest of the World (90S-90N, 80W-180) to simplify the discussion. These areas are shown in Figure 4. They stretch from the Southern Ocean surrounding Antarctica to the Arctic Ocean surrounding the North Pole.
The East Pacific sea surface temperature data represents about 33% of the surface area of the global oceans—that’s a chunk of water—while the Rest-of-the-World data makes up the other 67%.
I’ve also highlighted an area in the eastern equatorial Pacific called the NINO3.4 region. Recall our earlier very basic discussion about an El Niño and the thermometers the scientists use to tell us when an El Niño is taking place. That’s the area. Please don’t think there’s only one thermometer bobbing around on wine bottle cork. There are weather station-like buoys measuring atmospheric and oceanic (surface and subsurface) conditions across the entire tropical Pacific. Those NOAA Tropical Ocean-Atmosphere (TAO) Project buoys are linked to satellites, which relay the data back to climate monitoring centers. The NOAA PMEL website includes an animated slide show that provides a simple, easy-to-understand overview of the TOA project.
There are other satellites that measure the skin temperatures of the global oceans twice daily, and they’ve been doing so since late in 1981. There are also ships and other buoys measuring sea surface temperatures around the global oceans.
A PRELIMINARY NOTE ABOUT OUR ENSO INDEX
As noted above, the sea surface temperature anomalies of a region of the eastern equatorial Pacific are commonly used as an indicator of El Niño and La Niña events—aka an ENSO Index. That region with the coordinates of 5S-5N, 170W-120W is called NINO3.4. We’ll use the sea surface temperatures of the NINO3.4 region as a reference in the following graphs for how often El Niño and La Niña events occur, how strong they are and how long they persist. Keep in mind, though, while the NINO3.4 sea surface temperatures indicate an ENSO event is taking place in the eastern equatorial Pacific, it is only measuring the effects of the El Niño or La Niña on the surface temperatures in that region. That may seem obvious, but people lose track of that fact and forget to account for the effects an El Niño is having outside of that region on temperatures and other variables.
The sea surface temperatures in that NINO3.4 region warm and cool directly in response to the El Niño and La Niña events, so the swings in temperature there are quite large, much greater than the variations in the other datasets we’ll illustrate. To accommodate the differences, the monthly values of the NINO3.4 data are multiplied by a common factor to reduce the variations. That simple process is called scaling. I’ve also shifted the NINO3.4 data back in time in one graph to better align the wiggles in the two variables. That was done to account for the time lag between the changes in temperature in the NINO3.4 region and the responses of the Rest-of-the-World sea surface temperatures. The scaled NINO3.4 sea surface temperatures are the purple curves in the following graphs.
THE EAST PACIFIC SEA SURFACE TEMPERATURE DATA DOES NOT AGREE WITH THE ASSUMPTION OF GREENHOUSE GAS-DRIVEN GLOBAL WARMING
With that in mind, let’s compare the scaled NINO3.4 data to the sea surface temperature anomalies for the East Pacific. Refer to Figure 5. One of the components that are used to explain the variations in sea surface temperature is obviously there. The East Pacific sea surface temperature anomalies (pink curve) warm in response to El Niño events shown as the large upward spikes in the scaled NINO3.4 data (purple curve) and cool in response to La Niña events as shown with downward dips in the NINO3.4 data. During an El Niño event, warm water that had been below the surface of the western tropical Pacific sloshes into the East Pacific Ocean on the surface, impacting the sea surface temperatures of the East Pacific and the NINO3.4 region directly. When the El Niño is done, the leftover warm water sloshes back out of the East Pacific. Comparing the two curves, the East Pacific sea surface temperature anomalies diverge from the scaled NINO3.4 data at times, but in general, the East Pacific sea surface temperatures mimic the ENSO index. The volcanic aerosol component also seems to be missing. It’s a tough call since the two datasets don’t follow one another perfectly.
Regardless, the component that’s very obviously missing is the anthropogenic global warming component. Sea surface temperature anomalies for the East Pacific haven’t warmed in 30 years. A trend of 0.007 deg C per decade is basically flat. That’s 7 one-thousandths of a deg C per decade, or based on the linear trend, they’ve warmed 2.1 one-hundredths of a deg C over the past 30 years. It’s foolish to think in terms that small when dealing with a body of water that’s about 120 million square kilometers or about 46 million square miles. It’s better simply to say the data shows no evidence of warming.
On the other hand, according to the climate models used by the IPCC, the East Pacific sea surface temperatures SHOULD HAVE warmed roughly 0.42 to 0.45 deg C over that period, IF they were warmed by anthropogenic greenhouse gases. Obviously, they haven’t been warmed by greenhouse gases. Should’ve, would’ve, could’ve.
Yeah but…the proponents of anthropogenic global warming repeatedly say…Yeah but…
THE SEA SURFACE TEMPERATURES FOR THE REST OF THE WORLD HAVE WARMED
That’s very obvious. We showed the sea surface temperatures for the global oceans have warmed in Figure 2. If the East Pacific data hasn’t warmed in 30 years, then the warming has to have come from someplace and logically that’s going to be in the sea surface temperature data for the area we’re calling the Rest-of-the-World. We can see this in a graph that compares East Pacific and Rest-of-the-World sea surface temperature anomalies, Figure 6.
