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Comments 47351 to 47400:

47351. Rob Honeycutt at 10:49 AM on 16 April 2013
       Antarctica is gaining ice
       

       I think it's a very good lesson in how "fake skepticism" works.  You start with your preferred conclusion, find exceptions in the research that support than conclusion, then avoid attempting to understand the issue as a whole.

       I have to admit, I see the attraction to doing this!  It takes far less work to operate this way.  Antarctica, in particular, is incredibly complicated (as if any aspect of climate change is simple).  It's not easy to go through all the information and fully grasp what's going on.  And it's especially hard when you clearly do not want to accept what scientists are saying.

47352. KR at 09:48 AM on 16 April 2013
       Antarctica is gaining ice
       

       Readers - There is actually a useful lesson in the last exchange(s) with Kevin. What he did was to selectively quote-mine old analyses (ignoring the last quarter-century of work), cherry-pick the data (East Antarctic while ignoring Antarctica as a whole), and misrepresent implications (wrongly equating increased snowfall with mass balance, ignoring greatly increased melt and calving). And concluding with a Bizzaro-world interpretation exactly opposite that of the IPCC. 

       This is in fact a fairly common denier tactic - select tiny bits of the science out of context and miscast them in contradiction to the whole. I strongly suggest reading the original sources (which isn't difficult if you start with abstracts and work your way up as you can or as desired), and check the quotes and sources. 

       IMO denial is broadcast with selective reading and presentation, some of which (see anything from Lord Monckton) is simply false. Armor yourself by checking the assertions from all participants. 

47353. Bob Lacatena at 09:23 AM on 16 April 2013
       Antarctica is gaining ice
       

       We know that Kevin has recused himself from participation, but lets take a quick review of insane denial, and clear things up along the way.

       Kevin first quoted the 1990 IPCC First Accessment Report as claiming that Antarctica would experience increased snowfall.  Kevin (1) quoted a 23 year old report and (2) proceeded to conflate increased snow fall with increased land ice.  He also ignored the balance of the actual report, which very clearly lays out the details, as understood at that time, of Antarctic ice gain and loss.  The tone of that report is nothing like Kevin's quote suggests.

       When called on this, Kevin next quoted the 2007 IPPC Fourth Assessment Report -- but he chose to quote the FAR's review of the TAR —the Third Assessment Report, from 2001, 12 years ago.  That section was a mere review of the previous report, in preparation for the more recent update.  What's the point?

       Somehow he skipped over the actual content of the FAR, which even more clearly than the first two reports discusses the ice gain and loss in Antarctica, including this:

       Zwally et al. (2006) obtained SRALT coverage for about 80% of the ice sheet, including some portions of the Antarctic Peninsula, and interpolated to the rest of the ice sheet. The resulting balance included West Antarctic loss of 47 ± 4 Gt yr–1, East Antarctic gain of 17 ± 11 Gt yr–1 and overall loss of 30 ± 12 Gt yr–1.

       Anyone can follow the link provided by KR to the actual page.  People can judge for themselves what the IPCC has actually said about the subject, and how their understanding has progressed over time.

       It is very, very important when faux-skepticism raises its ugly head to follow the quotes and the denial to the source, read everything with an open mind, and to understand what is truly there — not merely what some denier chooses to misrepresent.

47354. John Hartz at 06:46 AM on 16 April 2013
       Antarctica is gaining ice
       

       DSL & Rob Honeycutt:

       Kevin fell through the thin ice of slogannering and his most recent comment was deleted. 

47355. sidd at 06:33 AM on 16 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       1)Guemas et al show 3 yr accumulation of OHC, Balmaseda show total OHC integrated over the whole observational period. So Guemas is related to the derivative of the Balmaseda grafs

       2)I have differenced the Balmaseda grafs to show heat into various layers of ocean. After 2006, 300m-700m layer shows little OHC increase.

       3)700-2000 m layer shows little heat uptake from 2000-2006

       http://membrane.com/sidd/balmaseda-2013.html

        

       sidd

47356. Rob Honeycutt at 06:29 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin...  "The ice sheet is predicted to thicken" ≠  Total ice mass balance will increase.

       You're cherry picking and vastly oversimplifying.

47357. DSL at 06:28 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin, where do the main articles rely on AR4?  SkS is not a defense of AR4, nor would it matter in this case (see KR's response). 

47358. Kevin8233 at 06:15 AM on 16 April 2013
       Antarctica is gaining ice
       

       DSL,

       I stated earlier that AR4 did not make a prediction, the prediction came from the TAR.

       So, assume that AR4 is correct, and no trend is there.  How does SkS come up with this thread then?  Losing or gaining ice, sea or land, has no bearing, right?

