A new paper published May 15th in the the journal The Cryosphere utilizes 12 years worth of RADARSAT data to determine the rate at which some well known ice shelves in Antarctica have been moving and changing, and the answer is: “not much”. In fact it appears there has been a slowing down. First a map of Antarctica and the most worrisome Ross Ice Shelf (marked by the red x) is in order:
If you follow the alarmosphere and MSM related to the Ross Ice Shelf and others, you get these kinds of stories:
- West Antarctic ice sheet collapse even more catastrophic for U.S. coasts
- West Antarctic ice shelf – a nudge and a push from collapse?
- Antarctic ice shelves ‘tearing apart’, says study
- Antarctic Ice Shelf Disintegration Underscores a Warming World
Clearly, there’s lots of gloom and doom surrounding Antarctic ice shelves for the worry that they’ll cause catastrophic sea level rise if they cut loose.
This study Twelve years of ice velocity change in Antarctica observed by RADARSAT-1 and -2 satellite radar interferometry (Full paper here) with radar data seems to indicate there not much change in the past 12 years, the authors write:
Overall, however, the observed changes have little impact on the mass balance of the region. We therefore conclude that in contrast with their counterparts in the Amundsen and Bellingshausen Seas (Rignot et al., 2008) the ice streams and ice shelves in the broad region under investigation herein have not been changed in a significant way in the past 12 yr, which suggests that the ice dynamics of the entire region does not have a strong impact on the mass budget of the Antarctic continent.
That’s quite a statement compared to the news headlines. To paraphrase NSIDC’s Dr. Mark Serreze famous “The Arctic is screaming” quote, I suggest that from the perspective of the data presented in this paper, I’ll say “The Antarctic is snoring”.
Here are some highlights and graphics from the paper:
Fig. 2. Ice surface velocity maps for Central Antarctica for 1997 (a) and 2009 (b) overlaid on MOA. (c) shows the velocity difference dv (2009–1997) for the entire region. Superimposed on (c) are velocity contour lines taken from the IPY ice velocity map (Rignot et al., 2011b). Blue tones indicate a slow down. The two dark red regions on the ice shelf edges (Ross Ice Shelf near Roosevelt Island and Filchner Ice Shelf) indicate pre-calving events.
Twelve years of ice velocity change in Antarctica observed by RADARSAT-1 and -2 satellite radar interferometry
B. Scheuchl1, J. Mouginot1, and E. Rignot1,2
1University of California Irvine, Department of Earth System Science, Irvine, California, USA
2Jet Propulsion Laboratory, Pasadena, California, USA
Received: 13 April 2012 – Accepted: 29 April 2012 – Published: 15 May 2012
Abstract
We report changes in ice velocity of a 6.5 million km2 region around South Pole encompassing the Ronne/Filchner and Ross Ice Shelves and a significant portion of the ice
streams and glaciers that constitute their catchment areas. Using the first full interfero-
metric synthetic-aperture radar (InSAR) coverage of the region completed in 2009 and
partial coverage acquired in 1997, we process the data to assemble a comprehensive
map of ice velocity changes with a nominal precision of detection of ±3–4myr−1.
The largest observed changes, an increase in speed of 100myr−1 in 12 yr, are near the
frontal regions of the large ice shelves and are associated with the slow detachment of
large tabular blocks that will eventually form icebergs. On the Ross Ice Shelf, our data
reveal a slow down of Mercer and Whillans Ice Streams with a 12 yr velocity difference
of 50myr−1 (16.7 %) and 100myr−1 (25.3 %) at their grounding lines. The slow down
spreads 450 km upstream of the grounding line and more than 500 km onto the shelf,
i.e., far beyond what was previously known. Also slowing in the Ross Ice Shelf sector
are MacAyeal Ice Stream and Byrd Glacier with a 12 yr velocity difference near their
grounding lines of 30myr−1 (6.7 %) and 35myr−1 (4.1 %), respectively.
Bindschadler Ice Stream is faster by 20myr−1 (5 %). Most of these changes in glacier speed extend on the Ross Ice Shelf along the ice streams’ flow lines. At the mouth of the Filchner/Ronne Ice Shelves, the 12 yr difference in glacier speed is below the 8% level.
