Much importance has been ascribed to tracking the change in Arctic sea ice, but what about the global trend? That doesn’t seem to get much press. However there is some important information that needs to be presented related to the global trend of sea ice as measured by satellite since 1979. The results are surprising. – Anthony
Source: NASA’s Aqua satellite – click for larger image
A guest post by Jeff Id, from The Air Vent
2nd Update 12/24/08 It turns out that an error in documentation at NSIDC is the cause, see this new post for a full explanation.
Update and correction:
To my readers, Anthony Watts received a comment from our friend Tamino on the ice data I used for the area analysis. Unfortunately for me he is right this time. It appears that a correction to the data is required prior to 1987 which will create an approximate negative trend of 0.88 million sq kilometers per 30 years. It is a fairly small trend in the scheme of a 20million sq kilometer signal, but understand this mistake is entirely mine and is unrelated to Anthony Watts excellent blog.
Unfortunately the change makes the Area signal difficult to determine prior to 1988 because the percent fill is unknown. Anthony cannot check every detail of a post which took me days of research and he simply requested if he could copy it here.
The link to my corrections is:
http://noconsensus.wordpress.com/2008/12/16/sea-ice-decreases-despite-the-air-vent/
My apologies.
Jeff Id
I calculated a true global sea ice anomaly in this post using the National Snow Ice Data Center data. What would you say if I told you that over the last 30 years the sea ice area has stayed flat or even trended — Up!!!???
This isn’t a small deal. We have been told, well screamed at really, that CO2 is causing unprecedented rise of temperature on a global scale. We hear constantly that the ice is melting and the result will be dramatic flooding of the earth; movies have even been made. Those of us who pay attention to the scientists have heard that the most significant warming will be at the poles (according to the computer models). We also hear that the Antarctic has added ice during the same time the Arctic lost sea ice. This is explained in that the Antarctic ice increase is a local situation and the Arctic ice loss is a result of global warming. A unique form of cherry picking but should be treated with an open mind.
If you’ve been paying attention, you have heard that the net ice level is going down. The Antarctic gain cannot compensate for the Arctic loss. Well, I set out to see how bad the situation is.
First, anthropogenic global warming scientists use two measures, extent and area.
Extent looks at all the square Kilometers (Km^2) with more than 15% ice in them and adds them up.
Area looks at all the square Kilometers (Km^2) with more than 15% ice in them and adds them up but multiplies the Km^2 by the amount of ice in the square kilometer. i.e -(if you have 1 Km^2 of sea filled 15%, ice- extent counts it as 1Km^2 while area counts it as 15% of 1Km^2 or 0.15Km^2)
This post deals with the amount of sea ice so I used Area. In the future Iwill do it with extent. The NSIDC uses two algorithms for calculation of sea ice, nasateam and bootstrap. We will look at both here.
Without modification the NSIDC data for bootstrap runs from 1978-Dec. 2006 and the nasateam runs from 1978-Dec 2007, these near 30 year trends comply close enough with current science which states (conveniently) that climate requires a 30 year trend to see the result.
This is a graph of the global sea ice area from the nasateam algorithm.
The red line is the slope of the global sea ice data from nasateam in its raw format. The slope is negative by only 6803 Km^2/year and the mean is 18,290,000 km^2.
We should look at sea ice anomaly to be the most accurate for trend. To calculate sea ice anomaly I took the average shape of the annual signal and subtracted it from the curve above.
The average ice variation globally looks like this on an annual basis.
I subtracted this curve above to get the sea ice anomaly.
The downward slope of this graph is more extreme but the scale is highly magnified. The net downslope in 30 years of global warming is – 10173Km^2/year. Over 29 years of data this means that we have lost 302025 Km^2 of ice. This is a 1.65 percent drop in global ice level in 30 years. Remember though that this data ended on an extraordinary high melt year of 2007, the ice level can be seen recovering in dec 07 leading into 2008. This shows as a slight change in slope of the very tip of the first graph (a subtle, difficult to see effect).
Well NSIDC recommends using the Bootstrap algorithm for research instead of Nasateam because of certain errors which have been corrected for.
The bootstrap algorithm plot for global data looks like this.
The red line is slope again, and this time it is positive, indicating an increase in ice level from 1978-Dec 2006. The slope of the red line is plus 6341 km^2 per year indicating that the earth in 28 years has added 177,000 sq kilometers of ice with a mean ice level of 20.42 million Km^2.
The anomaly is better for calculating trends because it cleans up the end points making the slope insensitive to the start and stop point of the annual cycle.