        

       Moderator Response:

       [JH] You are now skating on the thin ice of sloganeering. Please cese and desist or face the consequences. 

47359. John Hartz at 06:14 AM on 16 April 2013
       Antarctica is gaining ice
       

       Everyone:

       Please resist the temptation to "dogpile" on Kevin. Let his current conversation with DSL play out without interjecting comments. 

       Moderator Response:

       KR excepted. 

47360. KR at 06:13 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin - "...the latest prediction that the IPCC has made, predicts that Antartica will gain ice as temp increases."

       That would be completely incorrect. From IPCC AR4, Chapter 4.6.2.2:

       Taking the Rignot and Thomas (2002), Zwally et al. (2006) and Rignot et al. (2005) results as providing the most complete antarctic coverage suggests ice sheet thinning of about 60 Gt yr–1... [ ] 

       Assessment of the data and techniques suggests overall Antarctic Ice Sheet mass balance ranging from growth of 50 Gt yr–1 to shrinkage of 200 Gt yr–1 from 1993 to 2003. [ ] 

       Acceleration of mass loss is likely to have occurred, but not so dramatically as in Greenland.

       From the same document, FAQ 4.1:

       Taken together, the ice sheets of Greenland and Antarctica are very likely shrinking, with Greenland contributing about 0.2 ± 0.1 mm yr–1 and Antarctica contributing 0.2 ± 0.35 mm yr–1 to sea level rise over the period 1993 to 2003. There is evidence of accelerated loss through 2005. Thickening of high-altitude, cold regions of Greenland and East Antarctica, perhaps from increased snowfall, has been more than offset by thinning in coastal regions of Greenland and West Antarctica in response to increased ice outflow and increased Greenland surface melting. [ ] 

       The geographically widespread nature of these snow and ice changes suggests that widespread warming is the cause of the Earth’s overall loss of ice.

       [Emphasis in both quotes added]

       ---

       You have been quote-mining old reports, not reading or incorporating the current science or observations, and clearly only looking at one side of the mass-balance equation while ignoring increased melting. I dislike saying this, but your last few posts have been nonsensical. 

47361. Rob Painting at 06:10 AM on 16 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Ray - The claims made in this paper (Guemas [2013]) do not seem to match the observations. Warming has been occurring in the deep ocean. As we have made clear ever since Levitus (2012) was published. Heat reaching the deep ocean cannot be accounted for by simply measuring ocean temperatures in the 0-700 metre layer - as is explained in the post you linked to.

       As for sea surface temperatures being cooler-than-normal over the last decade, that's consistent with a La Nina-dominant period. The tilting of the thermocline in the tropical Pacific buries heat in the subsurface layers during La Nina periods. This occurs in the western tropical Pacific and the strengthening westerly trade winds cause upwelling of cold acidified water from the deep off the western coast of the American continent. Burial of heat in the subsurface western tropical Pacific plus upwelled cold water on the surface in the eastern tropical Pacific equals cooler-than-normal heat exchanged with the atmosphere during La Nina, and La Nina-dominant periods.

       Not having read the Guermas paper, I have no idea why they are dismissive of measurements showing unprecedented warming in the deep ocean. 

47362. DSL at 06:01 AM on 16 April 2013
       Antarctica is gaining ice
       

       AR4 Ch 4.6.3.1 (2007): "Long-term data are very sparse, precluding confident identification of continent-wide trends."

       Shepherd et al. (2013): 

       "We combined an ensemble of satellite altimetry, interferometry, and gravimetry data sets using common geographical regions, time intervals, and models of surface mass balance and glacial isostatic adjustment to estimate the mass balance of Earth’s polar ice sheets. We find that there is good agreement between different satellite methods—especially in Greenland and West Antarctica—and that combining satellite data sets leads to greater certainty. Between 1992 and 2011, the ice sheets of Greenland, East Antarctica, West Antarctica, and the Antarctic Peninsula changed in mass by –142 ± 49, +14 ± 43, –65 ± 26, and –20 ± 14 gigatonnes year−1, respectively. Since 1992, the polar ice sheets have contributed, on average, 0.59 ± 0.20 millimeter year−1 to the rate of global sea-level rise."

       Antarctica, like Greenland, can show mass increase in the interior while still showing an overall net loss.  That may be the source of some confusion.  

47363. Kevin8233 at 05:37 AM on 16 April 2013
       Antarctica is gaining ice
       

       DSL,

       As I stated earlier, the latest prediction that the IPCC has made, predicts that Antartica will gain ice as temp increases.

       The whole gist of this particular thread is that the ice will go down as temp increases, and that "Deniers" were incorrect in their belief that the increase in ice was contrary to predictions because it was only sea ice that increased, not Land ice.