We detect the largest slow down with a 12 yr velocity difference of up to 30myr−1 on
Slessor and Recovery Glaciers, equivalent to 6.7% and 3.3 %, respectively. Foundation
Ice Stream shows a modest speed up (30myr−1 or 5 %). No change is detected on
Bailey, Rutford, and Institute Ice Streams. On the Filchner Ice Shelf proper, ice slowed
down rather uniformly with a 12 yr velocity difference of 50myr−1, or 5% of its ice
25 front speed, which we attribute to an 12 km advance in its ice front position. Overall,
we conclude that the ice streams and ice shelves in this broad region, in contrast with
their counterparts in the Amundsen and Bellingshausen seas, exhibit changes in ice
dynamics that have almost no impact on the overall ice balance of the region.
Introduction
Ice velocity is crucial information for estimating the mass balance of glaciers and ice
sheets and for studying ice dynamics. Satellite information has fundamentally changed
the way velocity information is collected today. Firstly, Global Positioning System (GPS)
5 has simplified the way ground measurements are made, allowing for high precision
measurements of key areas at dense temporal spacing. For detailed analyses of specific
motion patterns (i.e. Bindschadler et al., 2003), field measurements continue to be vital in glaciology (e.g. Aðalgeirsd ´ ottir et al., 2008). Secondly, spaceborne remote sensing satellites are a means to measure ice velocity without the necessity of ground campaigns. They allow data collection over vast areas, thereby providing information that would be practically impossible to collect in the field. Since the launch of the European ERS satellites in the early 1990’s, spaceborne Interferometric Synthetic Aperture Radar (InSAR) data have become the single most important means of measuring ice velocity. Projects and area coverage have evolved from single glaciers, over ice fields to most recently covering the vast ice sheets of Greenland and Antarctica (Rignot et al., 2011b; Joughin et al., 2011). InSAR satellite data coverage in Central Antarctica remains sparse. The first complete interferometric mapping campaign covering South Pole took place in 2009 as part of a coordinated acquisition campaign for the International Polar Year (IPY) (Jezek and Drinkwater, 2008).
In this paper, we present a new ice velocity map and a grounding line map based on
RADARSAT-2 InSAR data collected in fall 2009. We revisit and re-calibrate the InSAR
data collected by RADARSAT-1 in 1997. A difference map is created using the two data
sets to reveal for the first time changes in speed over a vast extent of Central Antarctica
in the 12 yr interim. After exposing the details of the data processing, we discuss the
25 changes observed along Siple Coast and the Filchner/Ronne sectors and conclude on
the ongoing evolution of glaciers and ice shelves in these regions.
Conclusions
We present a 12 yr change record in ice motion in Central Antarctica, covering the two
largest ice shelves and many major ice streams and glaciers. Data quality is excellent and provides ice motion results with a precision of ±2–3myr−1 on average and detection
of changes in speed with a precision of about ±3–4myr−1. Our change map provides new, important information about the evolution of this sector of Antarctica, or lack thereof. Filchner and Ross Ice Shelves exhibit signs of pre-calving events.
Other than those, the Filchner/Ronne sector shows few changes, with most ice streams slowing down slightly. The 12 yr velocity difference for all glaciers and ice streams in the region is below 8 %, which is of little consequence for the overall mass budget of the region. The most distinct signal, however, is a slight slow down of the Filchner Ice Shelf, consistent with an ice shelf advance, and a small slow down of Slessor Glacier over a large sector that warrants further study. On the Ross Ice Shelf, we confirm the slow down of Mercer and Whillans Ice Stream, with a 12 yr velocity difference of 16.7% and 25.3 %, respectively.
Our change map shows, for the first time, the entire spatial extent of the change. The slow down, extends hundreds of km upstream and onto the shelf. Regional variations in velocity changes on Ross Ice Shelf proper are defined by the ice streams and glaciers that constitute its catchment area.
Overall, however, the observed changes have little impact on the mass balance of the region. We therefore conclude that in contrast with their counterparts in the Amundsen
and Bellingshausen Seas (Rignot et al., 2008) the ice streams and ice shelves in the broad region under investigation herein have not been changed in a significant way in the past 12 yr, which suggests that the ice dynamics of the entire region does not have
a strong impact on the mass budget of the Antarctic continent.