The proponents of anthropogenic global warming will argue that they’ve never claimed the globe will warm uniformly; that is, some parts warm, while others don’t. It’s a convenient excuse, one that they can’t support with climate models because the climate models say the East Pacific should have warmed, so they fabricate another misleading statement. It’s easy to do. They’ve got a long history of misinforming the public. It’s a choice they’ve clearly made.
THE SEA SURFACE TEMPERATURE DATA FOR THE REST OF THE WORLD DOES NOT AGREE WITH THE ASSUMPTION OF GREENHOUSE GAS-DRIVEN GLOBAL WARMING
It was easy to compare the year-to-year warmings and coolings in the East Pacific data and our ENSO index because neither has warmed in 30 years. Let’s make the Rest-of-the-World sea surface temperature anomalies just as easy to compare to our ENSO index by removing the trend in the Rest-of-the-World data. “Detrending” a dataset is simple. First, the monthly values of the trend line for the Rest-of-the-World data are determined. Second, the values of the trend line are subtracted from the Rest-of-the-World data. It’s a quick and easy process with a spreadsheet. Figure 7 compares the Rest-of-the-World data to its detrended version.
With the trend removed from Rest-of-the-World sea surface temperatures, two things SHOULD appear when they are then compared to the NINO3.4 data. The Rest-of-the-World sea surface temperature anomalies should temporarily dip below the scaled NINO3.4 data starting in 1982 and in 1991 as the Rest-of-the-World data cools then rebounds in response to the volcanic aerosols. There’s something else that SHOULD happen if the proponents of anthropogenic global warming have been truthful about El Niño and La Niña. Sea surface temperatures in the Rest-of-the-World should warm in response to El Niños and they should cool proportionally to La Niñas, just as they had for the East Pacific data. Figure 8 compares the NINO3.4 and Rest-of-the-World sea surface temperature anomalies.
Looks like we’ve been misinformed once again.
The Rest-of-the-World data does diverge from the scaled NINO3.4 data as expected in response to the volcanic eruptions. I’ve highlighted those in green. The effects of the very strong 1982/83 El Niño were counteracted by the 1982 eruption of El Chichon and the impacts of the 1991/92 El Niño were overwhelmed by the 1991 eruption of Mount Pinatubo.
To contradict the myth about La Niña, the sea surface temperatures for the Rest-of-the-World do NOT cool proportionately during the two La Niña events that followed the two very strong El Niño events of 1986/87/88 and 1997/98. They warmed in response to those two El Niño events, but they failed to cool in response the La Niña events that followed. I’ve highlighted those divergences in brown. If they cooled proportionally during those two La Niña events, the dark blue line would follow the ENSO Index shown in purple. The detrended Rest-of-the-World data mimics the NINO3.4 data at other times, but not after the two major El Niño events.
Why?
1. The processes that drive La Niña events are not the opposite of El Niño events.
2. After a very strong El Niño event, there can be a huge amount of leftover warm water that remains on the surface. There is also a huge volume of leftover warm water that’s below the surface, and it rises to the surface with time.
RECALL THE EARLIER DISCUSSIONS
In the introduction I wrote:
On the other hand, an El Niño takes naturally created warm water from below the surface of the western tropical Pacific and relocates it the surface. When it’s below the surface, the warm water is not included in the surface temperature record, but during and after the El Niño, the warm water is included in the surface temperature record. That warm water makes a short appearance in the eastern tropical Pacific—where scientists measure sea surface temperatures so that we know an El Niño is taking place—before the warm water is distributed around the global oceans, causing the long-term natural warming of sea surface and land surface air temperatures.
Further, at the end of the El Niño, sea surface temperatures in the eastern tropical Pacific cool and return to normal levels. They might even cool to temperatures below normal if a La Niña follows the El Niño. That typically happens after a very strong El Niño—that is, La Niñas typically follow strong El Niños.
Now here’s where the proponents of manmade global warming get goofy. In very basic terms: some climate scientists point to the cooling temperature in the eastern tropical Pacific and say global surface temperatures should also cool because the El Niño is done where they have their El Niño-measuring thermometers. Those scientists know there’s a huge amount of warm water left over after a strong El Niño; they know the leftover warm water has been redistributed to other parts of the global oceans away from their El Niño-measuring thermometers; yet they have the gall of conmen when they to point to those El Niño-measuring thermometers in the eastern tropical Pacific and tell us the effects of the El Niño are done. They then heap it on thicker when they say, since surface temperatures have warmed away from their El Niño-measuring thermometers, the warming elsewhere must be caused by manmade greenhouse gases. They have presented that absurd argument in a good number of scientific papers. They know it makes no sense, I know it and now you know it.
The divergences shown in brown in Figure 8 are caused when sea surface temperatures of the Rest-of-the-World fail to cool in response to the La Niña. Basically, they don’t cool because of the warm water that’s left over after the El Niño.
Recall the discussion of the East Pacific response to El Niño events.
During an El Niño event, warm water that had been below the surface of the western tropical Pacific sloshes into the East Pacific Ocean on the surface, impacting the sea surface temperatures of the East Pacific and the NINO3.4 region directly. When the El Niño is done, the leftover warm water sloshes back out of the East Pacific.
