The recent paper Compo et al (2013) is titled “Independent confirmation of global land warming without the use of station temperatures”. It’s in the preprint phase, and of course it’s paywalled. The abstract is here. It reads:
Confidence in estimates of anthropogenic climate change is limited by known issues with air temperature observations from land stations. Station siting, instrument changes, changing observing practices, urban effects, land cover, land use variations, and statistical processing have all been hypothesized as affecting the trends presented by the Intergovernmental Panel on Climate Change and others. Any artifacts in the observed decadal and centennial variations associated with these issues could have important consequences for scientific understanding and climate policy. We use a completely different approach to investigate global land warming over the 20th century. We have ignored all air temperature observations and instead inferred them from observations of barometric pressure, sea surface temperature, and sea-ice concentration using a physically-based data assimilation system called the 20th Century Reanalysis. This independent dataset reproduces both annual variations and centennial trends in the temperature datasets, demonstrating the robustness of previous conclusions regarding global warming.
In short, Compo et al (2013) recreated global land air surface temperatures without surface station-based temperature measurements. Basically, they used other variables as inputs to a computer reanalysis to infer the land surface air temperature anomalies.
Of course, SkepticalScience has already written a post about the paper, in which Dana1981 throws in his two cents about the significance of Compo et al (2013). SkepticalScience was kind enough to post Figures 1 and 2 from Compo et al (2013). The Compo et al Figure 1 is included here as Figure 1. It illustrates the warming of land surface air temperatures from 1901 to 2010 for the latitudes of 60S-90N. The blue curve is the Compo et al reanalysis. The red curve is the new and improved CRUTEM4 data from the UK Met Office. And the black curve is the average of other land surface air temperature reconstructions, including NCDC, GISS, JMA, and UDEL.
Figure 1 (Figure 1 from Compo et al (2013))
What stands out for you in that graph?
For me, compared to the other datasets, the Compo at al reanalysis has warmer anomalies during the early-to-mid 1970s and cooler anomalies during the late 2000s, which would create a lower trend during the recent warming period. The Compo et al reanalysis also shows a flattening of land air surface temperature anomalies starting in 1995, where the other datasets show a continued warming. Compo at el also show an exaggerated spike in 1943 associated with the multiyear El Niño then. And Compo et al show a later start to the rise during the early warming period.
The choice of 1981-2010 as the base years for anomalies is also a curiosity. While the WMO recommends updating base years periodically, global temperature anomaly data producers such as GISS, NCDC and UKMO use their individually selected base periods.
REPLICATED COMPO ET AL REANALYSIS GRAPH
Using the coordinates function of MS Paint, I replicated the Compo at el (2013) reanalysis output. It’s compared to CRUTEM4 data for the latitudes of 60S-90N in Figure 2, using the base years of 1981-2010. (The CRUTEM4 data is available through the KNMI Climate Explorer on a gridded basis.) I’ve also included the linear trends. My replica produces a linear trend that’s comparable to the 0.09 deg C/decade trend noted in the SkepticalScience post.
Figure 2
So let’s take a closer look at the recent warming period, and we’ll start the recent warming period in 1976. Figure 3 compares the replicated Compo et al reanalysis to CRUTEM4 data for the shorter term. As suspected, the CRUTEM4 data shows a 32% higher warming trend than the Compo et al reconstruction. The flattening of the warm peaks in the Compo et al reanalysis since 1995 is also much clearer.
Figure 3
USING DIFFERENT BASE YEARS
In Figures 4 and 5, long-term comparisons, I’ve compared the CRUTEM4 and Compo reanalysis using the standard UKMO and GISS base years. Figure 4 shows the UKMO base years of 1961-1990 and Figure 5 shows the GISS base years of 1951-1980. The recent divergence (flattening of the warm peaks in the Compo et al reanalysis versus the continued warming of the CRUTEM4 data peaks) stands out quite clearly in both illustrations. I’ll let you comment on why Compo et al (2013) presented the anomalies using the base years of 1981-2010.
Figure 4
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Figure 5
TREND MAPS
My Figure 6 is Figure 2 from Compo et al (2013). Note the differences in trends over Alaska and the mid-to-high latitudes of Russia for the period of 1952-2010 (Cells c and d). Compo et al (2013) could not reproduce the excessive rates of warming there during that period.
Figure 6 (Figure 2 from Compo et al (2013))
CLOSING
Sometimes I get the impression SkepticalScience is unable to read time-series graphs. I’ll let you comment on the rest of the SkepticalScience post.
“We have ignored all air temperature observations and instead inferred them from observations of barometric pressure, sea surface temperature, and sea-ice concentration using a physically-biased data assimilation system called the 20th Century Real Anal Lies Assistant. ”
FIXED.