Fig. 3. (comprising 5 graphs and 1 map above) Velocity Difference map (2009–1997) detail, 1997 and 2009 ice front, and flow line plots for Ross Ice Shelf overlaid on MOA. Each flow line includes markers every 100 km for easier orientation. The flow line graphs show the absolute velocities for 1997 and 2009 and the velocity difference. The vertical dashed line is the 2009 grounding line.
h/t to WUWT reader “HR”.
The expansion of the polar air masses whilst the sun reduced its activity levels after the peak of cycle 23 resulted in a relaxation of the westerly air flow around Antarctica which had previously been skimming ice away from the edges especially on the Antarctic Peninsula which projects out into those winds.
Zonal jetstreams show an enhanced and tighter such air flow around Antarctica and zonal jets are associated with high levels of solar activity on multidecadal and centennial timescales.
This report is further evidence that a climate regime change occurred around 2000 which was when I first noted that the poleward drift of the jets and the permanent climate zones had apparently ceased.
Since 2000 the jets and climate zones have begun an equatorward drift and in due course the effect on ocean heat content will become incontrovertible (unless the sun perks up again).
CT is at it again.. compare their ice area extent with norsex
http://arctic-roos.org/observations/satellite-data/sea-ice/observation_images/ssmi1_ice_ext.png
who do they think they are fooling.. and as usual the long pause when ice is crossing the normal line. everytime is unbeliavable
Call me stupid if you wish but isn’t the Ross Ice shelf already floating in the sea? If so, how will it raise sea level when it breaks away?
New paper using any and everything proves CAGW is real!
17 May: iTWire: David Heath: Its official – climate change is human-caused
Having exhausted all other possible causes, Melbourne University researchers conclude that the dramatic increase in local temperatures over the past 60 years can only be human-caused.
A team of over 30 paleoclimatologists has spent the past decade examining natural records of climate including recent geologically preserved sites along with written records (eg newspapers) and other data (corals, tree rings and Antarctic ice cores amongst many others) to construct a detailed view of climate changes in the Australasian region over the past 1000 years.
Lead researcher, Dr Joelle Gergis from the University of Melbourne saidsaid the results show that there are no other warm periods in the last 1000 years that match the warming experienced in Australasia since 1950. This period far exceeded the magnitude of warning in the so-called “Medieval Warming” period of 1238 – 1267…
According to the research team, the climate reconstruction was developed using 27 natural climate records calculated in 3000 different ways to ensure the robustness of the conclusions…
A PDF of the paper published in the Journal of Climate is available here for a fee.
The research will form the region’s submission to the 5th IPCC climate change assessment report chapter on past climate due to be published toward the end of 2014.
http://www.itwire.com/science-news/climate/54765-its-official-climate-change-is-human-caused
UK Guardian & other MSM already jumping on this one.
Meanwhile, at the end of the Antarctic summer things not looking too hot, despite the CAGW we have all been suffering from /sarc/…
Dome A: Colder than Cold
http://www.antarctica.gov.au/dome-a
Strange that recent stuff in the MSM about high temperature and disappearing global ice doesn’t much mention Antarctica.
Anyone else spotted just where Cryosphere expert (and blogger) Anthony Watt has got his wires crossed (again) on the reports of what’s going on in the Antarctic?
REPLY: Has anyone spotted that the “village idiot” can’t spell my name correctly? Make your point, sans snark. – Anthony
Recently discovered Circumpolar temperature wave is a new factor to consider.