After the El Niño, the warm leaves the East Pacific and it winds up—you guessed it—in the area we’ve been calling the Rest-of-the-World. And through phenomena called teleconnections, that leftover warm water causes the warming of land surface temperatures and the temperatures of other ocean basins, like the North Atlantic, that are not directly and immediately impacted by the leftover warm water. In simple terms, the leftover warm water counteracts the effect of the La Niña on temperatures outside of the tropical Pacific.
I’ll now show you the effects of that left-over warm water Rest-of-the-World sea surface temperature anomalies. It’s what those proponents of manmade global warming are trying to hide.
WHAT DO YOU SUPPOSE HAPPENS WHEN SEA SURFACE TEMPERATURES WARM IN RESPONSE TO STRONG EL NIÑO EVENTS BUT DON’T COOL IN RESPONSE TO THE LA NIÑA EVENTS THAT FOLLOW THEM?
Under this heading, we’re back to discussing the Rest-of-the-World sea surface temperature data with its trend intact. A preliminary note: It is not by coincidence that global sea surface temperatures warm in response to an El Niño. The coupled ocean-atmosphere processes that cause this have been known for decades.
If the sea surface temperatures for the Rest-of-the-World warm in response to major El Niño events but do not cool proportionally in response to the trailing La Niña events, there has to be an ENSO-caused long-term warming of the sea surface temperature anomalies for that region. That’s precisely what’s shown by the sea surface temperature data for the Rest-of-the-World. See Figure 9. In it, I’ve isolate the months during which the major El Niño events occurred and colored them in red. The Rest-of-the-World sea surface temperature anomalies between the major El Niño events are shown in different colors. The time periods of the light blue curve before the 1986/87/88 El Niño and the orangey curve after the 2009/10 El Niño are too short to really show what’s happening during them. They’ve been provided as references. The longer 9- and 11-year periods clearly show sea surface temperatures for the Rest-of-the-World haven’t warmed very much during them—if they’ve warmed at all. The dark blue flat lines represent the average sea surface temperatures for the periods between or after the major El Niño events. They’ve been provided to show the upward warming steps caused by the strong El Niño events, and caused by the failure of the Rest-of-the-World sea surface temperature to cool proportionally during the La Niña events that followed them.
ENSO IS A NATURAL PROCESS AND THAT MEANS…
I have shown in numerous blog posts how the instrument temperature records indicate that El Niño and La Niña events are natural processes. I’ve also discussed that topic in great detail my book Who Turned on the Heat? Some people simply won’t accept what the data tells them. Will they accept the opinions of anthropogenic global warming scientists from the blog RealClimate? Will they accept the findings of a well-known ENSO expert and climate alarmist, Kevin Trenberth?
In the recent blog post Climate indices to watch at RealClimate, contributor Rasmus Benestad writes (my boldface):
ENSO is a natural phenomenon, but may change under a changing climate and is interesting to watch over the long term.
The “yeah but” statement after the boldfaced portion is, of course, speculation.
Alarmist climate scientist and distinguished ENSO expert Kevin Trenberth admits ENSO is natural. Most recently he did so in the abstract of the (2012) Trenberth and Fasullo paper Climate extremes and climate change: The Russian Heat Wave and other Climate Extremes of 2010. I’ll be discussing that paper in an upcoming post, but the abstract reads in part (my boldface):
A global perspective is developed on a number of high impact climate extremes in 2010 through diagnostic studies of the anomalies, diabatic heating, and global energy and water cycles that demonstrate relationships among variables and across events. Natural variability, especially ENSO, and global warming from human influences together resulted in very high sea surface temperatures (SSTs) in several places that played a vital role in subsequent developments.
As we’ve shown, the “global warming from human influences” does not exist in sea surface temperature records for the past 30 years, so the rest of the sentence is alarmist drivel. It undermines what might have been an important paper.
BOTTOM LINE ON THE WARMING OF THE REST-OF-THE-WORLD SEA SURFACE TEMPERATURES
Let’s clarify what’s been presented during the discussion of the Rest-of-the-World sea surface temperature data:
Over the past 30 years, the sea surface temperatures of the Rest-of-the-World warmed during the major El Niño events but did not warm before them, between them or after them. Therefore, the long-term warming of the Rest-of-the-World sea surface temperatures occurred during and was caused by the strong ENSO events. Further, because ENSO is a natural process, and because the long-term warming of the Rest-of-the-World sea surface temperatures was caused by ENSO, then the long-term warming of the Rest-of-the-World sea surface temperatures is natural, too. In no way is that a stretch of the imagination.
A GLIMPSE AT A FURTHER BREAKDOWN
I’ve taken the discussion farther in the blog post Supplement To “ENSO Indices Do Not Represent The Process Of ENSO Or Its Impact On Global Temperature”. There I divided the Rest-of-the-World data into two more subsets so that I could show the additional rate of warming and the other impacts of an addition mode of natural variability called the Atlantic Multidecadal Oscillation. It impacts the North Atlantic sea surface temperature data.
However, that post also illustrated a very important point: the sea surface temperatures for the larger portion—representing the South Atlantic, Indian and West Pacific Oceans or about 53% of the surface area of the global oceans—actually cooled between the major El Niño events. Refer to Figure 10. It’s Figure 5-23 from my book Who Turned on the Heat? where this topic is also discussed in detail.
