cc: Malcolm Hughes date: Mon, 20 Mar 2006 13:55:44 -0500 from: "Michael E. Mann" subject: [Fwd: Re: Trees] to: Jonathan Overpeck , Keith Briffa FYI, Mike From: "Michael E. Mann" Reply-To: mann@psu.edu Organization: Dept. of Meteorology, Penn State University To: Richard Alley Subject: Re: Trees References: Hi Richard, Thanks, that sounds reasonable. Let me respond to one point, though. I rebuked Cuffey for asking the wrong question. I pointed out to him that we certainly don't know the GLOBAL mean temperature anomaly very well, and nobody has ever claimed we do (this is the question he asked everyone). There is very little information at all in the Southern Hemisphere on which to base any conclusion. So I told him that of course the answer to that question is *no* and it would be surprising if anyone answered otherwise. But, as I proceeded to point out, that's the wrong question. I pointed out that a far more sensible question is, "do we know the relative temperature anomaly for the NORTHERN HEMISPHERE to within that accuracy, and that we almost certainly do know that. I pointed to a comparison of about a dozen different reconstructions, at least one of them based entirely on non-tree ring information, all of which agree within about 0.2 C on average temperature of the 11th century relative to the late 20th century, and suggested that this reflects a reasonable estimate of the uncertainty, though some of the reconstructions are not entirely independent, so the non-independence needs to be taken into account in estimating the true uncertainty--but that this is almost certainly smaller than about 0.2C given the multiple estimates that roughly agree. I then pointed out that we don't need the global temperature to draw conclusions about the relative roles of different natural and anthropogenic forcings, because the models tell us that the NH alone is a good proxy for the response of the climate system to estimated forcings over the past 1000 years, and that the simulations (also about a dozen now) look very much like the reconstructions, within estimated uncertainties. I could be wrong, but I thought I sensed that the panel was quite satisfied with my answer (and my correction of Cuffey) and that they also probably recognized, in the context of my explanation, that Cuffey had been asking speakers the wrong question! I must confess I was not impressed by Cuffey's questions. I thought the other panel members asked more insightful questions. But that's just my view. talk later, mike The question by Richard Alley wrote: Mike--Thanks. Comments embedded, I hope. On 3/19/06 4:53 PM, "Michael E. Mann" [1] wrote: Hi Richard, Thanks for your email, and for your earnest views. There was indeed considerable discussion of thes issues on friday, the day after your talk. Both Malcolm Hughes and I discussed these issues in some detail with the committee. Please feel free to take a look at the presentation I gave to the committee: [2]http://www.meteo.psu.edu/~mann/Mann/lectures/lectures.html Quite nice. Thanks. There is no doubt that there are issues with the potential non-stationarity of tree responses to climate, and this introduces caveats. As I pointed out to the committee, these issues were actually stressed in our '99 article which produced the millennial temperature reconstruction, the title of which was (emphasis added) "Northern Hemisphere Temperatures During the Past Millennium: Inferences, Uncertainties, and Limitations ". The underlying assumption of our own work has always been that each of the proxies have their own potential problems, and "multiproxy" approaches are probably the most robust. I don't have a particular axe to grind about any particular proxy, and recognize that there are some pretty serious potential problems with all proxies, including ice core delta o18 (as you're aware, these are not clean paleotemperature proxies at all), and Sr/Ca or o18 from corals. There is a good discussion of the strengths and weaknesses in all of the proxies in Jones and Mann (2004): Jones, P.D., Mann, M.E., Climate Over Past Millennia, Reviews of Geophysics, 42, RG2002, doi: 10.1029/2003RG000143, 2004. Agreed completely on value of multiproxy. And yes, a lot of my earlier work was on figuring out how much of the isotopic signal in ice cores is temperature and not other things. The reassuring result was that all the big stuff is temperature, although with a rather bizarrely unexpected calibration. Of the little stuff, stack several cores and you get up toward order of half of the variance being temperature with the rest left for something else. The devil is in the details of when big meets little, as well as what calibration to use. But, there is a pile of data from the 3% of the globe that is ice sheets that have not been assembled properly. I've been trying in a quiet way to do what is possible so that the recommendations are forward-going; if the recommendations are appropriate, who knows, maybe money will become available to get someone to pull the data together. I won't try to defend Rosanne D'Arrigo's analysis, because frankly many in the tree-ring community feel it was not very good work.You should be aware that her selection criteria were not as rigorous as those used by other researchers, and the conclusions she comes to reflect only the data and standardization methods she used--they don't speak for many other, in my mind, more careful studies. If you want the views of the leading experts in this community, I would refer you to my colleagues Malcolm Hughes and Keith Briffa, who have been carefully researching these issues for decades. With your permission, I'd like to forward your email to them for a more informed response--would that be ok? My comments may not be ideally suited for Keith. When I sent inquiry to Overpeck (who coincidentally happens to be one of the convening lead authors of the IPCC paleoclimate chapter), he promptly sent it to several others including Keith. Keith's reassurances were among those that I found less than reassuring--Rosanne probably screwed it up, there are some unpublished data that make it look better. (Unfortunately, in my switch from my old Sun to my new G4, I can't find that message and a couple of related ones. I fear that I will repeat this