http://www.spacedaily.com/images/antarctic-circumpolar-wave-bg.jpg
Satellite altimetry and sea surface height analysis have recently revealed a previously unknown feature of the Antarctic Circumpolar Current, the Antarctic Circumpolar Wave. This wave propagates westward against the current but ultimately ends up traveling eastward, due to the massive size of the ACC, at a slower rate than the mean flow. The wave circles the earth every eight to nine years (White and Peterson, 1996). It has a long wavelength (wavenumber=2) resulting in two crests and two troughs at any given time. The crests and troughs are associated with massive patches or pools of warm water and cold water respectively. The areas can be thousands of kilometers long. The warm patches are 2 to 3°C warmer than the mean sea surface temperature (SST) and the cold patches are 2 to 3°C cooler than the mean SST (White and Peterson, 1996). Though it is not yet clear how these waves are triggered or maintained, they directly influence the temperature of the overlying atmosphere. While the Wave’s effects on climate are just beginning to be studied, the phase (warm pool vs. cold pool) correlates well with four to five year rainfall cycles found over areas of southern Australia and New Zealand (White and Cherry, 1998). Some scientists believe that the Antarctic Circumpolar Wave may be more important than El Niño in governing rainfall over these regions.
http://oceancurrents.rsmas.miami.edu/southern/antarctic-cp.html
Also recently discovered high correlation between solar activity as expressed in the TSI reconstructions and the Antarctic’s MF bi-decadal variability, unlikely to be a coincidence, may eventually find its place in the Antarctic related literature.
http://www.vukcevic.talktalk.net/SSN-dBzA1.htm
“The Antarctic is snoring…” — HA HA HA good one, Anthony.
Like I said:
http://www.letterdash.com/henryp/global-cooling-is-here
I calculate the top of the warming at 1994/1995
Orssengo calculates at around 2003, I think
http://wattsupwiththat.files.wordpress.com/2010/04/orssengo3.png
I therefore hope that global cooling is over by 2020 – if the curve shifts to the left.
BTW
does anyone here perhaps have good (original) data from a weather station in Antarctica for me?
* The warming can only be explained by the increase in atmospheric GHGs
That last bullet point makes me cringe a bit, because I seriously doubt the resolution of this study…
It makes me cringe because sceptics have already explained ad nauseum why argumentum ad ignorantiam is taurus feces.
The map showing the ice fronts doesn’t look like its oriented north-south. Here is a better map.
http://en.wikipedia.org/wiki/File:Ice_Streams_in_Antarctica.jpg
There seems a north-south difference, with the 2 more northerly glaciers (D E) showing periods of acceleration, while the 2 more southerly ones (A B) show consistent deceleration.
Other studies show Antarctic glaciers accelerate due to mass loss toward their terminus. So it looks like overall mass gain, with periods of mass loss for the more northerly glaciers,almost certainly due to increased insolation causing increased sublimation, since I don’t think it ever gets above zero here.
Kelvin Vaughan says:
May 17, 2012 at 1:17 am
////////////////////////////////
Exactly.
When discussing the effects of the Antarctic ice melt, it is often overlooked that some part of Antarctic ice is floating ice and not continental ice, and further that the ice shelfs that are presently and/or most prone to calving are already floating and therefore will not add to sea level rise.
elvin Vaughan says:
May 17, 2012 at 1:17 am
Call me stupid if you wish but isn’t the Ross Ice shelf already floating in the sea? If so, how will it raise sea level when it breaks away?
_____________________________
This is not about science it is about scaring the “chicken littles” into jumping off a cliff.
Antarctica is, and will likely remain, very stable from an Ice extent volume. A gradual increase or leveling off of the ice is most likely going to continue for years to come regardless of what dire predictions we see coming out of the chicken little crowd. BTW did anybody notice the recent plummeting of the Arctic sea ice on the AMSR site? It is falling at a rate that is more indicative of late June or early July. Any explanations for this or do you think it is just an anomaly and will start to slow down in the decrease rate?
OT
‘Superflares’ erupt on some Sun-like stars
The flares on our Sun are thousands of times punier than those on similar stars, Kepler observations suggest.
http://www.nature.com/news/superflares-erupt-on-some-sun-like-stars-1.10653
Why is table 1 of the paper left out?
The measurements of this paper have been conducted between September–October 1997 by RADARSAT-1 and from February– April 2009+limited gap filler in 2011 by RADARSAT-2. (Two different satellites)
In between there hasn’t been any measurements done by these satellites at all.
The data collected by these two measurements (six months in total at the beginning and at the end of a 12 year period – 3 months in spring and 3 months in autumn) were used for this paper.
One obvious hypothetically question would remain:
1 How would the skeptical world react if these measurements did show a speeding up of the icesheet knowing the above data?
What can we really conclude by these measurements?
