I covered this story earlier today, and it was presented much differently in that press release. This press release takes a different tack. IMHO, it looks like a big “ooops” from the National Science Foundation. See what I found after the jump on why I think they didn’t perform due diligence on this research – Anthony
Climate Record From Bottom of Russian Lake Shows Arctic Was Warmer Millions of Years Ago
Unparalleled sediment record is “most continuous archive” of ancient Arctic climate
The Arctic was very warm during a period roughly 3.5 to 2 million years ago–a time when research suggests that the level of carbon dioxide in the atmosphere was roughly comparable to today’s–leading to the conclusion that relatively small fluctuations in carbon dioxide levels can have a major influence on Arctic climate, according to a new analysis of the longest terrestrial sediment core ever collected in the Arctic.
“One of our major findings is that the Arctic was very warm in the middle Pliocene and Early Pleistocene–roughly 3.6 to 2.2 million years ago–when others have suggested atmospheric carbon dioxide was not much higher than levels we see today,” said Julie Brigham-Grette, of the University of Massachusetts Amherst.
Brigham-Grette is a National Science Foundation- (NSF) funded researcher on the sediment core project and a lead author of a new paper published this week in the journal Science that describes the results.
She added that “this could tell us where we are going in the near future. In other words, the Earth system response to small changes in carbon dioxide is bigger than suggested by earlier climate models.”
The data come from the analysis of a continuous cylinder of sediments collected by NSF-funded researchers from the bottom of ice-covered Lake El’gygytgyn, pronounced El-Guh-Git-Kin, the oldest deep lake in the northeast Russian Arctic, located 100 kilometers (62 miles) north of the Arctic Circle. The drilling was an international project.
Drilling took place in the early months of 2009. The Earth Sciences and Polar Programs divisions of NSF’s Geosciences Directorate funded the drilling and analysis.
Analysis of the sediment core provides “an exceptional window into environmental dynamics” never before possible, noted Brigham-Grette.
“While existing geologic records from the Arctic contain important hints about this time period, what we are presenting is the most continuous archive of information about past climate change from the entire Arctic borderlands,” she said. “Like reading a detective novel, we can go back in time and reconstruct how the Arctic evolved with only a few pages missing here and there.”
Results of the core analysis, according to Brigham-Grette, have “major implications for understanding how the Arctic transitioned from a forested landscape without ice sheets to the ice- and snow-covered land we know today.”
“Lake E,” as it is often called, was formed 3.6 million years ago when a meteorite, perhaps a kilometer in diameter, hit the Earth and blasted out an 18-kilometer (11-mile) wide crater. The lake bottom has been accumulating layers of sediment ever since the initial impact.
Location of Elgygytgyn Lake
The lake also is situated in one of the few areas of the Arctic that was not eroded by continental ice sheets during ice ages. So a thick, continuous sediment record was left remarkably undisturbed. Cores from Lake E reach back in geologic time nearly 25 times farther than Greenland ice cores that span only the past 140,000 years.
Important to the story are the fossil pollen found in the core, including Douglas fir and hemlock, clearly not found in this part of the Arctic today. The pollen allows the reconstruction of the vegetation living around the lake in the past, which in turn paints a picture of past temperatures and precipitation.
Another significant finding is documentation of sustained warmth in the Middle Pliocene, with summer temperatures of about 15 to 16degrees Celsius (59 to 61 degrees Fahrenheit), about 8 degrees Celsius (14.4 degrees Fahrenheit) warmer than today, and regional precipitation three times higher.
“We show that this exceptional warmth well north of the Arctic Circle occurred throughout both warm and cold orbital cycles and coincides with a long interval of 1.2 million years when other researchers from the ANDRILL project have shown the West Antarctic Ice Sheet did not exist,” the authors point out.
Hence both poles share some common history, but the pace of change differed.
Along with Brigham-Grette, her co-authors Martin Melles of the University of Cologne, Germany, and Pavel Minyuk of Russia’s Northeast Interdisciplinary Scientific Research Institute, Magadan, led research teams on the project. Robert DeConto, also at the University of Massachusetts, led the climate-modeling efforts. These data were compared with ecosystem reconstructions performed by collaborators at University of Berlin and University of Cologne.
The Lake E cores provide a terrestrial perspective on the stepped pacing of several portions of the climate system through the transition from a warm, forested Arctic to the first occurrence of land ice, Brigham-Grette says, and the eventual onset of major glacial-interglacial cycles.