       I noted that there is a discrepancy in that the IPCC predicted an increase in Land ice, not a decrease.  It very well could be that you are correct in that this thread was created after new research indicated that Land ice should decrease and not increase.

       The AR4 did in fact come out prior to 2008, having come out in 2007 (with research obviously prior to that).  

        

47364. DSL at 05:25 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin, the bottom line is that you're quoting FAR or TAR as a representative position.  It's not.  AR4 summarizes FAR but does not say, "And we still draw those conclusions."  Discussing F/TAR might be interesting, but it's not relevant.  AR4 is already being set aside.  The science upon which AR5 rests is already in publication.  Refer to it, as AR5 will.  We now know more about the Antarctic.  Get back into your time machine and return to the present.

       Or don't, but don't be surprised if people ignore you, because F/TAR is just not that interesting.  

47365. Kevin8233 at 05:20 AM on 16 April 2013
       Antarctica is gaining ice
       

       Bob Loblaw,

       How about the AR4's summary?  The ice sheet is predicted to thicken!

       I have shown IPCC's prediction that the ice sheet will thicken.  Does someone have an IPCC prediction that the ice sheet will lessen?

       Moderator Response:

       [JH] You seem to be more interested in playing "Gotcha" games with other commentors than engaging in a civil discussion of the science. As far as I am concerned, playing Gotcha is sloganeering which is banned by the SkS Comments Policy. Please cease and desist. If you do not, your posts will be summarily deleted.

47366. Kevin8233 at 05:13 AM on 16 April 2013
       Antarctica is gaining ice
       

        

       Sphaerica,

       How do you read the quote from the AR4?

       Key regional projections highlighted in the TAR

       Increased melting of Arctic glaciers and the Greenland ice sheet, but thickening of the Antarctic ice sheet due to increased precipitation, were projected.

       This is not cherry picked.  This is AR4's summary of the TAR's prediction.  It is not my interpretation.  I copied the words directly.

        

       How about the actual prediction from the TAR?  Models predict....  Not Kevin interprets these models to predict.  It says the models predict.

        

       Explain how I am not understanding these predictions. 

       Moderator Response:

       [JH] You seem to be more interested in playing "Gotcha" games with other commentors than engaging in a civil discussion of the science. As far as I am concerned, playing Gotcha is sloganeering which is banned by the SkS Comments Policy. Please cease and desist. If you do not, your posts will be summarily deleted.

47367. Bob Loblaw at 05:08 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin@174

       Why is it that you stop reading/processing information as soon as you see something that you think supports your predtermined conclusons?

       The passage you quote talks about snowfall and melt. It does not talk about ice flow. Mass balance of a marine-terminating glacier depends on more than just snowfall and melt. Thre is not enough information in that quoted passage to support your conclusion that Antarctic Land Ice will increase.

       Until you do a complete mass balance calculation, you will continue to arrive and unspported (and/or unsupportable) conclusions.

47368. Bob Lacatena at 05:02 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin,

       The bottom line is that you don't understand what it is that you are reading, and you are projecting that ignorance onto everyone else.

       The Antarctic Ice Sheet is a complex environment, consisting of an interaction between rising temperatures, increasing precipitation, ice at extreme altitude (hence always below freezing), ice just above sea level (affected by air temperature), ice below sea level (affected by the warming water beneath), and gravity (which threatens to flow ice gains in the interior quickly down into the ocean, where it will melt).  This now is recognized to be further complicated by the freshening of the surrounding ocean water due to the melt, changes in currents, etc.

       And out of all of this, your takeaway is that the IPCC reports have some comments that you can cherry-pick to raise false doubt.

       This is why the term "denier" is used at all.

       Bottom line:   You don't understand what you are reading, and you are going out of your way to create an illusion of doubt and incompetence, because you can't come to terms with the idea that your actions (and lack of action) are going to affect future generations, and you maybe will need to demonstrate more responsibility (and yes, maybe a little sacrifice) when you don't want to.

       I am always appalled at the way my generation lauds The Greatest Generation for the great sacrifices they were repeatedly able to make... and yet they won't surrender their multi-ton SUVs until you pry them from their baked, dead hands.

       Moderator Response:

       [JH] Please tone down the judgemental rhetoric. We simply do not know whether Kevin posts to cause mischief, or is honestly trying to understand a very complex subject matter. Kevin has also been advised to tone down his posts. 

47369. Kevin8233 at 04:46 AM on 16 April 2013
       Antarctica is gaining ice
       

        

        

       From the Scenarios of future change, 16.1.4 of the Third assessment report...

