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Is Antarctica losing or gaining ice?

What the science says...

Select a level... Basic Intermediate

Antarctic sea ice extent has expanded at times but is currently (2023) low. In contrast, Antarctica is losing land ice at an accelerating rate and that has serious implications for sea level rise.

Climate Myth...

Antarctica is gaining ice

"[Ice] is expanding in much of Antarctica, contrary to the widespread public belief that global warming is melting the continental ice cap." (Greg Roberts, The Australian)

At a glance

Who discovered the great, South Pole-straddling continent of Antarctica? According to the National Geographic, Captain Cook came within an estimated 80 miles of it in the late 1700s, but the three first 'official' discoveries all took place in 1820 by Russian, British and American teams of seafarers respectively.

Since that initial discovery, Antarctica has attracted and inspired researchers and explorers alike. It's a challenging place, fringed by sea-ice that, unlike the Arctic, has not steadily declined but whose extent fluctuates on a seasonal basis: it's currently (February 2023) at a very low coverage, but it can and does recover from such dips. Antarctic sea-ice is no great problem, with the exception of albedo-loss in low extent years: if it all melted, it would have no effect on global sea-levels. It's the stuff on land we need to focus upon.

The land of Antarctica is a continent in two parts, divided by the 2,000 m high Transantarctic Mountains. The two parts differ in so many respects that they need to be considered separately. East Antarctica, that includes the South Pole, has the far greater landmass out of the two, some 4,000 by 2,500 kilometres in size. Although its massive ice-sheet, mostly grounded above sea level, would cause 52 metres of sea level rise if it completely melted, so far it has remained relatively stable. Snow accumulation seems to be keeping in step with any peripheral melting.

In contrast, in the absence of ice, West Antarctica would consist of islands of various sizes plus the West Antarctic Peninsula, a long mountainous arm pointing northwards towards the tip of South America. The ice sheet overlying this mixed topography is therefore grounded below sea level in many places and that's what makes it far more prone to melting as the oceans warm up. Currently, the ice-sheet is buttressed by the huge ice-shelves that surround it, extending out to sea. These slow down the glaciers that drain the ice-sheet seawards.

The risk in West Antarctica is that these shelves will break up and then there will be nothing to hold back those glaciers. This has already happened along the West Antarctic Peninsula: in 1998-2002 much of the Larsen B ice-shelf collapsed. On Western Antarctica's west coast, the ice-sheet buttressing the Thwaites Glacier – a huge body of ice with a similar surface area to the UK - is a major cause for concern. The glacier, grounded 1,000 metres below sea level, is retreating quickly. If it all melted, that would raise global sea levels by 65 centimetres.

Such processes are happening right now and may not be stoppable - they certainly will not be if our CO2 emissions continue apace. But there’s another number to consider: 615 ppm. That is the CO2 level beneath which East Antarctica’s main ice sheet behaves in a mostly stable fashion. Go above that figure and the opposite occurs - major instability. And through our emissions, we’ve gone more than a third of the way there (320 to 420 ppm) since 1965. If we don’t curb those emissions, we’ll cross that line in well under a century.

Please use this form to provide feedback about this new "At a glance" section. Read a more technical version below or dig deeper via the tabs above!


Further details

Arguments that we needn't worry about loss of ice in the Antarctic because sea ice is growing or even that sea ice in the Antarctic disproves that global warming is a real concern hinge on confusion about differences between sea and land ice, and what our best information about Antarctic ice tells us. 

As well, the trend in Antarctic sea ice is not a permanent feature, as we'll see. But let's look at the main issues first.

  • Sea ice doesn't play a role in sea level rise or fall. 
  • Melting land ice contributes to sea level rise. 
  • The net, total behavior of all ice in the Antarctic is causing a significant  and accelerating rise in sea level. 

Antarctic sea ice is ice which forms in salt water mostly during  winter months. When sea ice melts, sea level does not change.

Antarctic land ice is the ice which has accumulated over thousands of years in Antarctica by snowfall. This land ice is stored ocean water that once fell as precipitation. When this ice melts, the resulting water returns to the ocean, raising sea level.

What's up with Antarctic sea ice?

At both poles, sea ice grows and shrinks on an annual basis. While the maximum amount of cover varies from year to year, there is no effect on sea level due to this cyclic process. 



