UPDATE: A good photo of one of the Russian stations has been found, see below after the “read more” link.
As most readers know by now, the problematic GISTEMP global temperature anomaly plot for October is heavily weighted by temperatures from weather stations in Russia.
GISTEMP 11-12-08 – Click for larger image
Like in the USA, weather stations tend to be distributed according to population density, with the more populated western portion of Russia having more weather stations than the less populated eastern areas such as Siberia. To illustrate this, here is a plot of Russian Weather Station locations from the University of Melbourne:
Click picture for larger image, source image is here
Interestingly, the greatest magnitude of the GISTEMP anomaly plot for October is in these mostly unpopulated areas where the weather station density is the lowest. While I was pondering this curiosity, one of the WUWT readers, Corky Boyd, did a little research and passed this along in email:
…Posters at Watts Up have commented on the ongoing consistently high anomalous temperatures from Russia. I have noticed this too. In light of the erroneously posted data for October, I took a look at the monthly NCDC climate reports back to January 2007. By my eyeball estimate the results from Russia are almost all on the high side. . Some I classified as very highs are massively high. Of the 21 months reported, only 2 appeared to be below average.
Category 2007 2008 (9 months)
Very high 6 4
High 3 1
Average 2 3
Low 0 1
Very Low 1 0
Is there a way to validate or invalidate GISS data by comparing it to RISS? Does it strike you as odd that the verifiably erroneous data has shown up in the same area that was suspect in the first place? Could there be a pattern?
Corky also sent along a series of images depicting global near surface and ocean temperature anomalies from NOAA. Here is the most recent one from September 2008:
I was curious if indeed there was any pattern to the Russian anomaly, so I decided to animate the last year and a half worth of images. You can see this animation below. It is about 1 megabyte in size, so please be patient while it downloads.
Click for full sized animation
What I found interesting was that the January 2007 anomaly (the last time we had a “global heat wave”) was primarily in the northern Russian and Asian. According to January 2007 UAH satellite anomaly data, the Northern Hemisphere had a whopping anomaly of +1.08°C and the “northern extent” was even greater at +1.27°C, the largest anomaly ever in the Northern Extent dataset
Curiously though, the very next month, the Russian anomaly virtually disappears and is replacing with cooling, though a sharp boundary to warming now exists in Asia. It was as if somebody threw a switch in Russia.
Click for larger images
In March 2008, a very large positive anomaly returned in Russia, and again in April evaporated with the same abruptness as the Jan-Feb 2007 transition. Again almost as if a switch was thrown.
Click for larger images
Such abrupt repeated changes don’t seem fully natural to me, particularly when they occur over the same geographic location twice. I realize that two events don’t make a trend, but it is curious, given that we now have had a problem with Russian weather data again that caused GISS to announce the “hottest October on record”.
I also noticed that in the animation from the anomaly maps, there does not seem to be much of an anomaly in the summer months.
This made me wonder what some of those weather stations in Russia might be like. So I went to the Russian Meteorological Institute website at http://www.meteo.ru/english/
I know from John Goetz work as well as this artcle in Nature that Russian weather stations had been closing with regularity due to the trickle down effects of collapse in the former Soviet Union. Though some new ones are being built by outside agencies, such as this one sponsored by NOAA in Tiksi, Russia.
Click for a larger image
What I found interesting in the NOAA press release on Tiksi, was this image, showing weather stations clustered around the Arctic:
Click for a larger image
The interesting thing is that all these stations are manned and heated. The instruments appear to be “on” the buildings themselves, though it is hard to tell. One wonders how much of the building heat in this tiny island of humanity makes it to the sensors. The need for a manned weather station in the Arctic always comes with a need for heat.
I was hoping my visit to the Russian Meteorological institute website might have some particulars on the remaining weather stations that have not been closed. I didn’t find that, but what I did find was a study they posted that seems to point to a significant warm temperature anomaly in Russia during winters between 1961 to 1998:
Fig. 1. Linear trend coefficient (days/10 years) in the series of days with abnormally high air temperatures in winter (December-February), 1961-1998.
From the Russian study they write:
For the winter period 1961-1998, most of the stations under considerations exhibit a tendency for fewer minimum temperature extremes. Maximum (in absolute value) coefficients of the linear trend were obtained in the south of the country and in eastern Yakutia.
