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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Chad Wozniak says:
November 3, 2013 at 2:38 pm
@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.
——————-
You got that right, Chad.
And the silliness of the proponents of CAGW and the IPCC have been touting their claim about the current unprecedented melting of the Alpine Glaciers in an attempt to justify their “junk science” claims about “greenhouse” gases.
MAK says:
“The same Mr Miller was co-author on 2001 paper regarding Baffin temperatures…
Back then the warmest period in last 1200 years was between 1200-1375 AD.”
A colder period in the temperate zone:
http://wattsupwiththat.com/2013/11/02/miller-et-al-s-unprecedented-recent-summer-warmth-in-arctic-canada-bad-assumptions-poor-logic-and-contrary-to-other-evidence-of-arctic-temperatures/#comment-1465135
Assertions and assumptions by Miller et al.
[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. ?
————————–
If the above is actually what Millel el al claims then his claim is pathetically illogical simply because the current melting “act” that revealed those moss plants does not prove that present temperatures have exceeded the temperatures at the time said moss plants were sexually reproducing and growing.
Mosses (Bryophytes) are persnickety propagators and/or reproducers and unless the temperature and moisture are just so-so they will not grow, to wit:
—————
“In dioicous mosses, male and female sex organs are borne on different gametophyte plants. In monoicous (also called autoicous) mosses, both are borne on the same plant. In the presence of water, sperm from the antheridia swim to the archegonia and fertilisation occurs, leading to the production of a diploid sporophyte. The sperm of mosses is biflagellate, i.e. they have two flagellae that aid in propulsion. Since the sperm must swim to the archegonium, fertilisation cannot occur without water. After fertilisation, the immature sporophyte pushes its way out of the archegonial venter. It takes about a quarter to half a year for the sporophyte to mature.
Wherever they occur, mosses require high levels of moisture to survive because of the lack of a vascular system, and the need for liquid water to complete fertilisation. Many mosses can survive desiccation, sometimes for months, returning to life within a few hours of rehydration.” http://en.wikipedia.org/wiki/Moss
========================
Thus, the question is, are current climatic conditions (temperatures and moisture) in the Baffin Island area conducive to/for the growth and reproduction of mosses?
HA, I again messed up when entering that “editing” text. Sorry bout that.
MAK says:
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.
GOOD OBSERVATION–THEIR TEMP CURVE SHOWS THE MEDIEVAL WARM PERIOD WARMER THAN RECENT, YET MILLER SEEMS TO HAVE CONVENIENTLY FORGOTTEN HIS OWN EARLIER PAPER, WHICH CONTRADICTS THE PRESENT PAPER.
Don Easterbrook says:
“THEIR TEMP CURVE SHOWS THE MEDIEVAL WARM PERIOD WARMER THAN RECENT”
Which means that there were much colder conditions in the mid latitudes from 1195, and exactly at the rapid cooling in Baffin Island in 1375, there were very high temperatures at least in the UK. The same for the warm 1950/60’s in Baffin, it was colder then in the temperate zone then:
“The cold period was followed by large and rapid warming in the 1950s leading to a maximum around 1960 AD and cooler conditions toward the present.”
https://notendur.hi.is/~oi/AG-326%202006%20readings/Anthropocene/Moore_JOPL2001.pdf
That’s the negative NAO conditions, particularly from the late 1950’s:
http://www.cpc.ncep.noaa.gov/products/precip/CWlink/pna/month_nao_index.shtml
Warming in Baffin Island means cooling in the mid latitudes.
Dr. Easterbrook’s and Dr. Wyatt’s critique of the Miller et. al. paper is what peer review is all about.
Nice work Don. To conclude that recent temperatures have been the warmest over some period Miller et al. would have to show that the RATE of recent melting was the highest over that period (controlling for the area of non-seasonal ice that is available for melting). Instead they looked at the level of ice melt. They are looking at the wrong stupid derivative.
Interestingly, this is the same “mistake” that warmist “scientists” make in order to avoid the evidence that the 20th century’s high level of solar activity was responsible for 20th century warming. They acknowledge the numerous findings of a high degree of correlation between solar-magnetic activity and climate but always add that the sun couldn’t have caused late 20th century warming because solar activity was not increasing over this period (as if it is the CHANGE in the level of solar activity, rather than the level of solar activity, that would cause warming).
