Dr. Don J. Easterbrook, Western Washington University, Bellingham, WA
Miller et al. radiocarbon dated 145 rooted tundra plants revealed by receding ice in the eastern Canadian Arctic and contend that it constitutes the first direct evidence that recent temperatures now exceed those of any century in the Holocene, including the Holocene Thermal Maximum. They further contend that (1) average summer temperatures of the last ~100 years were higher than any century in the past 44,000 years and suggest that present temperatures have not been exceeded in the past ~120,000 years, at or near the end of the last interglaciation, and (2) they conclude that this ‘unprecedented’ warming was caused by anthropogenic increases in greenhouse gases. So let’s look at some of the assumptions that form the basis for their conclusions and compare their conclusions to other Arctic data.
Figure 1 A. Baffin Island showing sample sites. Circles (color-coded by their 14C age) show the 135, <5 ka, sites where rooted plants were collected at receding ice cap margins; diamonds show sites dated >47 ka. Solid lines mark the margins of the LIS at the last glacial maximum and 9 ka [A. S. Dyke, 2004]. B. Detailed map of sites older than ~45 ka.
Assertions and assumptions by Miller et al.
[1] Mille el al. contend that “although glaciers are frequently associated with deep and widespread erosion, small, cold-based ice caps that mantle relatively flat terrain typically advance by lateral accretion rather than by basal flow, and are thus capable of preserving even the most delicate features of the landscape. As these ice caps recede, they often reveal rooted tundra plants that were living at the time snow and ice last covered the site.” They further contend that “Surface-elevation contours of the continental Laurentide Ice Sheet (LIS) show that all four ice caps with pre-Holocene dated plants were above the surface of the LIS at its last glacial maximum. These sites thus supported only local ice caps then as now. And, because the ice caps occupy flat summits of less than 0.2 km2 surrounded by steep slopes, ice thicknesses of more than 70 meters could not have been sustained.”
The assumptions in these statements are:
a. Miller et al. assume that the ice caps are cold-based (i.e., basal ice is frozen to the ground below) and that there is no basal sliding of the ice and no basal erosion. However, deep fiords and ice-scoured scoured bedrock in the area attest to active subglacial erosion (i.e., basal sliding rather than frozen to the ground), although most of the obvious erosion is probably related to Pleistocene glaciation. The Greenland ice sheet just across the Davis Strait at the same latitude is not frozen to its base, and the average summer temperature at Clyde (north of the sample sites) is 3°C above freezing during June, July, August, and September (Fig. 5). Summer temperatures of all of the more than half dozen weather stations along the east coast of Baffin, where the sample sites are located, are above freezing during June, July, August, and September. Thus, the Miller et al. conclusion that the small ice caps in this study are frozen to their base is highly questionable and most like not true.
b. Miller et al. contend that the Laurentide Ice Sheet did not cover the area of the ice caps and that there has been no erosion since the Eemian Interglacial 120,000 years ago. However, the Laurentide Ice Sheet (LIS) extended eastward beyond this area to the coast (Fig. 1) and reconstructed ice surface elevations show the area to be close to the 1000 m and 2000 m contours, i.e., close to or above the present ice caps. The scale of the ice surface reconstructions is not detailed enough to show exactly how high the LIS surface was at the sites, but at least suggest a good possibility that the area was overridden by the LIS. The importance of this is their conclusion that the older sites have not been disturbed for 120,000 years, but to make this assertion they need to provide adequate evidence.
Figure 2. Reconstruction of the Laurentide Ice Sheet (Dyke, 2002)
c. The Miller et al. assertion that the ice caps were not more than 70m thick is highly questionable. The ice caps expanded noticeably during the Little Ice Age and even if the LIS didn’t overrun the ice cap sites, the ice caps must surely have thickened, especially since the surrounding lower areas were filled with LIS ice. Thus, their contention that the ice caps could not have been more than 70 m thick is most likely not valid.