Because the sea surface temperatures for that dataset cool during the 9- and 11-year periods between the major El Niño events, and because the sea surface temperatures there warm only during the major El Niño events, and because the long-term data shows a significant warming trend, then one might conclude the major El Niño events are responsible for all of the long-term warming of the South Atlantic, Indian and West Pacific Oceans. It’s not an unreasonable conclusion. In fact, that’s what the data shows.
INTERESTED IN LEARNING MORE ABOUT THE EL NIÑO AND LA NIÑA AND THEIR LONG-TERM EFFECTS ON GLOBAL SEA SURFACE TEMPERATURES?
This post provided an overview of how 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 30 years. I’ve investigated sea surface temperature records—sliced it and diced it, animated data-based maps to show the processes that cause the warming—for more than 4 years, and I can find no evidence of an anthropogenic greenhouse gas warming signal.
I recently published an 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, as I’ve said numerous times throughout this post, 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 Every Wanted to Know about El Niño and La Niña… …Well Just about Everything. The Updated 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 click here to buy a copy. (Paypal or Credit/Debit Card). It’s only US$8.00.
You’re probably asking yourself why you should spend $8.00 for a book written by an independent climate researcher. There aren’t many independent researchers investigating El Niño-Southern Oscillation or its long-term impacts on global surface temperatures. In fact, if you were to perform a Google image search of NINO3.4 sea surface temperature anomalies, the vast majority of the graphs and images are from my blog posts or cross posts of them. Try it. Cut and paste NINO3.4 sea surface temperature anomalies into Google. Click over to images and start counting the number of times you see Bob Tisdale.
By independent I mean I am not employed in a research or academic position; I’m not obligated to publish results that encourage future funding for my research—that is, my research is not agenda-driven. I’m a retiree, a pensioner. The only funding I receive is from book sales and donations at my blog.
Also, I’m independent inasmuch as I’m not tied to consensus opinions so that my findings will pass through the gauntlet of peer-review gatekeepers. Truth be told, it’s unlikely the results of my research would pass through that gauntlet because the satellite-era sea surface temperature data contradicts the dogmas of the consensus.
There are, of course, arguments against what has been presented in this post. Those failed arguments have been addressed and shown to be wrong, using data. I’ve done this repeatedly over the past three years. I’ve included them in Section 7 of my book. Refer to the Updated Free Preview.
You may also have general questions about El Niño and La Niña and their long-term effects. They’ve likely been asked and answered previously. They too were included in the book, but feel free to ask questions on any thread at my blog Climate Observations.
CLOSING
I opened the post with the statement: Global sea surface temperatures have warmed over the past 30 years, but there is no evidence the warming was caused by anthropogenic greenhouse gases. No evidence at all. I confirmed that statement within the body of the post, using data, not climate models.
Back to the title question: Are anthropogenic greenhouse gases important in the warming of the global oceans?
Nope. They’re impotent!
SOURCE
The Reynolds OI.v2 sea surface temperature data presented in this post is available through the NOAA NOMADS website, or through the KNMI Climate Explorer.
============================================================
This post is available in pdf form here. It’s only 1.2MB so you could email copies to your friends who are proponents of manmade global warming—and to your skeptical friends as well.
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sergeiMK says: “Are you suggesting that trade winds heat the water or just distribute heat…”
Sorry for the incomplete explanation. The stronger-than-normal trade winds push aside cloud cover which allows more downward shortwave radiation (visible sunlight) to warm the tropical Pacific to depth.
Regards
Reminds me of the old joke with the old man who was just at the doctors and started wearing tuxedos all the time. “If I’m going to be impotent, I’m going to dress impotent!”
Bob Tisdale says:
September 17, 2012 at 4:12 am
tallbloke says: “I suggest this is largely due to reduced cloud…”
Please provide data to support your suggestion. I’m not disagreeing with you, but you haven’t provided anything to confirm it. If you’re using the ISCCP cloud amount data, there are two problems with it. The early data was impacted by volcanic aerosols, and there’s also a wide band of data missing across the western Indian Ocean before the late 1990s.
Hi Bob, well I did mention the Spanish and Chinese studies which were covered here on WUWT recently. I didn’t think it was too controversial any more. Especially considering you invoke reduced cloud during La Nina to ‘recharge’ the Pacific Warm Pool for the next El Nino.
Which cloud data did you use to support that hypothesis if not ISCCP data?
P. Solar: The evidence we have that the frequency, magnitude and duration of ENSO has not been skewed by CO 2 is the multidecadal variability of ENSO has been working its way back to ENSO neutral in recent years while CO2 emissions continue to rise:
http://i46.tinypic.com/2qidagy.jpg
Regarding your comments about climate models, all of my discussions and presentations of how poorly climate models work have one thing in common. The models are trying to simulate the warming of sea surface temperatures from anthropogenic forcings. My use of the models as a reference in this instance is significantly different. The sea surface temperature data is used as the primary forcing. I’m not being hypocritical in any way.
Paul Homewood says: “Presumably, sooner or later, the excess heat introduced by large El Ninos will be dissipated and temperatures will return to “normal”. Will this happen gradually, or will we see it as a step change ?”