The up trend for the anomaly in sea ice from 1978 to end 2006 is 804Km^2 per year. Which in our timeframe the preferred bootstrap algorithm says the earth ADDED 22,000 Km^2 of ice area!!
Here are the anomalies rescaled to actual by adding the mean of the original data back in.
Obviously people cannot make the claim that sea ice is being lost. It isn’t. The data shows that our trend is basically flat during this time of unprecedented temperatures. It’s clear that there has been no significant change in sea ice area.
This is almost enough to make me turn in my Skeptic union card, but increased CO2 warming the earth makes some sense to me, the magnitude is in question. The fact that polar sea ice not melting is not an insignificant point. It is also important to realize that the changes are too small to fit with IPCC statements about the trend. Unlike trees, ice does make a good thermometer. I can’t say this strongly enough— This is a strong indication of substantial errors in the computer models and temperature data which needs to be addressed before we throw what’s left of our global economy to the wind. How would Earth’s total sea ice ignore such substantial warming? It’s a good question which deserves an answer.
I will update this when new data becomes available and will also attempt to demonstrate that the net slopes we see are within the margin of error for the measurement in a future post. In the meantime, lets let the world know the truth. We aren’t going to drown any time soon!
————————
I had a request for description of the difference between the bootstrap and nasateam algorithms. It is a bit complex but it seems well documented on the NSIDC here are a few links and descriptions from that site. From FAQ section.
2. What is the difference between the NASA Team algorithm and the Bootstrap algorithm?
For general analyses or creation of simple images, either algorithm will suffice. The Bootstrap sea ice concentration data set is believed to be more useful for modeling and process studies in the polar regions because it is generally free of residual errors that could not be removed by conventional techniques. A temporally more consistent time series of sea ice concentrations is provided, offering improved accuracy over the ice concentration maps created from the original Bootstrap algorithm.
More interesting to me was the table provided which shows the strenghts and weaknesses of each process. The original table is at the link above.
For more details and complete descriptions NSIDC provides two links Bootstrap and Nasateam
HERE is a link to the R code to make the above graphs.
Data sources:
ftp://sidads.colorado.edu/pub/DATASETS/seaice/polar-stereo/
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RE: Eric (10:42:39)
The right way to do this is to offset the Antarctic and Arctic statistics by 6 months if you want to look at winter versus summer trends on one graph by year.
Eric, are you sure that offsetting those 2 series will produce negative trend? Somehow I doubt that simple phase shift in 2 oscillating data series will suddenly produce trend where there was none before.
I might be wrong, but you have to actually do it and prove it if you want me to believe you.
The flatness is really impressive. Could it be that it is meaningful ? Is there any kind of explanation that could suggest that this is more than a coincidence ?
All this global warming talk looks to me as a business strategy of the Gores.
Ben: your
The flatness is really impressive. Could it be that it is meaningful ? Is there any kind of explanation that could suggest that this is more than a coincidence ?
Pielke Sr has the melt seasons for the Arctic and Antarctic, using minimum and maximum ice dates, and these graphs are also remarkably flat.
http://climatesci.org/2008/12/08/are-there-long-term-trends-in-the-start-of-freeze-up-and-melt-of-antarctic-sea-ice/
http://climatesci.org/2008/12/04/are-there-long-term-trends-in-the-start-of-freeze-up-and-melt-of-arctic-sea-ice/
I find the ice mass a potential red herring. Since ice can sublime and we know from the discussions on glaciers that they can grow or shrink with percipitation, simple mass would not be appropriate. Ice extent/area does appear to be the correct metric for our discussion. Since the water will turn to ice, as Jeff ID has pointed out as ice is a good temperature measurement. The atmospheric pressure does not change at sea level enough to change the freezing point of sea water that can be measured except in a most exacting laboratory experiment. Also, with the elevation changes in Antartica, there are known precipitation/elevation problems. Once again, the proper metric would be area/extent.
Robinson (04:13:47) :
I’m starting to wonder how so many smart people can be so stupid for so long.
[…]
Do we sceptics all think about this problem with a different region of the brain to the warmists? The fallacy of CO2 based anthropogenic global warming is so self-evident, I’m wondering if such a difference in perceptual capabilities might explain it.
Get a copy of “Memoirs of Extraordinary Popular Delusions and the Madness of Crowds” by Charles Mackay. Would you pay the price of a house for a tulip bulb? People did during the tulip mania. Believe the computers of the world would halt on Y2K day?…
It doesn’t have to do with the thinking part of the brain, it has to do with the emotional part. Intelligence is orthogonal. The witch burners of New England were fairly smart, but delusional (imho). The only thing I’ve seen is a somewhat higher emotional sensitivity in the AGW folks. Less self control.