This goes in the Global Conditions Not Global file.
The more of these things you see, the more you (should) wonder what “global” averages or trends means. And it has always been this way. Look to any temperature, precipitation or glacial change studies around the world, and you’ll find multi-decadal differences in timing by region.
Changes migrate across the world, but not to all areas all the time. The MWP controversy – global or regional – should have worried the warmists, as it suggests that the current warming might have been viewed the same way as the MWP if the events were reversed, i.e. the MWP were happening today, and Gore-Warming were happening in the medieval times.
Without the Arctic warming data of Hansen, GISTemp becomes HadCru. HadCru makes CAGW questionable, at least on the basis of the last 15 years. If other subregions were excluded, would we have global warming at all?
It is disingenuous to say that global warming proceeds regionally – unless you add “at first”. And then you have to define the time period. But it must proceed globally, even to a proportionately smaller scale, by some point. Yes, the global maps of temperature anomalies show a general reddening. But to CAGW-required levels?
First the Himalayas and now Antarctica. What is the world coming to?
Warmists must understand that climate change doesn’t just go in one direction.
Robbie says:
What can we really conclude by these measurements?
Henry says
eehhh, well, we knew that it was cooling….
http://www.letterdash.com/henryp/global-cooling-is-here
I am hoping it will be over by 2022
(my calculations)
Tenuk says
http://wattsupwiththat.com/2012/05/17/new-paper-using-radarsat-data-antarctic-ice-shelves-slowed-down-have-not-been-changed-in-a-significant-way-in-the-past-12-years/#comment-987397
Henry asks
I need access to the original data coming from Antarctica
-any data=
I cannot go on “graphs”
because without that I cannot compile anything in my tables at all
http://www.letterdash.com/henryp/global-cooling-is-here
Do you perhaps know where trhe original data are?
Doug Proctor says
HadCru makes CAGW questionable, at least on the basis of the last 15 years.
Henry says
did you have look at my results, yet?
http://www.letterdash.com/henryp/global-cooling-is-here
Roger says:
May 17, 2012 at 12:23 am
CT is at it again.. compare their ice area extent with norsex.
——-
Excuse my ignorance, but what or who is CT? Many posters
mention it but I”ve not seen a link.
Bob B.
——-
. .
“Excuse my ignorance, but what or who is CT? Many posters
mention it but I”ve not seen a link.
Bob B”
CT is Cryosphere Today. http://arctic.atmos.uiuc.edu/cryosphere/
The polar regions are extruding. God forbid the extrusion rate ever exceeds the loss rate.
It’s worth mentioning that one of the authors here is Eric Rignot. He’s a prolific cryospheric scientist. His work is used by the IPCC reports. Websites like skepticalscience love quoting his work. He even seems to have put his name on the recent response letter in the WSJ countering Lindzen and others op’ed “No need to panic……”
So it appears a fully paid up believer in the IPCC’s science is willing to publish inconvenient work. Seems like a health state of affairs.
Hopefully this will rein in the antarctic alarmists. Just got to work on the Himalaya glacier alarmists and hurricane alarmists and sea level alarmists and extinction alarmists and acidic ocean alarmists. Did I leave any out?
CT says :
CT is at it again.. compare their ice area extent with norsex.
—————————–
The disreperancy between Norsex and CT would probably be even more glaring if the baseline average period was the same on both charts, Norsex is using montly averages for 1979 to 2006 ( 28 years ) , while CT claims to be using the 30 year average 1979-2008 baseline . Just eyballing The norsex chart 2007 and 2008 seem to both to have been somewhere in the -500000 to -1 million square Km below their 28 year average for most of this this period of the year, so the montlhy averages for april and may might be some 20-30 thound squre kloms lover if the went to the full 30 year average.