Figure 1: Coverage of sea ice in both the Arctic (Top) and Antarctica (Bottom) for both summer minimums and winter maximums. Source: National Snow and Ice Data Center

Trends in Antarctic sea ice are easily deceptive. For many years, Antarctic sea was increasing overall, but that shows signs of changing as ice extent has sharply declined more recently. Meanwhile, what's the relationship of sea ice to our activities? Ironically, plausible reasons for change may be of our own making:

  • The Southern Ocean is freshening because of increased rain and snowfall as well as an increase in meltwater coming from the edges of Antarctica's land ice (Zhang 2007, Bintanja et al. 2013). Together, these change the composition of the different layers in the ocean there causing less mixing between warm and cold layers and thus less melted sea and coastal land ice.

Against those factors, we continue to search for final answers to why certain areas of Antarctic sea ice grew over the past few decades (Turner et al. 2015). 

More lately, sea ice in southern latitudes has shown a precipitous year-on-year decline (Parkinson 2019). While there's a remaining net increase in annual high point sea ice, the total increase has been sharply reduced and continues to decline. 

How is Antarctic land ice doing?

We've seen that Antarctic sea ice is irrelevant to the main problem we're facing with overall loss of ice in the Antarctic: rising sea level. That leaves land ice to consider. 

Shepherd et al. 2017

Figure 2: Total Antarctic land ice changes and approximate sea level contributions using a combination of different measurement techniques (IMBIE, 2017). Shaded areas represent measurement uncertainty.

Estimates of recent changes in Antarctic land ice (Figure 2) show an increasing contribution to sea level. Between 1992 and 2017, the Antarctic Ice Sheets overall lost 2,720 giga-tonnes (Gt) or 2,720,000,000,000 tonnes into the oceans, at an average rate of 108 Gt per year (Gt/yr). Because a reduction in mass of 360 Gt/year represents an annual global-average sea level rise of 1 mm, these estimates equate to an increase in global-average sea levels by 0.3 mm/yr.

There is variation between regions within Antarctica as can be seen in Figure 2.  The West Antarctic Ice Sheet and the Antarctic Peninsula Ice Sheet are losing  a lot of ice mass, at an overall increasing rate. The East Antarctic Ice Sheet has grown slightly over the period shown.  The net result is a massive loss of ice. However, under a high-emissions scenario, ice-loss from the East Antarctic ice-sheet is expected to be a much greater in the decades after 2100, as reported recently by Stokes et al. (2022). That’s a scenario we must avoid at all costs.

Takeaway

Independent data from multiple measurement techniques (explained here) show the same thing: Antarctica is losing land ice as a whole and these losses are accelerating. Meanwhile, Antarctic sea ice is irrelevant to what's important about Antarctic ice in general.

Last updated on 14 February 2023 by John Mason. View Archives

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Argument Feedback

Please use this form to let us know about suggested updates to this rebuttal.

Further reading

Tamino compares and analyses the long term trends in sea ice data from the Northern and Southern Hemisphere in Sea Ice, North and South, Then and Now.

Denial101x video

Related lecture-video from Denial101x - Making Sense of Climate Science Denial

Additional videos from the MOOC

Interviews with  various experts

Expert interview with Jonathan Bamber

Expert interview with Isabella Velicogna

 

Update

On 20 Jan 2012, we revised this article upon learning it referenced an incorrect quote. We apologize to Dr. Michaels and to our readers for the error.

Fact brief

Click the thumbnail for the concise fact brief version created in collaboration with Gigafact:

fact brief

Comments

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Comments 1 to 25 out of 531:

  1. "Computer models have predicted that energetic particles hitting the top of the atmosphere in polar regions may change temperatures by stimulating the production of nitrous oxides (NOx)." "NOx destroys ozone in catalytic reaction cycles; and when you change ozone in the stratosphere, that... can then feed down to surface temperatures." From an article by BBC News "More doubt on cosmic climate link By Richard Black, Environment correspondent, BBC News website, Vienna" under the subhead Local change
    Response: I did see that article earlier today. The section on Antarctica is interesting although the phenomena they're describing seems to be regional and shows no long term trends - it's a localised, short term effect. However, what did get my attention was the section on cosmic rays as I've actually been preparing a post on that very topic - cloud cover during Forbush events. This new study covers the same material using different data so I contacted the author this morning hoping to get more info. More on this soon, I hope.
  2. John I noticed the ozone portion because it rang a bell fro what I had read previously in Mackeys paper.
  3. OK smarties. If Antarctica is overall losing ice, then how do you explain the data? http://arctic.atmos.uiuc.edu/cryosphere/IMAGES/current.area.south.jpg The Arctic doesn't seem to be doing so bad anymore, also: http://arctic.atmos.uiuc.edu/cryosphere/IMAGES/current.area.jpg
    Response: Note: the rebuttal above has been updated since this comment was posted, incorporating later references and clarifying that sea ice and land ice are two separate phenomena. Antarctica is losing land ice at an accelerating rate. Sea ice around Antarctica is increasing. The reasons for sea ice increasing in a warming Southern Ocean are complex and described in detail above.
  4. AnthonySG1: Your images are concerned with the ice _area_ . Ice _mass_ on the other hand is shrinking. http://www.jpl.nasa.gov/news/news.cfm?release=2008-010
  5. The misinformation on this site is astonishing. Antarctic ice is increasing. In addition to the cryosphere link provided Anthony, This is confirmed by NSIDC, http://nsidc.org/data/smmr_ssmi_ancillary/regions/total_antarctic.html by NCDC, http://www.ncdc.noaa.gov/oa/climate/research/2008/apr/global.html#seaice and by numerous scientific papers, including Cavalieri and Parkinson, J. Geophys. Res. 113, C07004 (2008), Comiso and Nishio, J. Geophys. Res. 113, CO2S07 (2008). You have managed to find one paper that finds a decrease - but that only covers a 3 year period! Obviously you cannot get a significant trend from 3 years data.
    Response: Note: the rebuttal above has been updated since this comment was posted, incorporating later references and clarifying that sea ice and land ice are two separate phenomena. Antarctica is losing land ice at an accelerating rate. Sea ice around Antarctica is increasing. The reasons for sea ice increasing in a warming Southern Ocean are complex and described in detail above.
  6. "NASA Finds VAST Regions of West Antarctica Melted in Recent Past 05.15.07 A team of NASA and university scientists has found clear evidence that EXTENSIVE areas of snow melted in west Antarctica in January 2005 in response to WARM TEMPERATURES. This was the first WIDESPREAD Antarctic melting ever detected with NASA's QuikScat satellite and the MOST SIGNIFICANT MELT observed using satellites during the past three decades. Combined, the affected regions encompassed an area as big as CALIFORNIA." My caps. - just look at the map and tell me the use of those words is justified. The ACTUAL area involved is a FRACTION of the ice sheets, even the IPCC reckon it would take over 1000yrs to melt if the worst of their predictions materialised.
  7. Increase in sea ice a bad thing http://www.slate.com/id/2192730/ . . . No one's entirely sure what's causing the expansion of sea ice in Antarctica, but the likeliest explanation is a disturbing one. According to a 2005 NASA-funded study, warmer temperatures have caused greater snowfall around the continent's edges, where the open oceans provide plenty of raw material for precipitation. (Warmer air absorbs moisture more readily.) The weight of that excess snow pushes sheets of sea ice down into the water, causing more water to freeze. The incremental expansion of Antarctica's sea ice has coincided with some more troubling changes. Four of the continent's largest glaciers (whose fates are largely unrelated to that of sea ice) are retreating rapidly, and researchers blame increases in ocean temperature. The diminishment of such massive glaciers means that, despite the slow creep forward of the continent's sea ice, the total mass of all Antarctic ice—which includes inland ice—has experienced a marked decrease. And a continuation of that trend could lead to significant rises in global sea levels. Furthermore, snow is melting much farther inland than ever, as well as high up in the Transantarctic Mountains. . .