statement a few times in the near future--what was supposed to be an afternoon changeover took three weeks, and a lot of things were in limbo during the interim. I'm now trying to adapt a file system that developed on Suns since 1988 to a different computer...). Ed Cook was also on the list; I can't for the life of me remember whether Malcolm was or not. So fine to send there, and to Keith if you'd like, but it will probably insult him, and I would hate to do that. >From the questions asked by the community, I really only sensed from one individual the sort of extreme tree-ring skepticism that you describe. And I frankly think the individual proved himself to be not especially informed. The committee appeared to be convinced by the responses I provided to that individual. In short (and please see my presentation for further information) I made the following points: 1) multiproxy reconstructions that don't use tree-ring information at all for the long-term variability (Moberg et al, 2005) agree w/ all other (roughly a dozen now) reconstructions that late 20th century warmth is anomalous in the context of the past 2000 years at the hemispheric scale. This is one key point (i.e, the take home conclusion doesn't depend on tree-rings at all!). Another point I made is that the criticism (by some) that tree-rings underestimate the low-frequency variability is seriously challenged by the fact that temperature reconstructions based on data such as northern hemisphere glacier mass balance inversions (i.e. Oerlemans et al, 2005) show less hemispheric LIA cooling than many of the purely tree-ring based reconstructions. Another point I made in response to this line of criticism is that many of the long-term tree-ring series used in these reconstructions (see e.g. the recent Science article by Osborn and Briffa) show late 20th century conditions that are unprecedented in at least a millennial context. That is to say, if there is some upper temperature threshold in the past beyond which trees do not record, they do not appear to have encountered that threshold prior to the late 20th century, because the most positive anomalies in more than a thousand years are encountered in the last 20th century for most regions. The Osborn and Briffa science paper (attached) shows that the conclusion of anomalous 20th century warmth is spatially robust in a pan-hemispheric data set, it does not just reflect one region (in fact, they show that their conclusion of anomalous late 20th century warmth is robust to the elimination of any three data series used). Of course, Lonnie Thompson comes to the same conclusion using composites of his tropical ice cores. i.e., that the late 20th century behavior is anomalous in a greater-than-millennial context. Of course, tropical ice core delta o18 is difficult to defend as a pure paleothermometer too, but in this case it is difficult to see where non-climatic impacts could enter into the anomalous late 20th century behavior. I had read Osborn and Briffa with great interest when it came out. I attach my talk; Lonnie's data figured prominently. His isotopic ratios have always worried me; he personally is coauthor on a paper pointing out that whatever they are, they probably aren't temperature. I am more optimistic than that, but not much. And his beautiful stack that looks so much like the instrumental record is almost entirely a couple of cores. But what he does have are i) the loss of annual layering in Quelccaya after more than a millennium; ii) the appearance of melt at the top of Kilimanjaro after more than 10 millennia; and iii) the appearance of organic matter from one of the outlets of Quelccaya after more than 5 millennia. Unfortunately, (iii) is not published yet, (ii) is not as well published as it should be (he noted the appearance of melt in the paper, but the slide I showed is from him and not published, and the details of the physical nature of the cores are not out there), and (iii) is also not published--his papers note the existence of the annual layers and then their loss in isotopes, but the actual deepest level reached is not in the papers but given as a personal communication. The difficulty of spending your life at high altitude or publishing Science papers is that the mundane parts don't come out so easily. So, in short, while the issues you mention are real (and have been emphasized by those actually working in this area for decades, as well as by us in all of our key publications), the primary conclusions (i.e. that late 20th century warmth is robust in at least a millennial context) appears robust, and is common to reconstructions whether or not they use tree-rings to reconstruct the low-frequency variability. . There is yet another study (embargoed right now in Science) that comes precisely to this same conclusion yet again. I'll actually be quite surprised if the committee comes to a *different* conclusion from that. Nonetheless, I appreciate your comments and your concerns, and your message does highlight a few issues which would be useful for us to clarify for the committee in case there is still any misunderstanding of the key points I have raised. I surely hope you're right, but I would wager a beer that they are less favorable than you'd like. I don't know how you answered, but all the people I heard were asked the same thing: Do we know the temperature of a millennium ago within 0.5 C? All gave some qualified version of "no". As I said, I'd like to be able to forward your message to Keith and Malcolm, if this is ok w/ you, so that they can provide a perhaps even better informed response to the criticisms you raise. So please let me know if that would be ok... As noted above, I want to get the science right, and if you think appropriate, go ahead. But, I fear that Keith will view them as insulting, and I don't want to do that. thanks, mike Thank you. Also as noted above, I don't have time for this... But it is interesting. --Richard -- Michael E. Mann Associate Professor Director, Earth System Science Center (ESSC) Department of Meteorology Phone: (814) 863-4075 503 Walker Building FAX: (814) 865-3663 The Pennsylvania State University email: [3]mann@psu.edu University Park, PA 16802-5013 [4]http://www.met.psu.edu/dept/faculty/mann.htm