I have been collecting such statements for several years. Here is a list of 18 from various individual warmist scientists, plus several from different climate-alarm group efforts, like the IPCC:
http://www.crescentofbetrayal.com/ClimateEmai_citations.htm
This focus on the obviously wrong variable is not science but “scientism” in the pejorative sense: political propaganda dressed up to look to the ignorant like it is scientific. It is a testament to the anti-scientific nature of climate alarm that such blatantly phony “science” can prosper widespread at the top of the climate science field.
James Griffen says “ Greenland is so called as from around 850AD to 1350AD it was largely covered in grass. ”
Really? So the Greenland ice cap is only 700 years old? Where did all the ice go in that period?
In the Article it says, regarding the figure from the GIPS2 ice core,
“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””
I have seen a discussion of that figure here somewhere before. Does anyone know where? I think the problem is that the last 100 years is not actually in the data, so the graph does not contradict Miller’s statement.
jimmi_the_dalek says:
In the Article it says, regarding the figure from the GIPS2 ice core,
“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””
I have seen a discussion of that figure here somewhere before. Does anyone know where? I think the problem is that the last 100 years is not actually in the data, so the graph does not contradict Miller’s statement.
THE TOP OF THE GISP2 ICE CORE IS 1950, SO IT DOESN’T INCLUDE THE GLOBAL COOLING FROM 1950 TO 1977, THE WARMING FROM 1978 TO 1998, OR THE SLIGHT COOLING SINCE 1999. BUT IT REALLY MAKES LITTLE DIFFERENCE. ALSO NOTE THAT THE MILLER STATEMENT TAKES IN THE LAST CENTURY, NOT JUST THE 2013 TEMP. SO YES, THE GRAPH DOES CONTRADICT THE MILLER ET AL. STATEMENT
(why all the caps)
Can you give a reference for that starting date please, and for the figure 10, or the data from which figure 10 was constructed.
Data for Fig 10 are from GISP2 ice core oxygen isotope measurements by Stuiver and Grootes, 1999. Listed below is the text heading for the data.
Complete GISP2 continuous measurements listing
This file contains the entire continuous GISP2 delta 18O sample data set (excluding the silty ice samples, which are published separately), measured at the University of Washington’s Quaternary Isotope Laboratory, as of March 5, 1999.
The data columns represent:
Depth Top depth of each interval, in meters. Samples are continuous unless specifically noted.
Age Layer count age at the given depth (in yr BP), where 0 BP represents AD 1950 summer to AD 1949 summer. Age corresponds to the top of the interval, unless noted otherwise.
Del 18O Mean 18O value (in per mil) over the interval starting at the indicated top depth. Standard deviation in a single 18O measurement is 0.14 per mil. Multiple measurements (such as in the data sets below) reduce the standard deviation to the 0.05 to 0.1 per mil range.
You can access the data at
http://depts.washington.edu/qil/datasets/gisp2_main.html
OK thanks, that clears something up. However the graphs described as “Modified from Cuffy and Clow, 1997; Alley,2000” are not so much modified as completely replotted, and the caption says “Years before present (AD 2000)” so is the caption wrong? Also the first data point on the graph appears to be “95” (though the resolution is not sufficient to tell if that really is the beginning of the scale). Is the 95, 95 years before 2000 or 95 before 1950? Where are the actual values that were plotted? As a further complication the link in your previous posts gives vales for 18Oxygen data up to 1987 (year -37 relative to 1950!). Is this data too recent to be reliable (i.e the ice has not sealed)?
The Holocene temperature curve came from the NOAA Paleoclimatology Program and World Data Center for Paleoclimatology, Boulder, IGBP PAGES/WDCA CONTRIBUTION SERIES NUMBER: 2004-013 ,. It was placed there by Richard Alley (last updated 3/2004). The graph was a smoothed curve by Alley based on GISP2 Ice Core Temperature and Accumulation Data
NOAA Paleoclimatology Program and World Data Center for Paleoclimatology, Boulder, CO.
SUGGESTED DATA CITATION: Alley, R.B.. 2004.