Whenever I read about elevated minimum temperatures, I tend to suspect some sort of human influences such as UHI, station siting, or irrigation (humidity) which tend to affect Tmin more than Tmax.
In Northern Russia Siberia, I wouldn’t expect much in the way of irrigation. So that leaves station siting and UHI as possible biases. UHI seemed doubtful, given that many of these Russian Stations in Siberia are in remote areas and small towns.
So I decided to put Google Earth to work to see what I could see. One of the stations mentioned in a recent post at Climate Audit cited the station of Verhojansk, Russia, which has temperatures conveniently online here at Weather Underground.
From the Navy Meteorological exercise I found that Verhojansk has a wide variance in temperature:
Verkhojansk is located in a treeless shallow valley. There is snow on the ground during winter months; it melts in the spring. Verhojansk experiences the coldest winter temperatures of any official weather station outside of Antarctica. Verhojansk has Earth’s most extreme temperature contrast (65oC) between summer and winter. Which of the following indirect factors contribute to this extreme seasonal variation?
From the GHCN station inventory file at NCDC I found that Verhojansk, Russia had a lat/lon of 67.55 133.38 which when I put it in Google Earth, ended up in a mud flat. The Google Maps link from Weather Underground was no better, also off in a field.
Looking in NCDC’s MMS station database yeilded better luck, and I found a more precise lat/lon of 67.55,133.38333 There was very little other helpful information there on the station.
The station appeared to be located in town, though I have no way of verifying the exact location. The lat/lon may be imprecise. But something curious popped out at me as I was scanning the Google Earth image of Verhojansk looking for what might be a weather station – it looks like pipes running across the surface:
Click for larger image
These “pipes” appear to go all over town. Here is a closer view, note the arrow to what I think might be the weather station location based on the fencing, objects on the ground that could be rain gauges or shelters, and what looks like an instrument tower:
Click for larger image
I was curious about what these pipes could be, it certainly didn’t look like oil pipelines, and why where they so close to houses and building and seem to network all over town. Doing a little research on Russian history, I found my answer in the pervasive “central planning” thinking that characterized Russian government and infrastructure. It’s called “District Heating“
From Wikipedia:
District heating (less commonly called teleheating) is a system for distributing heat generated in a centralized location for residential and commercial heating requirements such as space heating and water heating.
But for Russia there was this caveat:
Russia
In most Russian cities, district-level combined heat and power plants (Russian: ТЭЦ, Тепло-электро централь) produce more than 50 % of the nation’s electricity and simultaneously provide hot water for neighbouring city blocks. They mostly use coal and oil-powered steam turbines for cogeneration of heat. Now, gas turbines and combined cycle designs are beginning to be widely used as well. A Soviet-era approach of using very large central stations to heat large districts of a big city or entire small cities is fading away as due to inefficiency, much heat is lost in the piping network because of leakages and lack of proper thermal insulation [10].
I should also point out that district heating is not limited to Russia, but is in many northern European countries. It seems quite prevalent in cold Euro-climates, and even extends into Great Britain.
So I searched a bit more, and found some pictures of what Russian district heating looks like from the ground. Here is one from Picasaweb from somebody’s trip to Russia:
Click for source image.
Note the pipes in the photo above are not insulated.
I also found a very interesting picture of steam pipes, also uninsulated, from a trip report to the “hot zone” of Chernobyl:
And finally a picture of Krasnoyarsk thermal power station Number 1 that has recently been in the news, according to Reuters due to a burst steam pipe:
Click for larger image – Note the pipes coming out to the left of the power station. You can see steam pipes around the city in this Google Maps view here.
So all this begs the question:
If Russian weather stations are located in cities that have this district heating plan, and a good percentage of the pipes are uninsulated, how much of the waste heat from the pipes ends up creating a local micro-climate of warmth?
Remember when I said that the NOAA map anomalies centered over Russia seemed to be prevalent in winter but not summer? It stands to reason that as winter temperature gets colder, more waste heat is dumped out of these inefficient systems to meet the demand. Basically, we have an active UHI situation in the city that increases in output as temperatures drop.