Roger says:
May 17, 2012 at 12:23 am
CT is at it again.. compare their ice area extent with norsex
http://arctic-roos.org/observations/satellite-data/sea-ice/observation_images/ssmi1_ice_ext.png
who do they think they are fooling.. and as usual the long pause when ice is crossing the normal line. everytime is unbeliavable
I just did and they’re very close, your link is to extent however not area, you should have linked to:
http://arctic-roos.org/observations/satellite-data/sea-ice/observation_images/ssmi1_ice_area.png
REPLY: Has anyone spotted that the “village idiot” can’t spell my name correctly? Make your point, sans snark. – Anthony
+++++++++++++++++++++++++++++++++++++++++++++++++++
Yet another dumb question from your’s truly, but just what does “snark” mean? (My kids have moved out so I can’t ask them.8-)
REPLY: http://www.urbandictionary.com/define.php?term=snark
Snark is a snide remark, generally sarcastic, malicious, and used to attack.
In other words, Snark is the language of the AGW true-believer. Kinda like Klingon.
Thankfully, the glaciers in the region that they studied near the Ross Ice Shelf seems to be ok. Makes sense to me, since the area looks like a wedge, but that’s just me speculating. Hopefully, as temperatures very likely increase in the future, the Ross can maintain.
The conclusions section of the paper does indicate that the area they studied is in contrast with the areas bordering the Amundsen and Bellingshausen seas (West Antarctica and the Antarctic Peninsula), where the most changes are taking place. The Pine Island and Thwaites glaciers, as well as the many glaciers on the peninsula are the potential risks. Good thing we have scientists keeping an eye on the region.
“Snark” sounds like a mash-up of SNide & sARCastic.
Whereas the warmistas find this sad (for reasons other than the good of Humanity), I find this ominous.
SteveSadlov says: ……… I find this ominous.
Why? You long on fast moving glaciers?
How exactly can slow moving glaciers in the antarctic be ominous?
I can see these two satellites coming to a sticky end if they don’t start giving the results that they should. Or they could end up like ENVISAT declared dead in space.
Just saying.
Does this constitute death threats? LOL
James Bull
otter17~ considering the temperature trend the last 50 years (highest temp ever recorded, -12C on December 25th, 2011 (High summer)), how long do you figure it will take for temperatures to climb high enough to have an effect?
Otter says:
May 18, 2012 at 3:35 am
how long do you figure it will take for temperatures to climb high enough to have an effect?
_______________________
I’m not qualified to make a guess there since I’m not a scientist, but the data shows the Pine Island, Thwaites, and most of the Antarctic peninsula glaciers have sped up. At what steady-state speed they will end up at is probably a very difficult question to figure out. All we know is that they are budged from their previous mode of operation since there is a mass imbalance now.
I’m just thankful the Ross shelf is doing its job, where other ice shelves have failed. It is good we have at least a handful of glaciers that are in mass balance, or slightly positive.
In other words, otter17, quite a bit longer than your people keep telling the public. Centuries at the very least.
Otter says:
May 18, 2012 at 5:20 pm
In other words, otter17, quite a bit longer than your people keep telling the public. Centuries at the very least.
________________________
It is presumptuous to make that leap based on my look at the situation, and I don’t know what specific projections you mean “my people” have given to the public. Several peer reviewed papers indicate sea level rise projections based on the authors’ expert opinions on the dynamics of ice sheets, glaciers, etc. Paleo records on sea level indicate that there have been periods of natural warming and fairly rapid sea level rise, such as during interglacial periods (about a meter per century on average, though more rapid jumps in sea level observed). Furthermore, paleo records have shed some light on previous eras where the Arctic ice sheets have collapsed. So, the Earth has had its sea level rise on the order of meters per century in the past, indicating that today’s rapid forcing on climate may be able to create a situation where it can rise just as fast, or maybe faster. So, while the Ross embayment area is ok for now, paleo records indicate that in the past it has been open (second link).
http://en.wikipedia.org/wiki/File:Post-Glacial_Sea_Level.png
http://www.nature.com/nature/journal/v458/n7236/full/nature07867.html
Yet the whole point of this article is the scientific PROOF that the things your people keep saying will happen, ARE NOT HAPPENING now.
My computer screen has about 16 million colors (so they claim). Some of their color claims are actually luminance or luminous emittance changes rather than color changes. I do believe there possibly may be 4,096 different colors, but I can’t vouch for any more. (put two pixels side by side to see if they are different colors).
So wouldn’t you think that the authors of that map of Ross ice shelf ice movements could find four different colors to show what ever it is they are trying to show, instead of four similar colors ?
Just asking.