       Models predict that land areas in the Arctic will receive substantially increased snowfall in winter and that the climate will be markedly warmer. Summer could be much warmer and wetter than present. The climate over the Arctic Ocean does not change as dramatically, but it will become warmer and wetter by 2080. For the Antarctic continent, the models tend to predict more snow in winter and summer. Although temperatures are forecast to increase by 0.5°C, there will be little impact on melt because they will remain well below freezing, except in limited coastal localities. The Southern Ocean warms least, especially in summer. Precipitation increases by as much as 20%, so there will be more freshwater input to the ocean surface. This chapter also refers to other climate models. Some are equilibrium models for the atmosphere only; others are transient, coupled atmosphere-ocean models. Some deal with aerosols and other do not. In polar regions there can be large differences in predictions, depending on the model chosen, although most predict large changes in climate over the next 100 years. Assessments of impacts will vary, depending on the climate model chosen. This should be kept in mind in assessing the impacts described in this chapter.

       And yes, there is extensive uncertainty in this prediction, as some processes are not understood entirely.

        

       Bottom line though, the latest prediction by the IPCC has Antartica Land Ice gaining as temps increase.

47370. Composer99 at 04:37 AM on 16 April 2013
       Antarctica is gaining ice
       

       (Clarification to my post #172: it does not include any comments posted by Kevin in #171.)

47371. Composer99 at 04:36 AM on 16 April 2013
       Antarctica is gaining ice
       

       I would also add that the passage cited by Kevin is not a prediction (contrary to his assertion), but a description of observed contemporary ice sheet behaviour, of Antarctica as a whole, up until the publication of FAR, while the discussion in the OP has to do with observed (not predicted) behaviour in the last decade (as per the publication dates of papers cited), so there is little surprise that the OP mentions more ice mass loss than FAR.

       Finally, scaddenp mentioned the Third Assessment Report, in 2001, whose descriptions of observed behaviour in Antarctica would differ from the observed behaviour described in the 1990 FAR and also from the behaviour discussed in the present day.

       Kevin, was it your intent to suggest that:

       1. There is something illegitimate about having a superior understanding of ice sheet behaviours after 20+ years of further study, such that predictions are more refined and observations more robust and less uncertain?
       2. There is something illegitimate about conditions changing such that what was the case up until 1990 (net balance or even land ice mass gain) has changed by the present day (net land ice mass loss)?
47372. Kevin8233 at 04:28 AM on 16 April 2013
       Antarctica is gaining ice
       

        

       I could not find an actual prediction regarding antartic ice sheet levels in the fourth assessment (they do discuss the peninsula).  They do, however, in the openning comments address the projections of the TAR as indicated below.

       Key regional projections highlighted in the TAR

       Increased melting of Arctic glaciers and the Greenland ice sheet, but thickening of the Antarctic ice sheet due to increased precipitation, were projected.

       It is interesting that this is not sea ice they are talking about, but land ice.

        

       So Sphaerica, has the science advanced enough for the fourth (actually third) assessment?  If not, then I guess they have no business commenting on anything.  The Third assessment was saying that snow gains more than covers coastal losses.

        

47373. Rob Honeycutt at 04:21 AM on 16 April 2013
       Antarctica is gaining ice
       

       Yup.  Just reading through it.  It's all relative to sea level changes.  What's particularly interesting to me (and encouraging) is that the report isn't overstating their confidence levels.  They're using very careful wording to accurately convey what they knew at that time.  If you read on, they're also talking about the instability of the WAIS.  Clearly, you can be adding ice (snow) in the interior but also be losing ice through ablation.  And that is what I've always read in the literature.  I'm not seeing the FAR chap 9 disagreeing with this at all.

47374. Nick Palmer at 04:03 AM on 16 April 2013
       2013 SkS Weekly Digest #15
       

       Thanks moderator. Working now. It's really worth checking out for the refreshing forthrightnes of the language

47375. KR at 04:03 AM on 16 April 2013
       Antarctica is gaining ice
       

       Rob Honeycutt - That passage apears to be from the 1990 IPCC FAR report, chapter 9, page 27. 

       Kevin - Two notes. First, list your references.

       Second, do you honestly think that the science wouldn't be updated in the last 23 years? Sea level contributions and cryosphere mass balance are still under investigation, and cryosphere contributions to sea level are still at a somewhat lower certainly in the 2007 AR4 report. Not to mention that the last 23 years of warming will have changed the situation somewhat. 

       Current measures (including GRACE mass measures) indicate a net loss of Antarctic land ice. Mass balance includes both accumulation (increased snowfall due to higher absolute humidities) and loss (increased melting at the coasts due to warmer sea water). Snowfall can increase and Antarctica still lose mass, because there are two terms to that balance. 