This mania is just one more in a very long string. There is something in the human nature that requires herd behaviour. Add to that the fact that folks LOVE to panic. Stir with some self interested greed and power lust on the part of a few ‘leaders’ and season with some mild self delusion on the part of a few ‘scientists’. Shake with media fear and pour yourself a tall one of madness.
There are a few people, a small percentage, that doesn’t mind looking someone in the eye and saying “Pardon me sir, but you seem to be nuts.” Or “Thank you, but no, I don’t want a car with fins or a Neru Jacket or a Leisure Suit or short hair in ’50s or long hair in the ’70s or…” Very very few.
They are derided during these manias. Sometimes killed as heretics. There are a few people who don’t get caught up in the emotional fervor. A broken emotional center? A good self discipline? Self confidence? It is hard to tell one from the other some times … (” I am not a number …”) Society desperately needs these folks, yet often despises them, until the mania ends.
Thus we get the Tech Bubble. The Housing Bubble. Gold bubbles every decade or two. etc. etc. Hula Hoops and Pet Rocks. Jonestown. One of the hardest things to do in investing is to remember to “Be greedy when others are fearful and fearful when others are greedy.” Very few can move against the herd (and fewer still can do it at the right time…)
Either way my (and public) trust in science is set to take a nose-dive. It’s a profoundly depressing situation.
Yes. Made especially so by the fantasy that scientists are emotionally neutral and dispassionate searchers for truth. That they are often motivated by political needs, social rank seeking, money, fame, fear, greed, anger and spite, and all the other failings of humans comes, some how, as a shock.
The king and queen have sex and go to the bathroom like everyone else; but we would be shocked to see it. The public is about to see a bunch of scientists having a brawl and food fight and flinging poo over who lied to them the most. They will not react well… But that is human nature.
The best advice I can give is to find a nice seat a bit back from ringside, wear a rain slicker, stock up on the beverage of your choice, and enjoy the show. You can’t leave the theatre anyway…
Great analysis Jeff,
I think separating the impact between the hemispheres is also important and we should try to see if we can find natural variation that is not the result of global warming.
I note the global warming models used to say that the Antarctic would be affected just as much as the Arctic by warming. When they saw that there was no warming happening in the Antarctic and they realised they couldn’t “adjust” the temperature records in the Antarctic (because they were carried out properly by scientists on-site) like they did in the Arctic, they changed the models to show less warming in the Antarctic (even though there is no logical reason for CO2 to impact the Antarctic less that Arctic.)
We are heading into the Antarctic melt season and there will soon be more media hype about rapid Antarctic ice shelf collapse.
The NSIDC has finally improved their website and there is a new section where one can view “really good” close-up satellite pics over the last several years for all the major Antarctic ice shelves. The current pics of the Wilkins’ ice shelf show the ribbon connecting to the (some) island will likely collapse completely this melt season and it will be cited as the final proof for global warming.
http://nsidc.com/data/iceshelves_images/
In case they start fooling around like the NSIDC seems to do occasionally, here is the FTP site where the Raw images are stored.
ftp://sidads.colorado.edu/pub/DATASETS/ICESHELVES/
Pamela Gray (06:03:17) :
By the way, I know who took the ice from up North. Oregon. The new Arctic.
BRRRRRRRRR!!!!!!!
You are just jealous of the snow near Los Angeles! (Grapevine Interstate 5, and I15 between L.A. and Las Vegas closed due to snow at about 3000 feet, etc. etc.)
So its snowing in the deserts of southern California, it just has to be due to Global Warm [ SLAP SLAP ], er, climate change…
/sarcoff>
Philip_B says:
Are you sure about that. I though that the GHG in question was pretty poor at absorbing SWR (the incoming stuff) but pretty good at absorbing certain frequencies of LWR (the outgoing stuff) and re-radiating half of it back down, or warming N2 and O2 in the atmosphere.
Re: Sea Ice extent decreasing
If you look at this comparison there does seem to be some reduction of sea ice near Russia (Siberia?) just near the Pacific entrance to the Bering Strait.
That seems to be about all that is possible. It seems that Hudson Bay will be completely frozen over soon as well.
MattN (13:03:55) :
“I can think of another reason that arctic summer ice is the talking point for AGW. I bet most of the people on this blog can think of another reason too. ”
Ohhh, ohhhh, Mr Kotter, Mr Kotter…..
Me ME ME! Mr Kotter….
Because it puts the problem 6 months further away before they have to admit it… hope springs eternal for another warm summer ???