Looking at the slow decadal cooling taking place in the South Atlantic-Indian-West Pacific data…
http://bobtisdale.files.wordpress.com/2012/09/figure-10.png
…it appears to be gradual there. When the influence of the AMO reaches its peak in the North Atlantic, it will eventually counter any impacts of future large ENSO events, but the AMO also has a gradual influence.
Goldie: A portion of my earlier reply to you was incomplete as noted by sergeiMK. My earlier reply included:
There was more warm water available for the El Nino events. The warm water was created during the 1973/74/75/76 La Nina for the 1986/87/88 El Nino, and for the 1997/98 El Nino, it was created by freakishly strong trade winds in the western tropical Pacific (weather related) during the 1995/96 La Nina.
What I should have included was:
The stronger-than-normal trade winds during the La Nina push aside cloud cover which allows more downward shortwave radiation (visible sunlight) to warm the tropical Pacific to depth.
Regards
Dearest Bob,
I’m on a mission of sorts here, so bear with me. Although most people are sadly unaware of it, Bayesian analysis can accomplish three things. Given a model and the evidence, it can determine the best values for the model parameters in the sense that they provide the best explanation for the data within the model. As a consequence of this, it determines the likelihood function — the best prediction of the probability distribution that corresponds to the evidence within the model. And finally — and most apropos in the context of your lovely rant above — it can compare models on the basis of the evidence!
As it does the latter, it automatically corrects for parametric overcompleteness by degrading models with more parameters compared to models with fewer ones (while also compensating for differences in the quality of fit). In other words, it builds “Ockham’s Razor” right into the comparative process by reducing the final plausibility of a model with many parameters compared to one that does just as well with fewer parameters.
If I were going to criticize your paper above as a referee, my primary criticism is that your argument is strictly heuristic. The IPCC scenario does fit the data, the evidence. The question is how well does it fit the data compared to alternative models that might or might not have similar internal complexity in terms of the number of parameters required in the fit. Bayesian analysis would help you put actual numbers to your assertion, and make quantitative claims about the comparative quality of your model explanation versus the IPCCs. It would also let you leave out most of the allegations of impropriety and vested interest because rather than making an heuristic argument alleging a vast conspiracy you’d be simply pointing out that their model is not the best explanation of the data along with easily recomputable, verifiable analysis demonstrating why.
My second criticism would be based on Bayesian analysis — Bayesian analysis you could have done but omitted in your paper. The thermometric data for the world over the last (say) 140 years is hopelessly corrupted and very little reliable data exists at all for the oceans, which (as you note) cover 70% of the Earth’s surface. However, one piece of virtually uncorrupted data that has not been “adjusted” out of any correspondence with the original sources is the tidal gauge data used to measure sea level rise from roughly 1870 on. This data is more or less pristine — there are many contributing gauges, they are scattered all over the world, they are physically fixed (and some of them may well be still in use or at least physically available to calibrate modern replacements) and finally, they are in quite good correspondence with satellite results from only the last decade or so.
The ocean is one huge thermometer. Sea level is almost completely insensitive to global ice melt (if one can demonstrate that there has been any significant degradation of land-based ice at all) and almost entirely comes from thermal expansion of the water in response to changes in its total enthalpy content. Furthermore, it is a relatively well-mixed thermometer — because the sea surface is, on average, more or less isostatic, the ocean itself does the mixing of warming in one place to everywhere else (including to and from the land) on a timescale that nicely “erases” almost all of the short term noise including ENSO. One graph says it all:
http://en.wikipedia.org/wiki/File:Trends_in_global_average_absolute_sea_level,_1870-2008_%28US_EPA%29.png
If we normalize this graph to make it correspond to the supposed rise in global temperatures over that time (in other words, construct the map between sea level and temperature just as we do in an actual thermometer) we immediately observe two things. First, there is a dominant linear trend across all 140 years. This linear trend is so pronounced that it “explains” almost the entire dataset enormously well, especially if one normalizes the thermometer in degrees Kelvin, so that the entire linear trend is over less than one degree out of perhaps 260. Deviations from the trend are uniformly less than 0.1 degree (eyeballing, mind you). There is some structure visible, but even if it corresponds to ENSO oscillations (versus longer timescale macroscopic oscillations e.g. the PDO or NAO) this does not support the assertion that ENSO is responsible for the warming either of the oceans or of the Earth itself.
Second, the “cause” of this linear warming trend clearly predates any significant levels of anthropogenic CO_2 and persists virtually unaltered across all 140 years, with at most a tiny bit of “acceleration” visible at the end that is absolutely unresolvable (a Bayesian model that fit e.g. a linear term plus a quadratic would slightly improve the fit, but at the expense of one more parameter, which would, I suspect, not make it more plausible given the noise and natural variance visible in the evidence any more than the “acceleration” visible in the stretch from 1930 to 1950 is likely to be significant).
In order for ENSO to be explanatory as a “coin flip” of sorts — some sort of random process that either warms things a bit or cools them a bit (on average) with warming/cooling cumulative, the coin would have to be heavily biased towards warming over the entire 140 years of the evidence.