And this one wins the award:
Intensification of winter transatlantic aviation turbulence in response to climate change
Paul D. Williams1 & Manoj M. Joshi2
AffiliationsContributionsCorresponding author Journal name:
Nature Climate Change
Year published:
(2013)DOI:
doi:10.1038/nclimate1866
Received12 November 2012 Accepted05 March 2013 Published online08 April 2013 Article toolsCitationReprintsRights & permissionsMetrics
Atmospheric turbulence causes most weather-related aircraft incidents1. Commercial aircraft encounter moderate-or-greater turbulence tens of thousands of times each year worldwide, injuring probably hundreds of passengers (occasionally fatally), costing airlines tens of millions of dollars and causing structural damage to planes1, 2, 3. Clear-air turbulence is especially difficult to avoid, because it cannot be seen by pilots or detected by satellites or on-board radar4, 5. Clear-air turbulence is linked to atmospheric jet streams6, 7, which are projected to be strengthened by anthropogenic climate change8. However, the response of clear-air turbulence to projected climate change has not previously been studied. Here we show using climate model simulations that clear-air turbulence changes significantly within the transatlantic flight corridor when the concentration of carbon dioxide in the atmosphere is doubled. At cruise altitudes within 50–75° N and 10–60° W in winter, most clear-air turbulence measures show a 10–40% increase in the median strength of turbulence and a 40–170% increase in the frequency of occurrence of moderate-or-greater turbulence. Our results suggest that climate change will lead to bumpier transatlantic flights by the middle of this century. Journey times may lengthen and fuel consumption and emissions may increase. Aviation is partly responsible for changing the climate9, but our findings show for the first time how climate change could affect aviation.
This stuff has every appearance of a joke. Independent evaluations are well known, this is called proxies. They all have an annoying feature, they show no significative trend for the twentieth century.
Let me if I’m wrong here (I’m not a scientist, just an interested reader)…..but ignoring an observation and then not ignoring it by inferring it seems like taking a further step away from accuracy rather than towards it …with the inference I would have thought there would be a bunch of variables including assumptions that are likely to be at least as problematic as those affecting observations …
J. Murphy says “But, basically, like every other measure you care to mention, it confirms that temperatures are rising? Some people won’t like that inconvenient fact.”
The atmosphere is never static. Other people refuse to acknowledge that inconvenient fact.
Well, it is kind of funny that the Compo paper appears to be about 0.2-0.3C lower in the second half of the 20th century than CRUTEM4… which is more of an adjustment than the UHI adjustment they were seeking to avoid in the first place.
J. Murphy says:
April 8, 2013 at 11:52 am
—————————————————
Inconvienient? That temperature has risen since the Little ice Age? Trivial, IMHO, but not inconvenient.
If you have an “inconvenient” fetish, please explain why temperature is lower now than 1000 years ago, when we had agriculture in Greenland, or 2000 years ago when we were making wine (with ease) in Britain, or 8000 years ago at the dawn of the agricultural revolution, even though atmospheric CO2 has been rising steadily through all that time.
Correct me if I’m wrong, but there are error bars on that first graph. That’s what the light blue envelope is, right?
“We have ignored all air temperature observations and instead inferred them…”
I kinda doubt they ignored them completely. I’d guess they used them at least for multivariate analysis for how the pressure etc translates to temperature. But it is likely that these data are not affected by GISS “value added” homogenization so that’s one effect they got rid of.
It might be interesting to compare their result with unadjusted temperature measurements…
Apart of that, I am not entirely convinced that the urban heat island effect is only limited to temperatures.
JMurphy: We are in an interglacial period, in which temperatures will continue warming until they don’t. Why should that bother the skeptics? It is, after all, the * anthropogenic* part that we contest.
Slightly off thread – although I have taken an awful lot of SST bucket temperatures – I note Margeret Thatcher has died. She was the UK’s first female prime ministr, and – perhaps surprisingly – our first prime minister with a BSc [Chemistry at Oxford].
Sad she has died, and the passing of a wonderful rebel, even iconoclast, but she hs had a decade of poor health.
Auto
About as reliable as me grading my students essays by the colour of their socks!
Air travel to get bumpier as CO2 emissions rise, scientists say
Turbulence to become more frequent, stronger by mid-century
http://www.reuters.com/article/2013/04/08/climate-airlines-turbulence-idUSL5N0CQ3CA20130408
Shano 11:58 am
Haha!! Good one!
Eugene WR Gallun
……… sea surface temperatures……. .
In the 1960s when I was Third and Second Mate on weather reporting cargo ships, the SST was taken from the main engine cooling water intake. When loaded the intake was about 30′ below the sea surface, and in ballast about 15′ below the ss; in addition I doubt if the thermometer supplied by the shipbuilder was ever calibrated in any way.