“It is very impressive that summer temperatures during warm intervals even as late as 2.2 million years ago were always warmer than in our pre-Industrial reconstructions,” she added.
Minyuk notes that they also observed a major drop in Arctic precipitation at around the same time large Northern Hemispheric ice sheets first expanded and ocean conditions changed in the North Pacific. This has major implications for understanding what drove the onset of the ice ages.
The sediment core also reveals that even during the first major “cold snap” to show up in the record 3.3 million years ago, temperatures in the western Arctic were similar to recent averages of the past 12,000 years. “Most importantly, conditions were not ‘glacial,’ raising new questions as to the timing of the first appearance of ice sheets in the Northern Hemisphere,” the authors add.
This week’s paper is the second article published in Science by these authors using data from the Lake E project. Their first in July 2012 covered the period from the present to 2.8 million years ago, while the current work addresses the record from 2.2 to 3.6 million years.
“This latest paper completes our goal of providing an overview of new knowledge of the evolution of Arctic change across the Western borderlands back to 3.6 million years and places this record into a global context with comparisons to records in the Pacific, the Atlantic and Antarctica,” Melles points out.
The Lake E paleoclimate reconstructions and climate modeling are consistent with estimates made by other research groups that support the idea that Earth’s climate sensitivity to carbon dioxide may well be higher than suggested by the 2007 report of the Intergovernmental Panel on Climate Change.
-NSF-
Principal Investigators
Julie Brigham-Grette, University of Massachusetts Amherst (413) 545-4840 juliebg@geo.umass.edu
================================================
What else happened 3 million years ago? A major change in ocean circulation, that’s what.
The Isthmus of Panama, also historically known as the Isthmus of Darien, is the narrow strip of land that lies between the Caribbean Sea and the Pacific Ocean, linking North and South America. It contains the country of Panama and the Panama Canal. Like many isthmuses, it is a location of great strategic value.[citation needed]
The Isthmus was formed some three million years ago during the Pliocene epoch. This major geological event separated the Atlantic and Pacific oceans and caused the creation of the Gulf Stream.
http://en.wikipedia.org/wiki/Isthmus_of_Panama
So, three million years ago the ocean circulation patterns changed when the isthmus formed, which our intrepid researchers have not mentioned, because in their minds, it couldn’t be anything but CO2 that made it warm then.
But, all they had to do was look around. From NASA in 2003:
Scientists believe the formation of the Isthmus of Panama is one of the most important geologic events to happen on Earth in the last 60 million years. Even though it is only a tiny sliver of land, relative to the sizes of continents, the Isthmus of Panama had an enormous impact on Earth’s climate and its environment. By shutting down the flow of water between the two oceans, the land bridge re-routed currents in both the Atlantic and Pacific Oceans. Atlantic currents were forced northward, and eventually settled into a new current pattern that we call the Gulf Stream today. With warm Caribbean waters flowing toward the northeast Atlantic, the climate of northwestern Europe grew warmer. (Winters there would be as much as 10 degrees C colder in winter without the transport of heat from the Gulf Stream.) The Atlantic, no longer mingling with the Pacific, also grew saltier. Each of these changes helped establish the global ocean circulation pattern we see today. In short, the Isthmus of Panama directly and indirectly influenced ocean and atmospheric circulation patterns, which regulated patterns of rainfall, which in turn sculpted landscapes.
The formation of the Isthmus of Panama also played a major role in biodiversity on our world. The bridge made it easier for animals and plants to migrate between the continents. For instance, in North America today, the opossum, armadillo, and porcupine all trace back to ancestors that came across the land bridge from South America. Likewise, the ancestors of bears, cats, dogs, horses, llamas, and raccoons all made the trek south across the isthmus.
There’s no mention of this “most important geologic events to happen on Earth” in the NSF research that coincided with their paleo record.
And there’s more, from Wood’s Hole:
How the Isthmus of Panama Put Ice in the Arctic
Drifting continents open and close gateways between oceans and shift Earth’s climate
The long lag time has always puzzled scientists: Why did Antarctica become covered by massive ice sheets 34 million years ago, while the Arctic Ocean acquired its ice cap only about 3 million year ago?
Since the end of the extremely warm, dinosaur-dominated Cretaceous Era 65 million years ago, heat-trapping greenhouse gases in the atmosphere have steadily declined (with the anomalous exception of the last century), and the planet as a whole has steadily cooled. So why didn’t both poles freeze at the same time?