Which leads us to my final criticism of your assertions. You present a reasonably convincing (given the shortness of the time being discussed) fit of SSTs that suggests that ENSO, not CO_2, is responsible for SST increases as a proxy for general global warming. If true, however, ENSO is a highly biased process, not random at all, more or less stuck on warming. This leaves one shy an explanation. Why is the El Nino/La Nina series net warming over (if the SLR “thermometer” is to be believed, as I think it should be) 140 years?
Note well that this graph confounds everything that is believed about global warming. It reduces the whole raft of model parameters currently held to be of crucial importance in understanding global climate to (probable) insignificance, to noise. ENSO is noise on this graph — it is almost inconceivable that it is a cause. The PDO, NAO, and other global oscillations may have a slightly stronger effect but they are still just noise, less than 10% of the explanatory power. Volcanic aerosols and other aerosols are completely invisible — averaged away by the enormous multiple time scale latency and mixing. As far as I know, there is no single parameter used in global climate models that increases monotonically and linearly over the last 140 years and that can serve as a plausible primary explanation for the current warming trend. If there were, it would almost certainly be something (using your two dollar word) exogenous — quite possibly exogenous to the entire planet, e.g. long term trends in solar state with some very subtle coupling that erases any fourier signature from the oceanic data.
This is the scientific puzzle that is being ignored. Why has sea level (and hence global enthalpy) risen with a nearly perfect linear trend for 140 years?
The answer is almost certainly not Carbon Dioxide. It is not vulcanism. It is not ENSO, or the PDO, or anything associated with oscillations. It smacks of Milankovitch kinds of explanations — slow, inexorable changes in orbital characteristics that e.g. bias the hell out of the ENSO fluctuation into a steady state warming mode or the like. ENSO might be the cause, but what is the cause of the cause — not of ENSO itself but of its apparent nearly uniform warming bias.
There is a smoking gun out there waiting to be discovered, and CO_2 ain’t it.
rgb
Sir,
First, a typo, need to add “ El Niño takes naturally created warm water from below the surface of the western tropical Pacific and relocates it ++TO++the surface”
Second; We know that sea water warms when it is on the surface. And, we know that warm water is a little less dense than cold water. So there must be some physical mechanism causing the warm water to first submerge then come back to the surface and also to slosh back and forth across the Pacific. I.e., ENSO temperature changes are the result of some physical process. It would help a Simple Red Neck like me if there were a “on-the-back-of-a-napkin” explanation of that mechanism.
Regards,
Steamboat Jack (Jon Jewett’s evil twin)
Oops, I meant to say that Bayesian analysis yields the posterior distribution, not the likelihood function, in the comment above. The likelihood comes from the model and the evidence, the posterior is the model prior after incorporating the likelihood, the model evidence. My bad. The overall statement and conclusion is still correct, though, one can compare the posterior predictions (given the evidence) and make a rational choice as to which one best explains the data (or whether or not there is any significant difference in the quality of explanation, as both can easily be consistent with their own priors within the model).
rgb
Bob, your fig8 shows 1.5 volcanic events and 2 ls ninas. Any conclusions draw from that are pretty speculative. I don’t say wrong but there really is not enough information there to draw any conclusion. Especially when you have both showing cooling but one has a big volcano superposed on it.
What you could also suggest is the both volcanoes produces a warming rebound (even though you miss the Mt Chinon cooling. From your detrended analysis, Mt Pinatubo actually produced more warming than cooling. If your analysis is correct.
I _suspect_ that volcanoes have minimal overall effect, so this is interesting. They also are the main excuse for exaggerated CO2 “forcing”. Without the supposed cooling effect of volcanoes CO2 warming disappears in a puff of smoke.
Climate models do this very poorly. Cooler summers are accompanied by warmer winters. You may like to look at whether ENSO is part of the negative feedback that allows the climate to correct for volcanic cooling.
Steamboat Jack: How about cartoon-like images with text right along side, instead of cocktail napkins? Refer to the first part of Section 1 in the preview of my book:
http://bobtisdale.files.wordpress.com/2012/09/preview-of-who-turned-on-the-heat-v2.pdf
Can’t you be correct about step wise warming caused be El Ninos and there still be an anthropological CO2 effect happening at the same time? i.e. Is it not possible that without an anthropological component, natural processes would have caused more significant cooling during non El Nino periods, but, because of increased CO2, this didn’t happen?
I suppose figure 5 is supposed to show that this is not a possible explanation, but since the extra warmth is supposed to be being driven deep (not measured) and then released (sent elsewhere) I am not convinced that a lack of overall warming trend in this data set is an indication that there is not a CO2 contribution.
I probably don’t understand something that you are saying, but I really don’t get how anything you have said rules out the influence of CO2.
rgbatduke: Feel free to perform any analysis you like. I have no need to carry this any farther than I have presented in my book or in past posts. But I would strongly suggest if you want to analyze sea surface temperature you use sea surface temperature data, not sea level data, and that you limit your analysis to the satellite era of sea surface temperature data as I have done. The Reynolds OI.v2 data is spatially complete and the satellite biases have been corrected.
You wrote: “Sea level is almost completely insensitive to global ice melt (if one can demonstrate that there has been any significant degradation of land-based ice at all) and almost entirely comes from thermal expansion of the water in response to changes in its total enthalpy content.”