47376. Bob Lacatena at 04:00 AM on 16 April 2013
       Antarctica is gaining ice
       

       Rob,

       Here's the link to the chapter from the First Assessment Report, published in 1990.  The reason for the typos is that the PDF online is a scan (image), not text, so it had to be transcribed.  See section 9.4.5, and as usually, read the entire thing, not just the cherry-picked section chosen by a denier for a quote... particularly things like the opening line ("The question of the balance of the Antarctic ice sheet proves to be a very difficult one from a physical point of view...") and later ("It must be stressed that the inference of ice mass discharge from a limited number of surface velocity measurements involves many uncertainties.").  The quote in question is on page 273.

       So Kevin's complaint appears to be that in 1990 (23 years ago) scientists did not perfectly understand and predict exactly what would happen a quarter of a century later as a result of climate change.  And we should "update" the current rebuttal to properly reflect what scientists didn't perfectly understand 23 years ago.

       [You just can't make this stuff up.]

47377. Kevin8233 at 03:52 AM on 16 April 2013
       Antarctica is gaining ice
       

       The link is;

       IPCC FAR link

       It is the First assessment.  Chapter 9, page 273.

       Increased snow accumulation at higher altitudes has long been predicted and known.

       This is not about high altitudes, this is about the antartic (which has a lot of land at high altitudes but..).  The assessment is saying that there will be ice build up (snow build up - same thing as snow that gets piled on becomes ice) in the interior, with a net result of, a positive build up of ice through out antartica, not a loss.

       The SkS thread clearly states that there will be a net loss, so again, clearly something is amiss.

       Moderator Response:

       [RH] Fixed link that was breaking page formatting.

47378. Rob Honeycutt at 03:35 AM on 16 April 2013
       Antarctica is gaining ice
       

       On first pass, other than the weirdness, it sounds like the passage is discussing snow accumulation rather than ice. But without a reference it's hard to know. Increased snow accumulation at higher altitudes has long been predicted and known.

47379. Rob Honeycutt at 03:31 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin...  Can you provide an actual link to that passage.  The strange formatting and spelling make me question the source.

47380. Kevin8233 at 02:20 AM on 16 April 2013
       Antarctica is gaining ice
       

       Composer99,

       Here is the ambiguity.

       Support for the idea that higher temperatuics will lead to

       significantly largei accumulation also comes horn observations

       on the Antarctic Peninsula Over the past "?() yeais

       temperature has gone up here by almost 2°C, wheieas

       accumulation increased by as much as 2 W in paiallel with

       this (Peel and Mulvaney, 1988) Although this cannot be

       taken as proof of a causal relationship it is in line with the

       sensitivity estimates listed in Table 9 7 which span a lactoi

       ol two

       In summary, all quoted studies show an inciease in

       accumulation with warming and thus a decrease in sea

       level An ablation zone does not effectively exist in

       Antarctica, and a laige wanning would be icquired in older

       for ablation to influence mass balance

       That is a quote from the first assessment.  It clearly predicts that there should be an increase in Land ice in Antartica.  The SkS thread here says that there should be a decrease in Land ice.  One of these predictions is obviously in error.

        

47381. Jubble at 01:56 AM on 16 April 2013
       Further Comments on The Economist's Take on Climate Sensitivity
       

       I realise that this comment is not strictly related to the article, and would understand if it is not approved.

       I recently read the article "The Joy of Global Warming" in the News Review of the Sunday Times (printed 31 March 2013).  The synopsis at the start read "Climate change can be good for us and we are wasting billions trying to fight it before we need to".  Have you at Skeptical Science read this article, and are there any plans to respond to it?  If it is misleading or inaccurate, I would be happy to register a complaint about it via the UK Press Complaints Commission.

47382. Composer99 at 01:37 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin:

       As far as I can see there is no ambiguity. The behaviour of Antarctic land ice along the coast is not the same as the behaviour of sea ice.

47383. KK Tung at 01:16 AM on 16 April 2013
       The anthropogenic global warming rate: Is it steady for the last 100 years?
       

       Replying to post 27:  Yes, that is the main takeaway.  The aerosol residence times are short, and so if China and other developing countries decide to clean up their air, the net anthropogenic withalwithal go up very quickly.

        

       Replying to post 26: They are all competing net heating profiles in the sense that they all lie within the range of uncertainty of aerosol cooling stated in IPCC AR4.

47384. vrooomie at 00:55 AM on 16 April 2013
       2013 SkS Weekly Digest #15
       

       Nick Palmer, your link seems to be a misdirect, back to SkS.