[2] Miller et al. claim that recent exposure of moss by melting ice proves that modern temperatures at the site were as high or higher than at any time since the moss was covered by ice and that therefore present temperatures have not been exceeded in 120,000 years. But is this necessarily true? If a block of ice is placed on the floor of a room and the thermostat is turned to 90°F, the ice will begin to melt. If the thermostat is then turned down to 40°F before all of the ice has melted, ice will continue to melt until the floor is uncovered, but to conclude that the temperature had never risen above 40°F since the floor was first covered with ice would be totally false. The same is true of the Baffin ice caps—if moss is uncovered at today’s temperatures, that doesn’t mean that higher temperatures haven’t occurred previously. Thus, the Miller et al. conclusions that “temperatures of the past century must have exceeded those of any century in more than 44 ka” and “there has been no intervening century during which warmth exceeded that of the last 100 years” are illogical and badly flawed. One wonders how this bad logic got past peer review. In addition, we know from data in the Greenland GISP2 ice core that temperatures in Greenland rose more than 20°F per century at least three times in the past 15,000 years, well within the 120,000 years claimed by Miller et al. to have never been warmer than recently.
[3] Among the 145 14C dates on exposed moss in this study are10 dates ranging in age from 23,900 to 50,700 years, leading to their conclusion that temperatures today are the hottest in >50 ka and most likely in the past 120 ka. They explain the disparity between these old dates and the multitude of young Holocene dates as due to higher elevations of the older samples so the younger sites could be exposed by melting of ice while the higher, older sites remained ice covered. But as shown by their data, this really isn’t true. Figures 1 and 3 show site M10-231v as an ‘Eemian’ site with dates ranging from 23,900 to 44,300 years. But ages at two nearby sites, M10-B226v and M10-223v, whose ages are shown as 2-3,000 and 4-5,000 years old, are higher than the site with old dates (Figure 4).
Figure 3. Site M10-231v, dated at 23.9 ka to 44.3 ka at an altitude of 1395m (4577 ft) and sites M10-226v at 1438m (4718 ft.) and M10-223v at 1405mm (4609 ft). (Google Earth image)
Figure 4. Elevations of sites M10-223v (2-3,000 yrs) and M10-226v (4-5,000 yrs) are higher than the ‘Eemian’ site >47,000 years.
This totally destroys their argument for no temperature as warm as the present since the Eemian Interglacial. All they have shown is that melting of the ice caps on Baffin Island wasn’t complete during the Holocene and recent warming has continued the melting.
Comparison of Miller et al. conclusons with other Arctic data.
The conclusions of the Miller et al. paper are that “there has been no intervening century during which summer warmth exceeded that of the last ~100 years” and “average summer temperatures of the last ~100 years are now higher than any century in more than 44,000 years.” How do these conclusions stack up against other data concerning past Arctic temperatures? Let’s compare them with recent recorded temperatures in Greenland and with past temperatures derived from Greenland ice core data.
Comparison with recent Arctic temperatures
Summer temperature records at Clyde, north of the sample sites, show no warming from 1940 to 2009 (Fig. 5). How is it that “temperatures of the past century must have exceeded those of any century in more than 44 ka” when temperature records clearly show no warming over the past 70 years? This makes no sense at all!
Figure 5. Summer temperatures at Clyde, north of sample sites.
Temperature records from Greenland and other Arctic areas also show no unusual warming. Yes, temperatures have warmed and cooled, but the 1930s were consistently warmer than the more recent warming from 1978 to 1998 (Figs. 6, 7, 8, 9).
Figure 6. Temperatures in Angmagssalk, Figure 7. Arctic temperatures (70-90 N latitude, -180
Greenland were warmer in the 1930s (before to 180 longitude) between 1880 and 2000 show that
CO2 began to rise sharply) than during recent the 1930s and early 1940s were warmer than recent
warming from 1978-1998. warming (1978-1998). (Modified from Chylek et al.
2004, 2006)
Figure 8. Arctic temperatures in Iceland, Norway, Figure 9. Average Arctic annual temperatures were
and Russia from 1890 to 2010 show that the 1930s warmer in the 1930s (before CO2 began to rise
and early 1940s were warmer than recent warming sharply) than during recent warming from 1978-
from 1978-1998. 1998.
Comparison with temperatures recorded in Greenland GISP2 ice cores
Figure 10 shows that virtually all of the period from 1500 years ago to 5000 years ago was warmer than modern temperatures. This data is directly contrary to the Miller et al. conclusion that “average summer temperatures of the last ~100 years are now higher than any century in more than 44,000 years.”
Figure 10. Temperatures during the Medieval Warm Period, the Roman Warm Period, and the rest of the time back to 5000 years ago were all warmer than the past century, directly contradicting the conclusion of Miller et al.