The answer to the paradox lies in the complex interplay among the continents, oceans, and atmosphere. Like pieces of a puzzle, Earth’s moving tectonic plates have rearranged themselves on the surface of the globe—shifting the configurations of intervening oceans, altering ocean circulation, and causing changes in climate.
The development of ice sheets in the Southern Hemisphere around 34 million years ago seems fairly straightforward. The supercontinent of Gondwana broke apart, separating into subsections that became Africa, India, Australia, South America, and Antarctica. Passageways opened between these new continents, allowing oceans to flow between them.
When Antarctica was finally severed from the southern tip of South America to create the Drake Passage, Antarctica became completely surrounded by the Southern Ocean. The powerful Antarctic Circumpolar Current began to sweep all the way around the continent, effectively isolating Antarctica from most of the warmth from the global oceans and provoking large-scale cooling.
The Northern Hemisphere is more problematic. From sediment cores and other data, we know that until about 5 million years ago, North and South America were not connected. A huge gap—the Central American Seaway—allowed tropical water to flow between the Atlantic and Pacific Oceans.
A growing body of evidence suggests that the formation of the Isthmus of Panama partitioned the Atlantic and Pacific Oceans and fundamentally changed global ocean circulation. The closing of the Central American Seaway initially may have warmed Earth’s climate, but then set the stage for glaciation in the Northern Hemisphere at 2.7 million years ago.
I think the researcher simply skipped over this important detail is pushing the idea that CO2 was the only issue.
I’m sure Steve McIntyre will be interested in getting a look at the sediments and the dating methods to see if there are errors there. Lately, it seems that paleo research has made some very broad assumptions, and almost always in the favor of the theory.
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Everyone should realize that “closing the isthmus 3 million years ago” is both a long, slow evolution that occurred over a long period of time; AND a short sudden effective change in the currents worldwide.
Above, someone showed that the isthmus would have been like Indonesia now: plenty of room for currents to flow from west to east, but more restrictive than an open path. Consider the “arc” of islands and narrow gaps up across the Aleutians: They are close to each other, but the Japanese currents isn’t really impeded by their presence. Instead, the Japanese currents flow across the side of the arc, curving down towards British Columbia, the west coast, and then towards Mexico. The arc of closely spaced islands going south from Florida towards Cuba is similar: the Gulf Stream isn’t impeded, but flow from the Gulf of Mexico into the Atlanta certainly is affected.
Now, picture the difference if the continental shelf off of the east coast of FL were suddenly start rising “quickly”. Year to year, right now we would see no difference in the Gulf Stream, right? Over the next 10,000 years, as the continental shelf rose from say 450 feet between Miami and the Bahamas to 250 feet, would we see a difference? But at a certain period, at a certain single specific year, the Gulf Stream would be deflected enough that you would see a sudden change: maybe not on the east coast of the US (winds flow from west to east out over the Atlantic) but in the Azores, the UK, in Iceland and Scotland and north Spain …
Brigham-Grette added that “this could tell us where we are going in the near future. In other words, the Earth system response to small changes in carbon dioxide is bigger than suggested by earlier climate models.”
Soooo… now they are once again proposing that doubling of CO2 may actually lead to 6C or more of warming? Gee… I thought with all of the latest research the sensitivity was trending lower and lower, well under 2C now. And how did they come to the conclusion that CO2 caused the warming and not the other way around? After all, there weren’t any humans driving SUVs around at that time.
These people (climate scamicists) are so clueless and agenda driven it would be hilarious if not for the damage they are doing to our economy and well-being.
If they are trying argue that warm arctic temperatures 3 million years ago were due to elevated CO2 levels why no analysis of whether decreasing CO2 preceded cooling temperatures at the studied location? Or rather, why no REPORTED such analysis, because if the site did show CO2 changes preceding temp changes, they would surely have reported it.
Or are they claiming not to have CO2 data from this ice core? One statement seems to suggest this(emphasis added):
But how can their ice core fail to produce a CO2 record when others do? Maybe they are just saying that modestly elevated CO2 3mya was an already established fact, not reliant on their new information.
The crater was formed 3.6 mya, which they describe as already warm, so they aren’t saying anything about when or how the area got warm. That leaves when and how it got cold, which they ignore. Very suspicious.
Warmist scientists are equally conveniently blind to the earlier effects of the opening of the Drake Channel between Patagonia and Antarctica whenever it suits them too.