47385. Bob Lacatena at 00:24 AM on 16 April 2013
       Antarctica is gaining ice
       

       Kevin,

       Why does an increase in snowfall need to lead to an increase in land ice?  And why would any increase in land ice need to remain as a constant, unchanging effect?  A the same time, why do the models have to perfectly predict every reaction in a complex event never before seen by man?  If the models got a single thing wrong, at some point in time, then that means all of climate change theory is wrong and we can just ignore it all?

       I think you need to be more specific about what your questions (or criticisms) are.  As it stands, your comment seems to demonstrate nothing but confusion about some pretty simple issues.

47386. Nick Palmer at 23:29 PM on 15 April 2013
       2013 SkS Weekly Digest #15
       

       It's all over for the "contrarian" industry (I hope). They'll just have to keep their wacky opinions to themselves from now on. The US and China have just issued a joint statement accepting the science, the threat from AGW climate change and the urgency of the necessary action to minimise it.

       Here's the full text of the US/China statement 13/4/2013

       http://www.state.gov/r/pa/prs/ps/2013/04/207465.htm

       Moderator Response:

       [JH] Link fixed - I hope. 

47387. Philippe Chantreau at 23:15 PM on 15 April 2013
       2013 SkS Weekly News Roundup #15B
       

       Chris, I'm afraid it's more complicated. In truth, a lot of engineering solutions already exist that, if used concurrently, could limit the extent of the accidental geo-engineering experiment we're witnessing. The problem is political and economic: how to implement these solutions against the already existing ones in which powerful actors have a vested interest. Even the low hanging fruits of conservation and efficiency will be opposed in places like the US or Canada, where people have enjoyed care free energy use forgenerations. 

       The only true engineering problem that remains is that of energy storage and distribution.

47388. Lanfear at 23:10 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Esop@4 and Glenn Tamblyn@5 regarding arctic temps:

       There was a piece of related information in Climate Central, where the claim was that the warm air went up (to the stratosphere).

       I have not looked further into this, but thought that you might want to know that the heat may travel upwards too, escaping the system (and the thermometers) instead of just being shuffled around.

47389. Kevin8233 at 22:55 PM on 15 April 2013
       Antarctica is gaining ice
       

       scaddenp,

       So you are saying that antartica has a net loss of land ice.  But you just said that back as far as TAR 1 that models were predicting a net gain in snow fall, but did they predict a loss of coastal ice?  So which is it?  That is the point of my last post.  There seems to be some ambiguity here. 

       This whole thread is about how models and reality predict a loss in land ice, and that skeptics are confusing the gain in sea ice as proof of the failure of AGW.

       So, again, do the models predict a gain or loss of land ice?

       Moderator Response:

       [JH] Please lose the tone. BTW, there is nothing precluding you from doing your own research on the issues you have raised. 

47390. Glenn Tamblyn at 22:32 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Esop

       Incorporation of thr Arctic into the SAT records is now better tha it was. GISS always did that. And now HadCru do that better. The satellite products (they aren't really the surface but) extend to 82.5 North. Also, the area of the Arctic isn't that great and, since the SAT's are area weighted averages, doesn't impact as much as it might seem. Could omission odf Arctic have introduced a cool bias in the SAT record? Possibly, although I think it is probably small.

       In reality I think we have seen real a slowdown in SAT's over the last decade or so which Ocean effects can substantially explain. Other scientists such as James Hansen lean towards a larger role for increased aerosol concentrations. Either way several things are pretty clear

       Heating continues. Sea level is rising - heating. Ice is melting - heating. Oceans are warming - heating.

       Given the changes being seen in the oceans, large increases in aerosols due to China, India etc, and a weak Solar Cycle, I think that the more moderate level of atmospheric warming we have seen is actually pretty strong evidence of continued underlying warming.

       Not that we actually need that much; last time I checked basic principles in Physics don't turn on and off on a whim.

47391. Esop at 21:57 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Good stuff.

       I wonder how much of a cooling bias the fact that large parts of the Arctic, where the warming is dramatic, is not counted/properly compensated for in the global average surface temp. The Arctic keeps spilling cold air into lower latitudes where it goes into the average, while the warm air going into the Arctic is not measured. This cool bias sounds like a denier/disinformer dream come true scenario. The question is how large the cool bias really is, I have a feeling that it is pretty substantial, especially since 2010, with almost constant Arctic outbreaks, especially during the winter months.

47392. Kevin C at 21:36 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Ray: Those are good questions, and the first one has been taxing the authors here. The key point is that the OHC stuff has been unfolding very rapidly over the last few years, and some of the data is pointing in different directions. The community will no doubt be looking very closely at the heat distribution in the oceans as well as its relation to the rest of the climate system over the next few years. If the observational data are sufficiently good then I'd expect a consensus to begin to emerge in 2014/2015.
       