Looking still farther back in time, about 90% of the past 10,000 years were warmer than temperatures of the past century (Fig. 11). Thus, the Miller et al. conclusion that “temperatures of the past century must have exceeded those of any century in more than 44 ka” cannot be true.
Figure 10. Temperatures during ~90% of the past 10,000 years were warmer than the past century. (Modified from Cuffy and Clow, 1997; Alley,2000).
Temperatures during the late Pleistocene fluctuated dramatically, rising 20°F in a single century at least three times. These rates of warming were far greater (~20 times greater) than warming during the past century. Thus, the Miller et al. conclusions cannot be valid.
Conclusions
From the foregoing data and analyses, what is abundantly clear is that the Miller et al. paper is so badly flawed with unwarranted assumptions, poorly thought out assertions, and astonishingly bad logic that their conclusion “temperatures of the past century must have exceeded those of any century in more than 44 ka” cannot be considered valid. How could reputable scientists come to such incorrect conclusions? Perhaps the last sentence in their conclusions section gives us a clue: “anthropogenic emissions of greenhouse gases have now resulted in unprecedented recent summer warmth that is well outside the range of that attributable to natural climate variability.” Even if the conclusions in the paper were correct, they wouldn’t prove anything about CO2 as the cause of climatic warming, so this statement suggests that the real purpose of the paper was to push CO2 at the expense of objective science.
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lorne50 says:
November 3, 2013 at 10:50 am
=================
Did you mean gist ??
Couldn’t resist 🙂
Kevin O’Neill says:
I think you’re not comprehending what Easterbook is claiming, here. His argument is that the Laurentide Ice Sheet might have overtopped these ice caps, making them far deeper than 70 meters. The glacial erosion that he’s talking about is that of the larger surrounding glacier, NOTof these ensconced caps, which lie in a frozen cirques and would not necessary move. The erosion of ice floes down the valleys surrounding these cirques is very obvious, and this means the LIS was probably active in this area. So IF these mossy ice caps were covered by a larger glacier (likely), then the melt of the ice sheet over the mosses would be much longer than 44k years, and the heating needed to melt it more extensive.
Besides lengthening the period of the melt, what do you think of the logical critique of Miller’s silly assumption that the day a glacier retreats to expose some previously covered and undamaged flora must therefore be the warmest period since the flora was covered in the first place? If I take an frozen ice cube tray out of the freezer, leave it on the counter in midafternoon, then the last bit of ice melts at 9:00 pm, does that prove that It’s warmer at 9:00 pm than it was at 4:00 pm?
Forget logic, look at the treelines during the Holocene. Many are further north covering a greater geographic area than Miller et. al.
Correction:
It’s not called “Clyde” … it’s Clyde River … maybe they omitted the river part for a reason 🙂
Did Miller omit to supply any photographs of cute animals drowning under rising sea levels to back his conclusions up?
RE the 70m limit on icecap thickness…would not further accumulation then form a dynamic overriding glacier, which could achieve much greater thickness while flowing over into the lower valleys?
Jaems Strom asks: “JC?? What is that? I would be interested in reading that, got a link?”
JC is Climatologist Judith Curry, her site is here http://judithcurry.com/
Kevin O’Neill’s criticism of Easterbrook is an obvious display of projection. He should reply to the comments of TonyB and Mickey Reno, if he wants to be taken seriously, with some solid science.
Regular readers of WUWT would know that TonyB would answer with a sensible contribution, but it was nice to see Mickey Reno chip in with a suitable rebuttal also.
No. Miller deduces that the ice caps are cold based from the fact that moss is found in-situ.
No, but Miller does present a scenario that explains his conclusion that it is necessarily true. Easterbrook does not address that explanation.
Yes, it does. Here, Easterbrook commits the warmists’ current favorite fallacy – conflating “warm” with “warming”. They are fond of making the asinine claim that the globe must still be warming, because it is still warm. Easterbrook inverts that, claiming Baffin Island cannot be warm, because it is not warming. Same crappy reasoning, different spin.
Miller’s paper is chock full of sketchy (and mostly unstated) assumptions, and examples of faulty reasoning. These are not among them. Easterbrook hits hard on some of Miller’s weaknesses, but others remain unexamined. Among those:
1) When a few percent of lab results are “out there”, suggest startling conclusions, and require boatloads of assumptions and extraordinary reasoning to explain, parsimony suggests that perhaps the lab results are wrong. Carbon dating is not an error free process. When a few percent of your samples show dates 20 times older than the rest, step one would be to take verification samples, to see if you can replicate your results. What is behind the rush to (extreme, and probably poor) judgement? The implications of “the Pause”?