Hey, there are at least three of us trying to get somebody to notice this:Dodgy Geezer (14:00:33) :
sven (23:44:02) :
What’s this? Has the arctic ice been melting?! In december?!
http://www.ijis.iarc.uaf.edu/en/home/seaice_extent.htm
Yup. I saw that as well. But no one seems fussed about it. I’m surprised that Anthony hasn’t picked it up….
Any explanations?
The only time the Arctic ocean or Antarctic ocean is a net absorber of radiation from the sun is in midsummer. This is a result of the length of the day.
That is why a reduction in reflectivity is going to affect the radiation balance more at that period of the year.
http://cimss.ssec.wisc.edu/wxwise/gifs/NETALL.mpg
Excellent entry Jeff. Thanks.
Also notice the step change near Jun/July for all years? What are the odds of that happening?
To my readers, Anthony Watts received a comment from our friend Tamino on the ice data I used for the area analysis. Unfortunately for me he is right this time. It appears that a correction to the data is required prior to 1987 which will create an approximate negative trend of 0.88 million sq kilometers per 30 years. It is a fairly small trend in the scheme of a 20million sq kilometer signal, but understand this mistake is entirely mine and is unrelated to Anthony Watts excellent blog.
Unfortunately the change makes the Area signal difficult to determine prior to 1988 because the percent fill is unknown. Anthony cannot check every detail of a post which took me days of research and he simply requested if he could copy it here.
The link to my corrections is:
http://noconsensus.wordpress.com/2008/12/16/sea-ice-decreases-despite-the-air-vent/
My apologies.
Jeff Id
Jeff Id:
Don’t worry about Tamino. To paraphrase Bill Clinton: Tamino can’t be wrong all the time.
He’s just wrong about his AGW/CO2/runaway globaloney theory.
[Great post, BTW.]
Richard Sharpe, GH gases, particularly CO2, do block some incoming solar radiation, although it is much less than the outgoing LWR blocked.
http://en.wikipedia.org/wiki/File:Atmospheric_Transmission.png
I’m not the first to point out that we should see increasing minimum temps and a decreased diurnal range as the signature of GHG warming.
However, I’m not aware that anyone else has pointed out that we should see the equivalent effect on sea ice extent/area – decreasing winter maximum extent, decreasing annual melt range and no increase or even a slight decrease in summer melt.
Note the GHG diurnal effect is accentuated toward the poles where we have moreorless 6 months of daylight followed by 6 months of night.
The pattern of sea ice melt bears no resemblance to what an increasing GHG effect should produce and therefore it cannot be the cause.
I’ve been trying to think of a way to correct the post. Since we don’t know the percent area filled we can’t calculate the true slope. This applies to extent also but to a lesser degree.
So far, I can’t think of anything except separation of the pre and post 1987 data and using them alone. Perhaps I can find a way to expand the satellite hole in the modern record to calculate a trend but that doesn’t sound too easy.
My updated post has an exaggerated slope but by how much I don’t know. One other detail I really want to add is the 2008 data.
I will give applause to Tamino with the sound of one hand clapping.
I know that 20 years is a short time frame – but is there any discernable trend from 1988 to 2008?
Mind you – short timeframes have never blunted the AGW movement.
Philip_B (19:35:27) :
Richard Sharpe, GH gases, particularly CO2, do block some incoming solar radiation, although it is much less than the outgoing LWR blocked.
[…]
Note the GHG diurnal effect is accentuated toward the poles where we have moreorless 6 months of daylight followed by 6 months of night.
The pattern of sea ice melt bears no resemblance to what an increasing GHG effect should produce and therefore it cannot be the cause.
Perhaps this:
http://exp-studies.tor.ec.gc.ca/e/ozone/Curr_allmap_g.htm
has some bearing? Notice that ozone is about -10% to -30% deviation in the north pole and up to (down to?) -40% deviation in the south pole on 2008/12/13.
Given that O3 is a GHG and a significant % of GHGs … maybe the GHG folks are somewhat right. GHGs do matter, just not the way they think. The sun goes quiet, O3 plummets, the poles get really really cold and the rest of the planet starts to cool off fast?
Just call it the Smith Solar O3 Pump Theory if anything ever comes of it 😉
Wouldn’t be the first time folks had the right idea but the wrong sign. Something very similar happened in the early ice age theory leading up to Milankovitch final theory.
There are probably other errors in the data anyway. Here’s an article crowing about how POLENET is discovering new information about Antarctic continental ice (and models are wrong, surprise!).
http://www.sciencedaily.com/releases/2008/12/081215091013.htm
There is not enough data to have a trend so no AGW.
Jeff Id,
Surely you can RegEM infill the pre-1987 years!
😉