Here’s a comparison of the total rise in satellite-era sea level data versus thermosteric sea level data. Since 1993 the thermosteric component is only about 27% of the total rise:
http://i49.tinypic.com/kce43c.jpg
Would you like to alter your statement?
You wrote: “If I were going to criticize your paper above as a referee, my primary criticism is that your argument is strictly heuristic. The IPCC scenario does fit the data, the evidence.”
Apparently you’ve never compared the IPCC’s models to sea surface temperature data. You must be taking the IPCC’s word for it. Refer to:
http://bobtisdale.wordpress.com/2012/04/29/what-do-observed-sea-surface-temperature-anomalies-and-climate-models-have-in-common-over-the-past-17-years/
And:
http://bobtisdale.wordpress.com/2012/04/09/march-2012-sea-surface-temperature-sst-anomaly-update-a-new-look/
And:
http://bobtisdale.wordpress.com/2011/04/10/part-1-%e2%80%93-satellite-era-sea-surface-temperature-versus-ipcc-hindcastprojections/
And:
http://bobtisdale.wordpress.com/2011/04/10/part-1-%e2%80%93-satellite-era-sea-surface-temperature-versus-ipcc-hindcastprojections/
And:
http://bobtisdale.wordpress.com/2011/04/19/492/
You wrote: “Second, the “cause” of this linear warming trend clearly predates any significant levels of anthropogenic CO_2 and persists virtually unaltered across all 140 years…”
I only use satellite-era SST data because of its completeness and since the IPCC says that only greenhouse gases can explain the warming over that 30 years. The data disagrees with them.
Regards
PS: Assuming you’re from Duke University, I enjoyed it when I visited there on business in the 1970s. Pretty campus.
Charlie Z says: “Can’t you be correct about step wise warming caused be El Ninos and there still be an anthropological CO2 effect happening at the same time?”
In Figures 6 and 10, please show me the CO2 component.
rgbatduke:
You correctly say Milankovitch “like”, as known cycles cancel between the hemispheres and over time. Your one degree K over 140 years would be really impressive over 20,000 years.
It ain’t Milankovitch either.
P. Solar: “Bob, your fig8 shows 1.5 volcanic events and 2 ls ninas. Any conclusions draw from that are pretty speculative. I don’t say wrong but there really is not enough information there to draw any conclusion. Especially when you have both showing cooling but one has a big volcano superposed on it.”
You misunderstand the graph, P.Solar. The Rest-of-the-World data diverges (cools away) from the NINO3.4 data following the volcanic eruptions. The Rest-of-the-World data diverges from the NINO3.4 data during the 1988/89 and 1998/99/00/01 La Nina because it doesn’t cool. They are not “both showing cooling”.
Surprised you didn’t know this Bob but this is rgbatduke.
As there are step changes with large El Niños, some people have assumed that temps will continue to rise. It’s only intuition but I suspect that Arctic sea ice recedes and allows a path for SST cooling periodically.
DaveE.
Bob T.,
In figure 6, you showed me the potential CO2 component by drawing a linear trend. What I am suggesting is what you show in figure 7 – if you de-trend the data from figure 6, then would this graph show how ENSO would be affecting temperature without a contribution from CO2? Basically, would temperature be behaving as tilted steps with upticks and then longer cooling, but because of CO2, the steps are flat, as you have identified them in figure 9.
Since you ask about figure 10, could the loss of heat shown during non El Nino periods be greater if it were not for increased in CO2?
I am suggesting that just because you have identified steps, you haven’t ruled out a CO2 contribution.
rgbatduke “Oops, I meant to say that Bayesian analysis yields the posterior distribution, not the likelihood function” Shame. Up till then you sounded quite convincing.
Geoff Sherrington says:
September 17, 2012 at 3:24 am
“The seas where you start your cycle arounf Indonesia are too shallow for Argo. The Aust BOM has set up a series of stations there, including tidal gauges, but I’m not sure how public they make their data.”
I’ve been monitoring the BOM’s South Pacific Sea Level & Climate Monitoring Project data for the last few years.
http://www.bom.gov.au/oceanography/projects/spslcmp/data/monthly.shtml
Stations were installed starting in 1993. All stations except one show a sharp SST warming after 1997/8, then either a slow reduction or stasis since. The exception is Papua New Guinea, the furthest west, which shows a fairly steady (and startling) increase of 0.64 °C/decade since recording began in 1994.
Bob, you’re correct I was misreading part of the graph. There is a “brown” area around 1985 , why do you not fill that one as well? That amounts to a rebound from the volcanic cooling. There would also be one after Pinotubo if you had not arbitrarily cooled the data by detrending.
You need to explain why you “detrend” the ROW temperature rise. It OK to help see the similarity in form and that’s interesting, but you cannot start talking about “cooling” since it’s you that cooled the data. What do you attribute that residual rise to , co2 ??
My impression is that post volanic cooling is followed by a rebound caused by some negative feedback. I don’t think there is any significant global cooling _offset_ 10 years after these events. Your stronger El Ninos of ’88 and ’98 may well be part of this rebound mechanism.
As I noted above El Nino is a cooling event form OHC perspective. It is the heat reservoir of the ocean reheating SST and the atmosphere.That has all the hallmarks of a negative feedback.