In the areal photos above of Verhojansk, it appears that some pipes are insulated (white, what appears to be main lines) while others are rust brown, and appear near buildings and dwellings.
I got to thinking about why these pipes might be uninsulated. First there is the classic inefficiency and carelessness of Soviet workmanship, but another thought occurred to me: Russian people might like it that way. Why? Well imagine a place where you walk to the market every day, even in subzero temperatures. Since many of these pipes seem to follow streets and sidewalks, wouldn’t it be a more pleasant walk in winter next to a nice toasty steam pipe?
Steve Mcintyre wrote about this station at Climate Audit, citing a puzzle in the data, here is an excerpt of his post:
Verhojansk
Now there are many puzzles in GHCN adjustments, to say the least, and these adjustments are inhaled into GISS. Verhojansk is in the heart of the Siberian “hot spot”, presently a balmy minus 22 deg C. The graphics below compare GISS dset0 in the most recent scribal version to GISS dset 2 (showing identity other than small discrepancies at the start of the segment); the right compares GISS dset0 to the GHCN-Daily Average.
Over the past 20 years, the GISS version (presumably obtained from GHCN monthly) has risen 1.7 deg C (!) relative to the average taken from GHCN Daily results.
Left- GISS dset 2 minus Giss dset0 [[7]]; fight – Giss minus GHCN Daily
What causes this? I have no idea.
Maybe it’s the steam pipes. We need to send somebody to Russia to find out. Of the many station lat/lons I looked at, Verhojansk was the only one I found with enough Google Earth resolution to see the steam pipes. Maybe the heart of our Russian temperature anomaly lies in central heating.
George Costanza could be right.
UPDATE: The photo below shows the Verhojansk Meteorological station and it’s instruments. Hat tip to Jeff C. for the photo below:
Direct URL to the photo above here
Note the cable going to the Stevenson Screen suggesting automated readings. Also note the vertical plume at left.
The station can be seen from Google Earth here
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Russians have always been a bit backward and perhaps uncultured, what?
Anyway. Why do Australians care about Polar Bears? It’s not as if Ozzies spend much time in Antarctica Polar Bear watching, eh? In Canada, we don’t spend a lot of time watching our penguins either.
Remember, Alarmist true believers insensibly twist facts to fit the theories, instead of twisting theories to fit facts.
Leif Svalgaard (15:50:55) :
The solar wind goes through a cycle like the sunspots and is high every 11 years and low every eleven years, and show no detectable long-term trend.
Maunder Minimum.
Finnegan says:
Unfortunately the Bundy Bear would not agree.
Lucy Skywalker (17:23:53) :
(Usoskin etc) the Sun had showed a high level of activity not seen for a long time – and that this applied to both TSI and magnetic flux
Usoskin et al. are fighting a rearguard action to keep the long-term trends in the picture. The general feeling is that there are no long-term term trends. E.g. for the magnetic flux:
GEOPHYSICAL RESEARCH LETTERS, VOL. 35, L20108, doi:10.1029/2008GL035813, 2008
Conservation of open solar magnetic flux and the floor in the heliospheric magnetic field
M. J. Owens et al.
Abstract
The near-Earth heliospheric magnetic field intensity, |B|, exhibits a strong solar cycle variation, but returns to the same “floor” value each solar minimum. […] In this study we assume heliospheric flux consists of a constant open flux component and a time-varying contribution from CMEs. In this scenario, the true floor is |B| with zero CME contribution. Using observed CME rates over the solar cycle, we estimate the “no-CME” |B| floor at ∼4.0 ± 0.3 nT, lower than previous floor estimates and below |B| observed this solar minimum. We speculate that the drop in |B| observed this minimum may be due to a persistently lower CME rate than the previous minimum, though there are large uncertainties in the supporting observational data.
Received 26 August 2008; accepted 29 September 2008; published 30 October 2008.
—–
Our previous estimate was 4.6 ± 0.5 nT, so they basically agree with us (4.0 ± 0.3 nT is not statistically different from 4.6 ± 0.5 nT).
Harold Ambler (19:59:27) :
“shows no detectable long-term trend.”
Maunder Minimum
Right now, the Heliospheric Magnetic Field is very likely what it also was during the MM. [c.f. above cite].