  8. PaulM, Chill, amigo (no pun intended). The article makes the distinction right off the bat between land ice and sea ice. Your two links discuss SEA ICE. We know there's been an increase in sea ice. In a place where the temperature is always well below freezing, "global warming" is not going to melt all the ice. That doesn't mean it isn't a problem elsewhere. Even if there were no net ice loss on earth, if we're losing ice in places we need it (such as mountain ranges that supply people with drinking water), and accumulate it in places that have no humans at all (Antarctica), that's an enormous problem. The persistence of climate change skeptics in using Antarctica to say "look, everything's ok", is really beyond absurd.
  9. Also remember as ice area increases so does the albedo, reducing SI locally. In addition land ice will decline as sea ice increases (WV has further to travel to reach central regions).
  10. Seriously? A graph from 2002? That's just silly. By moving the range a couple points in either direction you could get a trend going any way you want. Meanwhile, there's a 20-year graph that confirms Antarctica appears to be gaining mass: http://www.gsfc.nasa.gov/topstory/20020820southseaice.html
    Response: Note: the rebuttal above has been updated since this comment was posted, incorporating later references and clarifying that sea ice and land ice are two separate phenomena. Antarctica is losing land ice at an accelerating rate. Sea ice around Antarctica is increasing. The reasons for sea ice increasing in a warming Southern Ocean are complex and described in detail above.
  11. It should be noted that the observational period here is quite short, so one should be careful about firm conclusions. And, the precise extent may be somewhat lower than presented: Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance Received 20 May 2009; accepted 28 August 2009; published 13 October 2009. Citation: Bevis, M., et al. (2009), Geodetic measurements of vertical crustal velocity in West Antarctica and the implications for ice mass balance, Geochem. Geophys. Geosyst., 10, Q10005, doi:10.1029/2009GC002642. "We present preliminary geodetic estimates for vertical bedrock velocity at twelve survey GPS stations in the West Antarctic GPS Network, an additional survey station in the northern Antarctic Peninsula, and eleven continuous GPS stations distributed across the continent. The spatial pattern of these velocities is not consistent with any postglacial rebound (PGR) model known to us. Four leading PGR models appear to be overpredicting uplift rates in the Transantarctic Mountains and West Antarctica and underpredicting them in the peninsula north of 65°. This discrepancy cannot be explained in terms of an elastic response to modern ice loss (except, perhaps, in part of the peninsula). Therefore, our initial geodetic results suggest that most GRACE ice mass rate estimates, which are critically dependent on a PGR correction, are systematically biased and are overpredicting ice loss for the continent as a whole."
  12. yes, agreed SNratio (re #11). However there are longer term measures of Antarctic ice mass loss from altimetry that are consistent with a nett mass loss in Antarctica (which is still pretty small in relation to the vast amounts of Antarctic ice) [*]. We should also note that the corrections applied by Bevis et al. (2009) suggest that a bias in ice mass loss from GRACE measurements amounts to ~33 Gt/yr [**]. This is a significant, but small, proportion of the total Antarctic ice loss determined by GRACE (see figures in John Cook's summary above): [*] E. Rignot et al. (2008) Recent Antarctic ice mass loss from radar interferometry and regional climate modelling Nature Geoscience 1, 106 - 110 (2008) [**]Bevis et al. (2009) para [19]; page 9:
    We can estimate the potential magnitude of the ice mass biases by noting that if the average velocity prediction bias of ~5 mm/yr evident in Figure 5 is developed over ~2 × 10^6 km2, an area somewhat smaller than that of West Antarctica, this would cause an apparent but spurious ice loss of ~33 Gt yr-1, which is a significant fraction of all published ice mass rates derived from GRACE [Velicogna and Wahr, 2006; Chen et al., 2006; Ramillien et al., 2006; Sasgen et al., 2007a]. However, it is not possible to arrive at an accurate numerical estimate of the impact of our geodetic measurements on GRACE ice mass change solutions without finding a reliable means to interpolate between our point measurements of vertical crustal velocity.