2) The current simultaneous exposure of very young paleo-mosses and (allegedly) very old paleo-mosses is not accounted for by Miller in the context of his assertion that temperature determine glacier extent. By what mechanism is this supposed to have occurred, and what are the implications of that explanation with respect to Miller’s claim that unprecedented current temperatures are the ONLY way the older mosses could be exposed now? Huge hole. Many trucks running abreast.
3) At the few sites that showed the limited-out C14 aging, it was not mostly mosses, but lichens that were found. What explanations are there for this, and what are the implications for the Miller claims?
4) The claim of max 70m ice cap thickness does not follow from the math that Miller used to calculate it. That comes to 50m, which is the figure that Miller has used in previous presentations on this topic. Why 70 now? And when was it most recently at this alleged maximum thickness? And what was the thickness of this cap in 1913? Inconsistencies and unaddressed assumptions abound. How many others are there? Does this cap meet the assumptions of Nye’s Ideal Circular Ice Cap? Has it always for the last 120ky?
5) Where did this current melt rate (0.5m/y) come from? The assertion is that snowline is determined solely by temperature. The same is assumed for melt rate. How is that assumption supported? How is circularity in this line of reasoning avoided?
@Samuel C Cogar –
And Hannibal’s traverse of the Alps was only at the beginning of the warming – the Roman Warm Period really didn’t reach full force for another 100 years.
The vicintiy of the LIS cooled that location during the early/mid holocene irrepective if it was part of the LIS and the accumulation limited to 70 m or not. That location is then no indication for global temperatures.
Black soot is the elephant in the Arctic (after AMO and the LIS for that Baffin Island location).
The IPCC has global forcing value of 0.1 W/m2 for black soot on snow/ice.
Hansen 2004 wrote that black soot is 3 times more efficient in warming than an equal CO2 forcing. -> 0.3W/m2
Almost all soot is in the northern hemisphere another factor of 2. ->0.6W/m
Only a small fraction of the northern hemisphere is covered by ice/snow. That leaves a forcing of several W/m2 for the ice covered regions.
(plus 0.7 W/m2 radiative forcing of black soot in the atmosphere)
They got their headline.
Here’s what LiveScience reported and was the October 24 headline on Yahoo:
Arctic Temperatures Highest in at Least 44,000 Years
Interestingly this came out at the END of what the Danish Meteorological Institute tracked as the shortest Summer above freezing and coldest on record.
Well timed. Well placed.
Miller claims that the location in question could have had a maximum of 50 or 70 meters of snow coverage (not glacial coverage). Miller claims that the snow coverage (now melted) would have melted long ago if the temperatures then had been comparable to today’s for as long as a century or so.
Let’s assume, just for argument that he is correct; fifty meters of snow melt in 100 years, in other words,average net snow melting of half meter per year of warmth. This is not unreasonable. Or rather, it is not unreasonable if we know with some certainty that winter snowfall is so limited that we get that net half meter melt. So… what was the snowfall at Baffin Island during the last 10,000 years or so? Is there any reason to think that snowfall there over the last ten millennia has consistently been such that current temperatures would melt all of the winter accumulation plus another half meter? Heck, I’ve even read some CAGW enthusiasts who swear that warmer temperatures mean MORE snow. Maybe it was warmer 5,000 years ago but the snow was heavier and therefore did not get that net half meter melt.
I would be very surprised if we have accurate data on snowfall for the last ten thousand years at Baffin Island.
Mickey Reno says:
November 3, 2013 at 11:22 am
“If I take an frozen ice cube tray out of the freezer, leave it on the counter in midafternoon, then the last bit of ice melts at 9:00 pm, does that prove that It’s warmer at 9:00 pm than it was at 4:00 pm?”
__________________________
Thank you. That simple analogy negates the premise of Miller, et al.
Not discounting the ice cube tray experiment, if your moss is rooted in the earth, your theory is rooted in science. Climate science seems to have so many great observations and yet only ever one conclusion. That on its own is reason to doubt the consensus.
Can I point out Otzi the Iceman? He didn’t crawl under a glacier to die, yet he was found where he died – under a glacier near the top of a mountain. His body was protected from the ice movement by a rock ledge.