So you can cross off the MM, unless you are an AGW client and need the Sun to be cooler then to explain the LIA, in which case you are a lost cause 🙂
FWIW, I spoke to a friend of mine from Siberia today and she said a couple of things:
1. In general a lot of the piping was deep underground, so that it would be below the depth that the soil freezes.
2. However, when the pipes come above ground it is fairly warm near them ( the snow melts around them and you can feel it). In fact, she said that in Siberia they would run water at much higher temperatures than in warmer parts of the old Soviet Union, so you would expect a stronger warming for stations in Siberia if they are near those pipes.
RE: Jeff C.
Great photo find!
I looked at your linked photo and do not see any path through the snow to the Stevenson’s Screen, although other paths to other instruments are visible.
http://www.arcticphoto.co.uk/supergal/rv/rv00/rv0021-13.htm
Anthony, Any thoughts on this?
REPLY: It looks like the station is automated, note the wire to the screen. Also note the quad yagi antenna on the building rooftop, which is used for satellite communications. Since we can get hourly data from the station on weather underground, it is a safe bet that we have automation there.
Note also the plume to the left…somethings warm, steam, hot water, fireplace. Also with the sat antenna on the roof, it is a safe bet that this station is heated to keep the equipment from dying in subzero weather. so based on the sat image here:
http://maps.google.com/maps?f=q&hl=en&geocode=&q=67.5418,133.394&sll=67.541708,133.393979&sspn=0.011246,0.039568&g=67.5418,133.394&ie=UTF8&ll=67.541806,133.393979&spn=0.011246,0.039568&t=h&z=15&iwloc=addr
and the photo, I’m going to assign this station a preliminary CRN3 rating. It may possibly rate a 4 (heated building within 10 meters) but I need more data and photography to be sure.
-Anthony
Just another data point for fast temperature change, from early 1962, at Fort Carson, near Colorado Springs, Colorado, USA, on the eastern edge of the Rocky Mountains. I observed a change from -9 F to +38 F in 90 minutes.
Y’know, my research is gradually convincing me that the overwhelming majority of the Siberian cities were heated with hot water and not hot steam. I don’t find anything describing steam pipes around Siberian cities in general, and there would be many reasons to argue against them (cost and danger, for starters).
Everything I’m reading says there is hot water provided, usually from waste heat in the power plants, which is circulated in the pipes under discussion in Siberia. This hot water is used in radiators for room heat, and also provides hot water for the sink and bath.
My SWAG* is that there are more BTUs burned in Siberia today than in 1980, and more in 1980 than in 1940.
Best to all,
w.
*Scientific Wild Assed Guess”
Meant RSS, sorry. I’m used to using RMS for root mean quare, so my fingers went the usual way I guess. One of my problems with this “explanation” is: since the collapse of the communist government, city-wide centralized heat systems tend to disappear in favour of the type of systems we have here. This is also correct for most of the Eastern Europe, including Berlin itself where the heating system is still in place but not used anymore. And why would this hold for remote russian stations and not for remote polish, romanian, ukrainian, and so on stations?
I think the Bundy Bear might be a little lost on Mr/Mrs Finnegan as I don’t think he/she is Australian somehow, referring to us as “Ozzies”. It’s “Aussies”, Finnegan, using the first three letters of our country’s name. Appears Canada has the good fortune to claim Finnegan as one of its own.
Leif, thanks, prompt as ever, appreciated. However, I’m not convinced with your dismissal of Usoskin but it will have to wait!
A further data point show steam is widely used. Live and learn.
SOURCE:http://books.google.com/books?id=OMFqrBHezD8C&pg=PA144&lpg=PA144&dq=siberia+steam+heating&source=bl&ots=E9IqKY0zHH&sig=IKyaZupksTMpFAzNan58EBKKudA&hl=en&sa=X&oi=book_result&resnum=10&ct=result#PPA146,M1
Larrison:
If it was last spring you were in Archangelsk, the cold indoors was not because they had turned the heat off, it was the central heating plant that had broken down. Everybody was complaining about the cold.
Bet that cable to the screen is not for automated instrumentation but for a light. Most of the winter is dark there and flashlights work poorly at very cold temperatures. Presumably they only turn it on for readings?