    The authors (Bevis et al, 2009) also point out that GRACE should make reliable estimates of any further enhanced acceleration in ice mass loss (or sudden jumps in ice mass loss), since the post-glacial rebound (that has to be corrected for in mass change estimations) doesn't vary much on the interannual timescale.
  13. Sure chris, I did not mean to suggest that ice loss is _not_ happening, just to point out that we should be careful. The last thing the public debate needs, is accusations of "alarmism" with some degree of justification to them. Which could easily happen if this ice mass change, for instance, turns out to be a quasi-periodic phenomenon somewhat akin to the PDO. Another thing I am wondering about, is the net effect of the situation underlying the (rather slow) increase in sea ice. Albedo should be increasing a little bit, but what about the heat loss from sea? Could the extra warming of the sea and the increasing sea ice be two aspects of the same circulatory phenomenon? Maybe a stupid question, I'm not very much into this :-)
  14. No problem SNRatio. I think we're probably about on the same wavelength, and I agree that we should be careful not to over-interpret observations that might be "contaminated" by artefacts of the measurement, or confounded by factors that we haven't fully considered. I'm glad you found that paper. As for the slow increase in Antarctic sea ice over the past few decades, I don't really have much insight into that. It seems somewhat counter-intuitive, but if the evidence is sufficiently strong that sea ice has grown somewhat while ocean and air temperatures have increased, then we may as well accept for now what the science says in relation to deep Southern ocean stratification and the effects of the ozone hole...although I guess in this case that there's more t be learned on this little piece of natural phenomena.
  15. I think the point in #11 is that most attempts to estimate ice mass balance in the antarctic reply on IJ05 or ICE-5G to estimate PGR/GIA. Just to point out that similar work has been done for Eastern anarctic, here, with similar conclusions. Suggesting further error in the previous ice mass estimates including Velicogna 2009. This publication suggests the green line in Fig1 should maybe showing a gain over time. I'd highlight the second half of the Bevis quote in #12 which states that the 33Gt yr-1 is only a provisional figure (and covers only part of Western Antarctic) I'd be keen to see some full estimated that take into account the GPS data.
  16. As a physicist and as a windsurfer who relies on shoreline thermals for sail power, I wonder if any one has considered that rising ocean temperatures in the Southern Seas has increased the offshore flow of ice-cold air from the continental land mass. Might this not also contribute to the increased cooling of the ocean surface and to more sea ice?
  17. diogenes, in the Zhang 2009 paper cited, the wind field is taken from the NCEP-NCAR reanalisys. It's not shown nor I looked for it; but given that the surface temperature has increased (fig. 3 in this post) I don't think that there any significant large scale change in thermal winds at play. Locally and seasonally it might have an effect but i have no clue on this.
  18. It is difficult to consider that the land ice mass is melting when indications are that snow is accumulating on the land at an unprecedented rate: Surface snowmelt in Antarctica in 2008, as derived from spaceborne passive microwave observations at 19.35 gigahertz, was 40% below the average of the period 1987–2007. The melting index (MI, a measure of where melting occurred and for how long) in 2008 was the second-smallest value in the 1987–2008 period, with 3,465,625 square kilometers times days (km2 × days) against the average value of 8,407,531 km2 × days (Figure 1a). Melt extent (ME, the extent of the area subject to melting) in 2008 set a new minimum with 297,500 square kilometers, against an average value of approximately 861,812 square kilometers.” This evidence suggests that Antarctica, where 90% of the land based ice in the world resides, is increasing in mass.
    Response: The bottom line is satellite gravity measurements of Antarctica find that the continent as a whole is losing mass. Not only that but losing mass at an acclerating rate. I will repeat the graph showing the total mass loss from Antarctica as the empirical data doesn't seem to have sunk in yet:



    You're also correct in pointing out that snow accumulating in the East Antarctic interior is increasing, presumably due to increased precipitation caused by more humid conditions caused by warming air. That Antarctica is losing mass at an accelerating rate while gaining mass in the interior is a testament to the sensitive nature of ice sheet dynamics - ice sheets are proving more sensitive than previously realised and are sliding into the oceans at a faster rate.

    This is also borne out by paleo studies that have looked at ice sheet and sea level behaviour in the past and found sea levels to be over 6 metres higher than current levels when temperatures were only 1 to 2 degrees warmer than now. Multiple lines of evidence point to the same answer - the ice sheets are sensitive to warming temperatures and are going to cause significant sea level rise over this century (and beyond).
  19. Geo Guy at 07:00 AM on 10 March, 2010 Your argument is incomplete. You need to account for the GRACE data shown above and in any case the single year you cite is inadequate as a suggestion that the Antarctic ice sheet is trending upward in mass. Also, would you mind providing a citation for your quote?
  20. To detect a 100km^3 ice mass loss one should be able to measure a 7mm decrease in the ice thickness. And the ice is covered with a 100metres layer of snow, which varies a lot. Its lunacy to claim one can measure the whole Antarctic thickness with a few millimeter accuracy. And even if one could - there is NO CONTEXT for the claimed ice loss. Also i'd like to point out that "glacier melting" is no evidence to claim that global warming is still happening (NOR that its man made). If you take ice out from the freezer to the room temp, it will continue melting even if the room temp stays constant. Same happens now with the glaciers - temperatures rose sharply in the late 1990's and have stayed almost at constant since (even slight cooling both ARGO and UAH show this).
  21. protestant writes: Its lunacy to claim one can measure the whole Antarctic thickness with a few millimeter accuracy. And even if one could - there is NO CONTEXT for the claimed ice loss. Actually, what GRACE does is measure distortions in the earth's gravity field over broad areas and long periods of time. This can't tell you what the exact elevation of the ice surface at point X was on date Y, but it can give you a very precise estimate of regional-scale, long-term changes in ice mass. You really should make an effort to understand how things work before throwing around accusations of "lunacy". I'm not sure what you mean by "NO CONTEXT". The context is that anthropogenic emission of greenhouse gases creates an energy imbalance between the earth and its exoatmospheric environment, in turn producing a net increase in heat content of the climate system. This has resulted in warming of the Southern Ocean around Antarctica, a reduction in the mass of ice shelves, and an increase in the rate of ice discharge from the continent into the ocean. As additional context, this is all occurring at a time when the planet is near the "warm" peak of its glacial/interglacial cycle, so rather than, say, moving us from a glacial to an interglacial climate, this anthropogenic warming is moving us from an interglacial climate to a condition the earth has probably not experienced in millions of years.
  22. protestant also writes: Also i'd like to point out that "glacier melting" is no evidence to claim that global warming is still happening (NOR that its man made). You're right. If we had no other evidence that fossil fuel combustion produces CO2, and no other evidence that CO2 absorbs infrared radiation, then we wouldn't be able to conclude that anthropogenic greenhouse gases were warming the earth just from measuring glacier retreat alone. Fortunately, we have a great deal of evidence that already resolves these points. The loss of ice from glaciers and polar ice sheets is important for two reasons: (a) as an additional source of confirmation that demonstrates agreement with the many other lines of evidence of climate change, and (b) as an important consequence of climate change that will have large negative impacts on our economy and on social welfare in many countries by increasing sea levels.
  23. doug_bostrom at 07:12 AM on 10 March, 2010 There are many references to be found on the Internet, linked to valid scientific journals citing the rapid growth in the vast majority of the Antarctic landmass. I will leave it up to you to find them. In response to the author's response to mt comment: Being a geologist that has undertaken many gravity surveys, I am hesitant to make any interpretation based on aggregated data as you have done. It implies that the observed decrease is consistent throughout whereas that is likely not the case. You will get melting on the fringes and accumulation in the center - but the ice forming through the accumulation of the snow in the center is not the same as the ice that is melting on the fringes, which by the way shows a significant increase in ice mass from 2004.5 to 2005.5 suggests something else is happening or the data needs to be reviewed. The other point I will make is that a five year trend analysis, In addition,
  24. Geo Guy at 16:23 PM on 11 March, 2010 Many references, but you won't cite any? Not even the one you quoted which I might add without a cite is not cricket, either; the authors I'm sure would appreciate attribution. From your further comment I take it that aggregated data is insufficient but a single year of data is? I don't find your approach persuasive.
  25. Ned wrote: "You're right. If we had no other evidence that fossil fuel combustion produces CO2, and no other evidence that CO2 absorbs infrared radiation, then we wouldn't be able to conclude that anthropogenic greenhouse gases were warming the earth just from measuring glacier retreat alone." So CO2 traps heat, whats the big news? Thats only a half-truth like we all know its all about feedbacks: we dont even know if they start with a + or -. But that's another topic. Ned wrote: "Actually, what GRACE does is measure distortions in the earth's gravity field over broad areas and long periods of time. This can't tell you what the exact elevation of the ice surface at point X was on date Y, but it can give you a very precise estimate of regional-scale, long-term changes in ice mass. You really should make an effort to understand how things work before throwing around accusations of "lunacy"." Ok, I was obviously wrong about that and thank you for clarification. Note that I used the term "lunacy" with the question about capability to measure 7mm differences on ice thickness, not with other possible methods. But back to the point, there are another theories for glacier melting and one is the black soot. The Lawrence Berkeley Lab concluded in their recent study http://newscenter.lbl.gov/feature-stories/2010/02/03/black-carbon-himalayan-glaciers/ that black carbon is the most significant factor on the melting Himalayas. There are other studies as well which conclude aerosols have a significant role on observed glacier changes and that increasing temperatures are not nearly enough to explain it. About context I mean we have no idea how much Ice mass Antarctica had in the 30's or how much there was ice on the 70's. Or how much variability there was between those periods. Just a 8 year trend is completely uninformative and the seen changes can be as well natural oscillation, the context would clarify this. Yet we have no context so the measurements from GRACE still tells us almost nothing. If the "warming oceans" (where actually our highest quality ARGO-data shows a slight cooling) were the reason for ice mass loss in Antarctica there would be also no increase in the sea ice. But for some reason sea ice still increasing. I bet that the most affecting factors considering glaciers are the black soot and changes in rainfall. Rising temperatures might even have an ice thickening results since in most glaciers the temps are really much below 0C most of the year and increased temps mean more snow - more ice. Where Himalayas might retreat from the lower reagions - the upper regions are expected to increase in thickness. Some of the points were a bit offtopic but I hope you dont mind. Greets, protestant

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