Alec
“Or are they claiming not to have CO2 data from this ice core? One statement seems to suggest this(emphasis added):”
you seemed to be stuck on stupid. its sediment not ice core
The introduction states: “The Arctic was very warm during a period roughly 3.5 to 2 million years ago–a time when research suggests that the level of carbon dioxide in the atmosphere was roughly comparable to today’s–leading to the conclusion that relatively small fluctuations in carbon dioxide levels can have a major influence on Arctic climate…”
Of course, the equally obvious conclusion is that the level of CO2 has little, if any, influence on climate and that climate changes are driven by natural variation, the processes of which are presently not known or understood.
Whenever one looks at the Paleo record, it is important to have in mind plate tectonics and land distribution since these play a major role in the interpretation of the record.
Due to the vast amount of reserves of latent heat contained in the oceans, compared to that of the atmosphere, the Earth’s climate is driven by the oceans, and changes in ocean circulation patterns will, as suggested, be significant.
I mentioned two days ago in the 400ppm thread that the Scripps institute is doing the same thing: Talking about Pliocene warmth as a parallel to today while not mentioning the Panama isthmus:
http://keelingcurve.ucsd.edu/what-does-400-ppm-look-like/
Bingo Antony! These sediment researchers did a good job drilling in that location and documenting there finds but missed the main event of the Isthmus of Panama closing in their efforts to explain these super high Arctic temperatures. They plugged all the usual suspects in their computer models like CO2 etc. but missed out on the big one. This bloody single mindedness of the CAGW camp blindsided them.
History repeats itself!
The hole idea of AGW is reminiscent of alchemy.
What was the direction of causality? Did the increased CO2 cause the increase in warmth?
The conventional view of Earth scientists has been that the Pliocene was a time of global cooling. A brief episode of warming and elevated CO2 during the overall cooling trend could have resulted from a change in ocean currents. The closing of the gap at Panama separated the Atlantic and Pacific Oceans changing the course of the currents.
Hypothesis 1: A change in ocean currents (A) could have driven both the increase in CO2 (B) and the warming of the Arctic (C). In this hypothesis A drove B and C independently, If this hypothesis is incorrect and warming was caused by the increase in CO2, there remains the difficulty of accounting for the source of the additional CO2.
Hypothesis 2: An alternative hypothesis would be that a change in the ocean currents (A) drove the outgassing of CO2 (B) and then the increase in CO2 drove the warming of the Arctic (C), which appears to me to be the point of the paper. The questtion then would be: Why the additional step? Why does A have to drive B and then B drive C?
More problematical is the fact that mid-to late Pliocene warming was soon overtaken by further cooling and then ice ages. The long-term cooling trend seems to have resumed. This is consistent with hypothesis 1 but how is this explained by hypothesis 2?
All this type of research is based on CO2 having a warming effect. This is highly unlikely because any planetary atmosphere will cool the surface, because of energy removal by the atmosphere to heat it, and that the GHE cannot work because of thermodynamic law violations. A more obvious reason for heating is increased insolation which is always discounted.
So it was much warmer with the same CO2 level, it means that climate is even more sensitive to CO2.. my head will explode I think.
My conclusion is, that climate does not give a damn about CO2 but hey what I know, I am not a climate scientist.
Anthony — your analysis is interesting and probably higher quality than the near daily ration of climate crap we are subjected to from the mainstream media. Nonetheless, let me second Plain Richard in contending that the closing off of Pacific-Atlantic circulation by the closing of the “Panama Gap” in the Pliocene was likely a rather slow process.
Fortunately, a beneficial result of the continental drift debacle is that modern geologists don’t claim they have a “settled science”, so discussions of things like the closing of that gap will generally tend to be conducted like real science rather than like a medieval religious argument where the losers a burned at the stake. I’d be interested in seeing more input from real geologists (I’m certainly not such, but I think there are some who read and post at WUWT) on exactly how, when, and on what time scale, the gap closed and what the likely impact would be on the climate of Arctic NorthEast Asia.
The Panama Isthmus was indeed quite constricted well before 3.0 million years ago.
But the Gulf-Stream-like ocean currents only need about 200 metres of ocean depth in order to flow properly as they do today. They are driven by the winds which flow East-west at the equator and by whatever continental shelf land constricts them to.
There would have been a period when the Gulf Stream flowed up and over South America, through the constricted passage and directly into the Pacific. Where it would have then joined the Equatorial current of the ENSO.
There would have a period where it got cut in two, some flowly to the west and the Pacifc and some of it getting diverted in the Gulf of Mexico up onto the eastern side of North America.
When the Isthmus finally became less than 100 metres deep, the current Gulf Stream arrangement would have taken over, and isolating the Atlantic from the Pacific. Today they have different chemistry and temperature and sea surface height given the separation.