NAME OF DATA SET: GISP2 Ice Core Temperature and Accumulation Data
LAST UPDATE: 3/2004 (Original Receipt by WDC Paleo)
CONTRIBUTOR: Richard Alley, Pennsylvania State University.
IGBP PAGES/WDCA CONTRIBUTION SERIES NUMBER: 2004-013
GISP2 Ice Core Temperature and Accumulation Data.
IGBP PAGES/World Data Center for Paleoclimatology
Data Contribution Series #2004-013.
NOAA/NGDC Paleoclimatology Program, Boulder CO, USA.
Alley, R.B., 2000, The Younger Dryas cold interval as viewed from central Greenland: Quaternary Science Reviews, vol. 19, p.213-226.
Cuffey, K.M., and G.D. Clow. 1997. Temperature, accumulation, and ice sheet
elevation in central Greenland through the last deglacial transition.
Journal of Geophysical Research 102:26383-26396.
PERIOD OF RECORD: 49 KYrBP – present
Temperature interpretation based on stable isotope analysis, and ice accumulation data, from the GISP2 ice core, central Greenland. Data are smoothed from original measurements published by Cuffey and Clow (1997), as presented in Figure 1 of Alley (2000).
The GISP2 core is the source of the data (top 1950), but Alley’s plot is unclear as to the age of the top, probably because he used a smoothing filter. In any event, the age of the at the top of the core is 1950.
OK thanks again. That does pin it down. Unfortunately it means that the series does not begin in 1950, though it is given in terms of “years before 1950”. The top of the series begins like this :
Column 1: Age (thousand years before present)
Column 2: Temperature in central Greenland (degrees C)
Age Temperature (C)
0.0951409 -31.5913
0.10713 -31.622
0.113149 -31.6026
0.119205 -31.6002
0.119205 -31.598
0.125451 -31.6656
0.132407 -31.7235
0.138807 -31.7583
0.145126 -31.8098
Note the first entry, 0.095 ky , i.e.95 years before 1950, or 1855, so the whole of 20th century is missing, and even if the Greenland temperatures are a good proxy for the world as a whole, you cannot make comparisons with the last 100 years (unless you were to add the modern instrumental record to the ice core values).
The age on Alley’s original graph reads “Age before present (2000 AD)” so that would presumably put the date of his youngest data at 1905 if you take his label at face value. The age of the original graph by Cuffy and Clow (1997) is shown as “Thousands of years before present” and since the core top is 1950, “present” = 1950. Alley’s curve is based on the data from Cuffy and Clow. As I pointed out earlier, if you ‘add’ the cooling from 1950 to 1977, the warming from 1978 to 1998, and the slight cooling from 1999 to present, the temp of the ‘last century’ is not going to top the temp of 90% of past 10,000 years.
If you plot the oxygen isotope data, rather the temp itself, the youngest date is 1950 and it is clear that adding the last 50 (or 63 to 2013) years, is not going to make the ‘last century’ as warm as 90% of the past 10,000 years.
It’s not Alley’s graph.
I discovered where I had seen this before. There is a WUWT thread
http://wattsupwiththat.com/2013/04/13/crowdsourcing-the-wuwt-paleoclimate-reference-page-disputed-graphs-alley-2000/
which rejects the idea that age before present is AD 2000 in favor of 1950.
Since the WUWT community has already decided, perhaps you had better fix the caption.
Jimmi_the_dalek says:
“..and even if the Greenland temperatures are a good proxy for the world as a whole..”
Yet again, Greenland and Baffin Island temperatures are an INVERSE PROXY for the temperate zone.
Given the fact that 4400-4800 years ago was very warm in the temperate zone, the major expansion period for many civilisations, and that the cold period that caused the collapse of many of them around 3200 BP, what does that tell us about around 1000AD and the 8.2Kyr event?
http://smpro.ca/crunch/GISP2Civil.png
http://mclean.ch/climate/figures_2/Vostok_to_10Kybp.gif
[SNIP – A valid email address is required here, fake ones don’t cut it – mod]
At inter-annual to decadal scales, the peaks and troughs in Greenland ice core temperature proxies are nearly all the inverse of what we see through CET:
http://www.21stcentech.com/wp-content/uploads/2012/07/Greenland-ice-core-data.png
http://climexp.knmi.nl/data/tcet.dat