       Satellite measurement of temperatures is really hard. It's hard measuring a temperature at a range of 100km, it's harder doing it through a hot atmosphere, it's even harder doing it consistently over a decade and it's hardest of all doing it when you keep having to replace your instruments with new ones. For an indication of the problems try comparing 132 month smooths of the UAH and RSS data.
       
       Why is it necessary to use modelling after 2007? For the same reason we use reanalysis data. Relying on a single line of evidence makes your conclusions less robust. Multiple lines of evidence if they agree increase your confidence in a conclusion. More importantly, when they disagree you often learn something very interesting.

47393. Terranova at 21:30 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       Dana,

       i guess it is technically correct, but don't you think the use of the word "unprecedented" is a bit over the top when writing about a temperature record that only goes back 50 years? The article itself is nicely done, but using an adjective like that implies a a much greater weight should be given.  

47394. Ray at 20:42 PM on 15 April 2013
       Guemas et al. Attribute Slowed Surface Warming to the Oceans
       

       The authors state that "slowed global surfacewarming over the past 10-15 years can be explaind by an increase in ocean heat storage.  This they suggest can be 'attributed not to the accelerated deep ocean warming, but to the accumulation of heat in the relatively shallow oceans (to 700 meters)'.  They then conclude ""Most of this excess energy was absorbed in the top 700m of the ocean at the onset of the warming pause, 65% of it in the tropical Pacific and Atlantic oceans. Our results hence point at the key role of the ocean heat uptake in the recent warming slowdown.""

       However in a post at Skeptical Science by Rob Painting on Saturday, 24 September, 2011it was stated that "Current observations of the 700 metre surface layer have shown little warming, or even cooling, in the last 8 years; but the surface layer down to 1500 metres has shown significant warming, which seems to support the modeling".  and "Climate modeling and observations indicate that to fully understand the global enery budget (where all the heat is going) we need to include measurements of the deep oceans. The surface layers, even down to 700 metres, are not robust indicators of total OHC."

       This seems to not be in complete agreement with thie more recent papers.  Would  those more knowledgeable than I in this area explain the apparent anomaly.  Also why have the satellite readings since about 2000 apparently not shown a rise in SST?  And. last question, now that there is a comprehensive  Argo system why is it necessary to use modelling instead of the Argo results from 2007 onward?

        

47395. chriskoz at 18:26 PM on 15 April 2013
       2013 SkS Weekly News Roundup #15B
       

       Bill,

       Gavin Schmidt said once on realclimate: "If you want to save the planet, study engineering, not climate science". Presumably, he meant "whatever is to discover about AGW and the reason why we want to stop it, has been discovered and settled. Now, solutions are far more urgent than further details"

       Gavin, who's been working with Jim, has certainly good perspective. Acitivism alone will not solve the problem. This is just the first step that will become the majority, including all policy makers are aware. Next is to implement the engineering solutions.

       I'm interested what you have to say. Mods, please give us the e-mail contact.Thanks.

47396. KR at 12:38 PM on 15 April 2013
       Real Skepticism About the New Marcott 'Hockey Stick'
       

       The radiocarbon dating error (applying to most of the proxies) in Marcott et al is modeled as a random walk, with a 'jitter' value of 150 years applied to each anchor point. For the Antarctic ice cores, a 2% error range is assumed, for Greenland, 1%. The measured Marcott et al transer function includes perturbing the samples by those date uncertainties through Monte Carlo perturbation analysis - if I am reading the paper correctly, the frequency response is indeed a full characterization of the smearing effects of the processing including date errors, 1000 perturbation realizations, temperature variations, time averaging of proxy sampling (linear interpolation between sample times, not higher frequencies), etc. The date errors, I'll point out, are significantly smaller than the 600 year result of filtering a 200 year spike - and they are incorporated in that transfer function. 

       Once properly measured, the Marcott et al processing can be treated as a black box, and the modification of any input determined by that transfer function, as I did above. 

       Again, I must respectfully consider your objections sincere, but not supported by the maths. And again, maths, or it didn't happen. I'm willing to be shown in error, but that means demonstrating it, not just arguing it from what might seem reasonable. 

47397. Tom Curtis at 11:47 AM on 15 April 2013
       Real Skepticism About the New Marcott 'Hockey Stick'
       

       KR @74, one disadvantage of a background in philosophy rather than science is that I can't do the maths.  I can however, analyse the logic of arguments.  If you are correct in your interpretation of the transfer functions and frequency responses, apply your filter to the mean of 73 proxies generated by perturbing your spike and it will make no difference. 