How this affected the climate is difficult to say. In earlier time periods, the Eocene for example, it is easier to see how some of these currents kept the Arctic warmer but this period might have kept the Arctic actually colder until the Isthmus closed, after which it kept it warmer.
“The lake also is situated in one of the few areas of the Arctic that was not eroded by continental ice sheets during ice ages.”
This bit stuck with me from the *first* press release. If the Lake E sight has somehow managed to evade glaciation all of this time, it seems to me that it would be difficult to reason it is representative of what is happening else where in the arctic or what the real connection is. The Lake E site would seem to be exceptional in some way, unless they are arguing that Lake E is the exception that proves their rule.
W^3
w.w.wygart.
Ice sheets can only develop where there is enough precipitation to counteract sublimation. With the Arctic Ocean frozen there is no source of moisture for Siberia. The northern hemisphere ice sheets were confined to North America and NW Europe for this reason. Moisture was sourced from the Pacific and the North Atlantic, respectively.
Apart from e.g. the Verkhoyansk Range, there is little evidence for extensive glaciation in Siberia (corrections/amplifications welcome)
It really is amazing the way these guys seem to believe at an instinctive level that the earth is constant, except when man changes it.
Ian W says:
May 9, 2013 at 6:18 pm
—–
Another possibility is the narrowing of acceptable specialties within the Global Warming community.
For years now they have been excluding geologists because geologists as a whole have been skeptical of the warmists claims.
With no interaction between the warmists and geologists, it’s possible that none of the researchers or the reviewers were aware of the Isthmus of Panama forming during this critical period.
Questions:
1) What is the evaporation rate of open sea water at -2C and moving air [10 mph -> 4.5m/s] at air temperatures of, say, -10C [20% relative humidity]?
2) What is the “evaporation [sublimation] rate” of water ice at -2C and moving air [10 mph -> 4.5m/s] at air temperatures of, say, -10C [20% relative humidity]?
3) What are the parameters and what is the rate of “Arctic Ice” sublimation?
Steven Mosher says:
May 9, 2013 at 10:55 pm
I’d rather make a simple mistake than be a member of the Genocidal Warmistas, Steven. There’s stupid, and then there’s really, really supid. Maybe even criminally stuipid.
kadaka (KD Knoebel),
Just because my website is hosted on a Russian web server doesn’t make it less legitimate or infested with malware. It’s 100% HTML5/CSS3 compliant and I don’t host/embed/engage in peddling malware – it would be stupid and Google and other web search engines would instantly remove me from the … top of their search results.
Just because you’ve found just one (!) outdated clause doesn’t mean the entire article is outdated or wrong.
Sounds like you a hypocrite.
Best regards, the author of this website.
@Ian W
Simply follow the money. If they, and the reviewers, don’t toe the line, they don’t get their grants. Therefore, this garbage.
This study brings closer the day when the utter fallacy of starting a study with the assumption that CO2 drives temperature will be inescapable even to the activist elite.
CO2 drives nothing except the AGW political agenda.
Is is such a gigantic intellectual leap for these people to imagine that maybe, just maybe, it was temperature that historically was driving CO2, instead of the other way round. Such an inversion is a very simple mental step but still clearly a lot to ask of modern climate scientists selected primarily for Machiavellian political skill.
Where did they get the idea that CO2 levels at the 3M to 2.2M years ago period was about the same level as now? Someone presumably has been able to do the research and published it. But if CO2 levels were about the same as now, where did all the extra CO2 come from? For a cert we weren’t around to burn coal or oil.
There is the possibility that should not be ignored, even if to be discounted, that the earth’s poles have been well displaced from the present location. Consider the possibility that the N Pole was located in north eastern Canada, say 70 W, 70 N. A ring or reasonable width around there would include most of England, large chunks of northern Europe, eastern Canada and the US down to around perhaps St Louis – not to familiar with the geography of the middle of the USA. Pretty well all this area was glaciated, whereas Siberia and Alaska was not. Coincidence? possibly, possibly not, but what difference would this have made to climate elsewhere?
Southern hemisphere the S Pole would have been 70 S, 110 E. Perth, WA, is about 31 S and 115 E. So while there would not be too much difference in longitude, Perth would have been about 51 south. Result weather would have been far cooler nd wetter than today. So would the rest of Australia, hence the ability of the large giant marsupials to survive. The opposite edge of the Antarctic would have been 20 degrees further north, but almost certainly still ice bound.
Interesting thoughts?