I wonder how much credence can really be given to the numbers that the Radio Officer sent out to Portishead every six hours.
Steven Mosher
“a small bias ( like less than .1C per decade ) isnt very interesting when it comes
to understanding the future trajectory of temperatures.”
Too right! I get a bigger variation than that from one side of my kitchen to the other on a permanent basis.
Even the 0.3C (app) that this work and HadCRUT4 refer to is unmeasurable in any meaningful way. We really are debating how many angels can dance on a pinhead here!
According to the NCAR site, http://climatedataguide.ucar.edu/reanalysis/noaa-20th-century-reanalysis-version-2 the ‘key weakness’ of this method lies ‘in (re)interpreting long-term trends – inconsistencies between 20CR and other data have been reported’ and yet, bizarely the ‘key strength’ lies in the ‘length of the record’. What is the definition of ‘long-term’ here?
As others have commented, how is it demonstrated that barometric pressure is a more reliable and valid measure than temperature? Barometric pressure in daily weather (rather than STP) appears susceptible to a greater range of influences than temperature alone. For example, winter anti-cyclones and sunny weather are associated with low temperature and high pressure. How are the barometric pressure values in this study ‘adjusted’ to reflect standardised conditions – would this not be prone to even more errors than current empirical temperature measures?
J. Murphy says: “But, basically, like every other measure you care to mention, it confirms that temperatures are rising? Some people won’t like that inconvenient fact.”
There’s nothing inconvenient about it. Ocean heat content data since 1955 and satellite-era sea surface temperature data indicate the oceans warmed naturally. See “The Manmade Global Warming Challenge” (42MB):
http://bobtisdale.files.wordpress.com/2013/01/the-manmade-global-warming-challenge.pdf
Regards
The amount of data manipulation that must have gone into the Compo et Al ‘study’ would probably make even his Manniness blush.
Steve McIntyre would doubtless have a field day if the raw data and how it was ‘processed’ was ever made publicly available.
Auto says
In the interests of accuracy, the Chemistry degree at Oxford is a Bachelor of Arts.
Strange I know but Oxford is a lot older than today’s ideas of ‘science’, and they were awarding BAs a long long time ago, they haven’t seen a good reason to change the title of their undergraduate degree.
Sorry to be a pedant.
Alanb says: “Could someone explain why the range 90 degrees North to 60 South has been used? It would seem to me to bias the results by keeping in the warming arctic and excluding cooling antarctic.”
Land surface air temperature measurements didn’t begin in Antarctica until about 1950 and they’ve been sparse since then. Sea surface temperatures in the Southern Ocean surrounding Antarctica were not measured regularly until the satellite era, which started in the early 1980s. I assume the same holds true for many of other variables used as input to the reconstruction.
Bryan A says: “I was going to point this out as well.”
See my above reply to Alanb.
Bryan A says: “Further, what happened to the extreme warming event (and subsequent Drought) that occured in the 1930′s? Or was this just a localized event?”
I believe that was primarily a US event. It wasn’t global by any means.
Rick Powell says: “Correct me if I’m wrong, but there are error bars on that first graph. That’s what the light blue envelope is, right?”
The answer should be yes. I haven’t read the paper due to the paywall, but the text for Figure 1, according to SkepticalScience is:
“Figure 1: Temporal comparison of near-global land (90°N–60°S) 2 meter air temperature anomalies (TL2m) between 20CR and station-temperature based estimates. Red curve: global TL2m anomaly series from CRUTEM4, black curve: the average of five additional station-temperature datasets, and blue curve: the 20CR. 95% uncertainty ranges are shown for CRUTEM4 (yellow fill) and 20CR (blue fill) and their overlap (green fill).”
After the fact PS: Also see the poster:
http://www.geos.ed.ac.uk/research/earthtemp/themes/1_in_situ_satellite/Sardeshmukh_EarthTemp_2012_Edinburgh_Poster.pdf
I’m glad that they’re at least trying to verify how dependable the surface temperature measurements are, but this seems to be their method:
1) Recognize that there is at least the possibility that conventional measurements are wrong.
2) Identify an alternative system of measurements that is more complex and has more intrinsic error.
3) Use the possibly flawed conventional measurements to calibrate the new method.
4) Get the same result with the new method that has been calibrated to the conventional measurements as with the conventional measurements themselves.
By calibrating to the new method to surface temperature measurements, they’ve already built those presumed errors errors into their method. Or to put it another way, their results could be summarized, “Independent Confirmation that Surface Station Temperature Measurements Reflect Surface Station Temperature Measurements”
Outcome Based Education formula:
Data + Climatologist = Hockey Stick