Dr. Svalgaard writes: “Right now, the Heliospheric Magnetic Field is very likely what it also was during the MM. [c.f. above cite].
So you can cross off the MM, unless you are an AGW client and need the Sun to be cooler then to explain the LIA, in which case you are a lost cause :-)”
Well, the faintly ad hominem response lets me know I’m getting somewhere.
Dr. Svalgaard: You have written many posts on this site suggesting that the LIA is not related to the Maunder Minimum or any other solar minimum during the period 1300-1850. You have even gone so far as to suggest that Dr. Jack Eddy, who named the Maunder Minimum, now regrets associating the Sun with climate trends. According to a conversation I had with him last week, he does not. He is, on the other hand, fighting stage four cancer, and I hope all who admire him and are so inclined will keep him in their prayers.
Here is Dr. Eddy’s best published quote on the unconstant nature of the Sun: “In time I realized that there was a more profound and philosophical message in the Maunder Minimum: that people want the Sun to be more constant and regular than perhaps it is.”
I understand, Dr. Svalgaard, that I won’t convince you of the scientific insight that led Dr. Eddy to study the Little Ice Age and name its most significant solar minimum. I do think it is important, however, for other readers of this site to get to make up their own minds about this.
As I have pointed out before, Dr. Henrik Svensmark’s penetrating analysis of cloud formation with respect to galactic cosmic rays is without equal when paired with the geologic record of past ice ages, including the Little Ice Age. Anyone contemplating Dr. Eddy’s work and Dr. Svensmark’s work, together with the best studies done by cutting-edge solar physicists of the moment (certainly including yourself, as well as Livingston and Penn), would be well-advised to consider the next half century likely to be a time of cooling.
I respect the fact that you adhere with such passion to Anthropogenic Global Warming climate modeling. In particular, I respect the fact that you clearly feel that you are serving humanity by dissuading readers at this site of a solar-climate connection that could raise doubts about the power of C02 to drive climate, given your position that there is limited time available to change the equation here on Earth.
While we can agree to disagree for the moment — hopefully respectfully — about the Sun-Earth climate connection, I think it should become clear as we wind our way through a relatively quiet Solar Cycle 24 and work our way into an even quieter Solar Cycle 25 that not even the negative Pacific Decadal Oscillation will be able to explain the significant drop in temperatures around the globe.
I would like you to know, in case it matters to you, that I am a lifelong environmentalist. I believe in a powerful EPA, with its teeth left in, to protect American water, air, and land. I believe in limiting particulate pollution whenever possible.
I don’t believe in a Cap and Trade system that freezes severe economic injustices in place (First World continues to live it up while Third World remains in the Stone Age) that also happens to spend money on a non-problem, i.e. warming, when a real problem, i.e. agricultural and energy challenges posed by the coming cooling and rising population in this country and elsewhere.
Last paragraph of my last post should read:
I don’t believe in a Cap and Trade system that freezes severe economic injustices in place (First World continues to live it up while Third World remains in the Stone Age) that also happens to spend money on a non-problem, i.e. warming, when a real problem, i.e. agricultural and energy challenges posed by the coming cooling and rising population, requires true leadership and vision on the part of all concerned.
District heating is the way it is done in Russia especially in Siberia. People don’t have their own furnace, the heat is centrally controlled and turned on or off at a central location, and yes the pipes generally run above ground and probably lose far more heat than they deliver. I have no idea how big the effect would be in terms of UHI and of course most would hope it was a big effect especially the people who live there.
Anthony, this is the contact info from the host site in case you wanted to try to get a higher res version of the Verhojansk image. I thought that Stevenson Screen was very interesting. It has some sort of device/motor/cannister mounted under it with a cable or hose coming into it.
Bryan and Cherry Alexander Photography
Higher Cottage
Manston
Sturminster Newton
Dorset DT10 1EZ
England
Telephone: +44 (0) 1258 473006
Fax: +44 (0) 1258 473333
Email: alexander(at)arcticphoto.co.uk
Great Work!
Well done.