La Nina is an energy storage phase. The asymmetry that you point out here is due to the fact that in the latter case it is not the atmosphere that heats the ocean since it can’t (heat capacity). It is a different process.
The basic oscillation is always there. Differences in the cycle provide a feedback mechanism.
Climate models need a permanent cooling so that they can invoke amplified CO2 (three time what the physics suggests CO2 would cause). More extreme, warmist activists (eg .Hansen) use stronger volcanic forcing.
Rgbatduke
You said;
“However, one piece of virtually uncorrupted data that has not been “adjusted” out of any correspondence with the original sources is the tidal gauge data used to measure sea level rise from roughly 1870 on. This data is more or less pristine — there are many contributing gauges, they are scattered all over the world, they are physically fixed (and some of them may well be still in use or at least physically available to calibrate modern replacements) and finally, they are in quite good correspondence with satellite results from only the last decade or so.”
I am genuinely astonished that you say this. On what study do you base this information-the Church paper? How many tidal gauges do you believe were active in 1870 and have remained uncorrupted since then? Its an even worse record than Giss land temperatures and the tidal gauge information as unreliable as the Mann Hockey stick.
tonyb
Only shortwave radiation from the Sun is capable of penetrating and heating the oceans. IR from GHGs only penetrates a few microns to cause evaporative cooling of the ocean skin. There are several papers demonstrating correlations between solar activity and ocean oscillations.
Observational data recorded in-situ on the ocean demonstrates that doubled CO2 levels will cause no significant ocean warming from either increased IR “backradiation” or “decreasing the thermal gradient” between the ocean and atmosphere.
http://hockeyschtick.blogspot.com/2012/09/realclimate-admits-doubling-co2-could.html
Charlie Z says: “I am suggesting that just because you have identified steps, you haven’t ruled out a CO2 contribution.”
Charlie Z, I would agree with you IF the East Pacific (Figure 5) showed evidence of CO2 warming, but it does not.
http://bobtisdale.files.wordpress.com/2012/09/figure-5.png
Let me try another way to present this. Here’s Figure 6 again. It compares the East Pacific to the Rest-of-the-World:
http://bobtisdale.files.wordpress.com/2012/09/figure-6.png
If the Rest-of-the-World data had cooled proportionally during the 1988/89 and 1998/99/00/01 La Ninas like the East Pacific data, there would be no trend in the Rest-of-the-World data. It would be just like the East Pacific data. The only reason it has a trend is because it did not cool proportionally during the La Nina.
@thefordprefect says:
>If you have air at 35C above water at 30C the only way the water can cool is by evaporation and also the air will warm the surface layer which will mix.
>If you have air at 25C above water at 30C evap will still occur but now the water will lose energy to the Air.
At low Delta T’s the ocean water skin is always cooler than the air. The surface water is not warmed by the air. The boundary between them is saturated at all times with water vapour leaving the water and returning to it continuously. As soon as some water vapour moves out of the zone it leaves the surface cooled, whatever the temperature of the air. It also applies to ice (sublimation).
There is a phenomenon whereby very warm air (many degrees warmer) can heat water by condensing water vapour out of the air, if it is available. This effect is real and reproducible but very low in heat content compared with the heat capacity of the oceans. For all practical purposes, a slightly warmer atmosphere cannot warm a cooler ocean. Certainly not a degree or two and certainly not unless the air was fantastically warmer which is not the CAGW claim.
The idea that GHG’s can warm the air slightly and have this appear, detectably, in ocean temperatures is fantasy. You can quickly convince yourself of this by taking the mass of the atmosphere, its specific heat (Cp) and do the same for the oceans. Calculate a temperature average for each. Increase the temperature of the whole volume of the atmosphere by 1 degree and see what a difference it makes in the oceans. Be amazed.
An alternative ‘warmist’ approach is to say that only the surface air temperatures are increasing, so they will increase more than the whole atmosphere (because of GHG’s). Applying that to the above equation ultimately means reducing the total thermal mass of the portion of the atmosphere that is supposed to be having an influence. Slightly warmer air does not slightly, detectably, warm the oceans.
You can easily see the saturated region of a water-air interface by bring a pot of water slowly to a boil in a no-wind environment. Just below the boiling point you will see the super-saturated layer just above the water. Evaporation/condensation is a two-way street in that region. If you blow a little breath over the layer, you can move it aside. The region exposed immediately drops in temperature. If you use a hair dryer on ‘high’ to do the blowing, the temperature of the exposed water will still drop. That is just how it is. In fact, why don’t you try to heat a pan of water using a hair dryer blowing across its surface? See how effective it is and then report to us your result. Try to estimate the heating efficiency.
Now, observe the same with a freezer, say an open topped freezer in a shopping mall. There is a layer of condensed water vapour trapped above the frozen food insulating it from the passing air above. The warm air in the store has nearly no effect at all on the frozen contents of the freezer which very slowly and inefficiently (given the temperature of the air) gain a layer of frost. The heat released by the freezing remains in the air layer above the food slightly delaying the next spike of frost.
If one were to argue that disturbing the layer continuously transfers heat, you are back to the Cp air v.s. Cp ocean calculation above. If it is real, you can’t detect it. Tisdale has shown us the real data. If AGW is real, it is so small as to be completely undetectable in the natural background noise.