Pippen Kool says:
Tell us why you think that has any relevance whatever to my argument. AFAICT it’s a complete non-sequitur as irrelevant as saying “Perhaps. but there are roses on sale at my local florist.”
tommoriarty says:
November 3, 2013 at 10:17 am
It is quite clear that the Arctic was warmer 5000 to 6000 years ago than it is today.
http://climatesanity.wordpress.com/2008/10/15/dont-panic-the-arctic-has-survived-warmer-temperatures-in-the-past/
===================================================
It is also quite clear that Greenland was cold between 2700BC and 2500BC when there were major maximum’s in temperate zone temperatures that enabled the biggest expansion of all the classic great civilisations, e.g. Egyptian, Harrapan, Chinese, Minoan, Peruvian, European Neolithic:
http://smpro.ca/crunch/GISP2Civil.png
And then there’s that sudden cooling around 1200 BC that collapsed many cultures:
https://www.google.co.uk/?gws_rd=cr#q=1200+BC+climate
in Greenland it was the warmest:
http://upload.wikimedia.org/wikipedia/commons/thumb/5/57/Greenland_Gisp2_Temperature.svg/800px-Greenland_Gisp2_Temperature.svg.png
Oops!
http://www.glyfac.buffalo.edu/Faculty/briner/buf/pubs/Axford_et_al_2013.pdf
Meanwhile, down in the Antarctic…..
I complained to the BBC that they had no coverage of the huge extend of Antarctic Sea Ice this year. This, was their reply:
.
Reference CAS-2376609-TJ8YC5
Thank you for contacting us regarding BBC News.
I understand you feel that our coverage of climate change issues is biased and that it has failed to address recent data that shows Antarctic ice to be at record levels.
Impartiality is the cornerstone of all our output and we ensure all our correspondents and production teams are aware of this to help us deliver fair and balanced coverage for all the stories we report.
Senior editorial staff, the Executive Committee and the BBC Trust keep a close watch on programmes to ensure that standards of impartiality are maintained.
Climate change and global warming are amongst the most high profile news stories of recent years and while we are fully committed to balanced and impartial coverage of the issue, the overwhelming scientific opinion is that human activity is increasing the rate at which earth’s global temperature is rising by.
As a public service broadcaster we have an obligation to reflect this broad scientific agreement on climate change and we reflect this accordingly; however, we do aim to ensure that we also offer time to the dissenting voices.
While it might not always be possible to reflect all opinions in one programme we charge our editors with ensuring that all relevant voices are heard over a reasonable period of time across our programming output, and this has included our main news broadcasts and flagship programmes such as ‘Newsnight’.
Nevertheless, I would like to assure you that I have registered your concerns on our audience log. This is a daily report of audience feedback that is made available to many BBC staff, including members of the BBC Executive Board, programme makers, channel controllers and other senior managers.
The audience logs are seen as important documents that can help shape decisions about future programming and content.
Thank you once again for getting in touch.
Kind Regards
Terry Hughes
BBC Complaints
.
Greenland is so called as from around 850AD to 1350AD it was largely covered in grass. The Vikings lived there for around 500 years.
Not possible if it was colder than today.
This report is another example of desperation from desperate people.
There are very few rolls of the dice left before the nonsense is finally swept away and it will come when the green taxes are dropped and a politician has to stand in front of Parliament and sit in a BBC studio and explain things.
“anthropogenic emissions of greenhouse gases have now resulted in unprecedented recent summer warmth that is well outside the range of that attributable to natural climate variability.”
One tiny wee flaw, nobody knows what “natural climate variability” is! So how one can pronounce thats some apparent arming is outside it, well or otherwise, is a mystery!
Anyway we beat the Australians at Twickers on Saturday, must be AGW!
The same Mr Miller was co-author on 2001 paper regarding Baffin temperatures:
“Little Ice Age recorded in summer temperature reconstruction from vared sediments of Donard Lake, Baffin Island, Canada”
http://link.springer.com/article/10.1023/A:1011181301514
https://notendur.hi.is/~oi/AG-326%202006%20readings/Anthropocene/Moore_JOPL2001.pdf
Back then the warmest period in last 1200 years was between 1200-1375 AD. 1960s was one of the coldest periods. In general that 2001 paper is in total conflict with the new one.