       Of course, we both know it will make a difference.  That being the case, the issue between us is not of maths, but whether or not we should take seriously errors in dating.

47398. Tom Curtis at 11:42 AM on 15 April 2013
       Real Skepticism About the New Marcott 'Hockey Stick'
       

       KR @73, you are missing the point.  Marcott et al's analysis of signal retention analyzes the effects of their method on the proxies themselves.  It does not analyse the effects of the natural smoothing that occurs beause the original proxies are not temporally aligned.  They state:

       "Cross-spectral analysis of the input white noise and output synthetic stack shows that the time series are coherent and in phase at all frequencies (Fig. S17b,c), indicating that our Monte Carlo error-perturbation procedure does not artificially shift the amplitude or phase of input series."

       (My emphasis)

       The input series are not the actual temperatures, but the proxies.  Ergo any smoothing inherent in the proxies or inter-proxy comparison are not tested by Marcott et al.  Consequently your analysis is a reasonable test for whether a Tamino spike would be eliminated by the first three forms of smoothing I discussed; but it does not test the impacts of the other "natural" forms of smoothing.  In particular it does not test the most important of these, the smoothing due to lack of synchronicity in "measured age" in the proxies for events which were in fact synchronous in reality.

       Further, your use of the central limit theorem is misleading.  It indicates, as you say, "the results of perturbed data with random errors should include the correct answer as a maximum likelihood" but it give no indication of the magnitude of that maximum likilihood response relative to noise in the data.  Put simply, given a noise free environment, and the central limit theorem, we know that a Tamino spike will show up at the correct location as a peak in the smoothed data.  We do not know, however, that the peak will be large relative to other noise in the data.  The assumption that it will be is simply an assumption that temperatures throughout the holocene have been relatively flat on a decadal time scale, so that any variation other than the introduce Tamino spike will be smoothed away.  In effect, you are assuming what you purport to test.

       You can eliminate that assumption by introducing white noise with the same SD as the variation in the full Marcot reconstruction after you have applied your filter.  That noise then provides a natural scale of the significance of the peak.  That step is redundant in your current analysis, given the size of the spike after smoothing.  However, your current spike is exagerated because while it accounts for all methodological smoothing, it does not allow for natural smoothing.  

47399. KR at 11:22 AM on 15 April 2013
       Real Skepticism About the New Marcott 'Hockey Stick'
       

       A side note on this discussion: Transfer functions and frequency responses.

       If you can run white noise (all frequencies with a random but known distribution) or a delta function (a spike containing correlated representatives of all frequencies) through a system and examine the output, you have completely characterized its behavior, its point spread function (PSF). You can then take a known signal, any signal, run its frequencies through the transfer function, and see what happens on the output side of the system. The system can be treated as a "black box" regardless of internal processing, as the transfer function entirely characterizes how it will treat any incoming data. 

       Marcott et al did just that, characterizing the frequency response of their processing to white noise and examining the transfer function. Which is what I have applied in my previous post, showing that a 0.9 C spike (as discussed in this and other threads) would indeed survive, and be visible, after Marcott et al processing. 

       If you disagree - show the math. 

47400. KR at 11:12 AM on 15 April 2013
       Real Skepticism About the New Marcott 'Hockey Stick'
       

       Tom Curtis - I'm afraid I'm going to have to disagree with you.

       Marcott et al ran white noise through their reconstruction technique, including sampling, multple perturbations, etc., and established the frequency gain function noted in their supplemental data. That includes all of the smoothing and blurring implicit in their process, unless I have completely misunderstood their processing. That is a measure of data in/data out frequency response for their full analysis, the entire frequency transfer function, including 20-year resampling. The lower frequencies (with the average contribution to the entire timeline, and the ~1000 yr curves) will carry through the Marcott et al Monte Carlo analysis, their frequency transfer function - and no such spike is seen in their data. 

       WRT imperfect knowledge - the perturbations of the proxies should account for this, as (given the Central Limit Theorem) the results of perturbed data with random errors should include the correct answer as a maximum likelihood.And radiocarbon dating does not have a large spread over the 11.5 Kya extent of this data - dating errors will not be an overwhelming error. And if there was a consistent bias, it would only stretch or compress the timeline. 

       If you disagree, I would ask that you show it - with the maths, as I have done. Until or unless you do, I'm going to hold to my analysis of the effects of the sampling and Monte Carlo analysis effects. Without maths, I will have to (with reluctance) consider your objections to be well meant, but mathematically unsupported. 

       I will note that my results are in agreement with Taminos - he shows a ~0.2 C spike remaining after Marcott processing, consistent with my 0.3 C results plus some phase smearing. Again, if you disagree - show it, show the math, don't just assert it. 

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