Your article reminded me of a story about district heating that appeared in Anna Politkovskaya’s book Putin’s Russia. Page 145
A very sad story about an 80 year old man who was found dead in his flat frozen solid to the floor boards. The district heating didn’t work but that was not unusual. The death of a war veteran was not news worthy; neither were the deaths of thousands of others who died in similar circumstances in the winter of 2002/3. The story goes on to explain that district heating did not work and it was considered a bit of a joke. Maybe more of a joke in Moscow than in Siberia.
Guess the Russian have got around to fixing the district heating systems.
Think it might explain why average Siberian temperatures were still low over the past years and only now the affects of district heating are been seen and judged to be Global Warming.
I’ve also been using Google Earth to try and locate the Verkhojansk met station. I’m not convinced that the posted Panoramio location is correct.
I can see two buildings, but they have the wrong shape, one does have an aeriel.
The buildings at the position given in the article look odd, yet it could just be a question of scale. I really do not know the size of the buildings. I could always get the slide rule out and do a few calculations. Yes there are shadows cast by large “aeriels” or something.
To the north of Verkhojansk there is a site which has one building in a large rectangular “field”. The building casts quite a shadow. This building has a number of smaller – white coloured – constructions on the site. Stevenson Screen? Across the road there is a larger “newish” building.
Again great stuff.
I’m looking forward to see the BBC news tonight, I’m sure that they will tell the world that global temperatures are not increasing and it has all been one big mistake.
Dream on!
Position:-
67°33’36.51″N
133°23’50.51″E
Anthony,
You made the drudgereport and uk telegraph … Congratulations. Your hardwork is getting noticed big time.
Check out the temperatures in Norilsk does it realy get this warm in the Russian Arctic during November?
http://www.polarwebcam.com/
Real Weather in Norilsk. Weather station Davis Vantage Pro2
Time on the Station Outside Temperature High monthly Outside Temperature Low monthly Outside Temperature
9:44 23.2 °C 23.8 °C -2.2 °C
Wind Direction Wind Speed High Wind Speed Wind Chill
NNE 0.0 m/s 3.1 m/s 23.2 °C
Barometer 3-Hour Barometer Trend Outside Humidity Current Moon Phase
751.1 mm Rising Slowly 44 % First Quarter
Current Weather Forecast
Mostly cloudy and cooler. Precipitation possible within 12 hours, possibly heavy at times. Windy.
The weather information updates every 20 minutes
Why is the outdated and extremely low temperature period from 1961 to 1990 still used as the climate average. The technology is out there to use a 100 year climate average which we now know is much more accurate a measure of climate rather than the 30 year model which was developed in the early 1950’s.
This would include the 1930 – 1950 period which was as warm as the last 15 years and level out a lot of high and low peaks that are actually minor anomolies.
What is interesting to me is that the weather station seems to be very close to the power plant!
I think you are correct in you identification of the heating pipes. They are also common in some US cities (such as New York) and some industrial and academic campuses. I am less certain about your ID of the weather station, but it seems logical that it would be placed near the power plant, and the power plant is easy to ID by the source of the largest pipes. So even without these assumptions, one has to be very concerned that the weather stations in an area with centralized heat plants are useless.
There also seems to be a pond of some type next to the station which I would investigate since it may be a cooling pond for the power generation portion of the plant.
here is a google maps link to a similar town (Batagay) with snow cover.
http://maps.google.com/maps?q=67.56999969,133.39999390&ie=UTF8&t=h&ll=67.649699,134.682941&spn=0.002815,0.00957&z=17
From this picture the pipes do not appear to be throwing off a lot of heat (as I would expect since they they would simply have to be insulated) but we don’t even know if the central heat is operating when this photo was taken.
We can also see that the area near and to the west of the power plant does not have snow cover. This may be due to the river (canal?) or UHI or maybe even just topography.
I would guess that there is another weather station near the power plant, but it is impossible to see in this photo due to poor contrast.
Just to the East is the main city which clearly shows UHI but without the snow the contrast is terrible and you can’t see much else.
Here is another photo of a Russian city (Khayysardakh) clearly showing UHI, but I can not see a power plant, and did not check for weather station.
This could be good timewaster — (1) look for Russian city with high resolution image available (2) identify power plant by location of (a) runoff pond, (b) smoke stacks, or (c) origin of steam pipes. (3) Near power plant search for weather station. (4) Check if weather station is on NCDC database.