cc: "Keith Briffa" <k.briffa@uea.ac.uk>, "Myles Allen" <allen@atm.ox.ac.uk>, "Jan Esper" <esper@wsl.ch>, anders@misu.su.se, Eduardo.Zorita@gkss.de, hegerl@duke.edu, weber@knmi.nl, t.osborn@uea.ac.uk
date: Thu, 16 Nov 2006 16:41:57 +0000
from: Martin Juckes <m.n.juckes@rl.ac.uk>
subject: Re: Mitrie: Bristlecones
to: "Rob Wilson" <rob.wilson@ed.ac.uk>

Thanks for all those comments.

I'm trying to avoid omitting data on the basis of cicrumstantial evidence, 
even when it is presented enthusiastically. The Bunn et al. study is 
interesting (attached) because they show estimated dates of the onset of 
strip-bark growth. It looks to me as though the growth anomaly of the 
strip-bark trees relative to the others is more to do with this change than 
anything else. The onset of a positive growth anomaly in the 1850s is 
certainly too early to be associated with CO2 increases.


cheers,
Martin

On Thursday 16 November 2006 14:51, Rob Wilson wrote:
> Re: Mitrie: BristleconesDear All,
> For the D'Arrigo et al. 2006 paper, I did indeed consider using the 
Bristlecone pine data.
> However, due to the issues raised by Macintyre and others, we felt that it 
would be unwise to use these data, especially as our data-set was biased more 
to higher latitudes.
> 
> However, I did look at the data. I do not like ignoring potential data-sets.
> 
> Of the BP data that I managed to get my hands on, I identified a 
significant, but relatively weak, correlation with local gridded mean summer 
temperatures for three sites. These three sites are: Hermit Hill (N = 38; 
1048-1983) and Windy Ridge (N = 29; 1050-1985) from Colorado and Sheep 
Mountain (N = 71; 0 - 1990) from California.
> 
> The attached figure compares the RCS chronology using these data (very 
similar to the STD version in actual fact) with the North American RCS 
composite series used in D'Arrigo et al. (2006). Both series have been 
normalised to the 1200-1750 period to highlight any potential differences in 
the 20th century.
> 
> There is generally fairly good coherence between the two series between 1100 
and the 1900. I personally do not think we have enough sites prior to 1400, 
so the lack of coherence prior to 1100 might just reflect regional 
differences and not enough series to derive a meaningful mean function. 
Although correlation with gridded temperatures are relatively low (~0.40), 
the coherence with the NA composite would seem to suggest that temperature is 
the dominant signal over the last 900 years or so. 
> 
> In the 20th century, the BP index values are clearly UNDER the NA mean. I 
would interpret this as suggesting that there does not appear to be any CO2 
influence in the BP data. This of course assumes that there is no 
fertilisation effect in the rest of the NA data.
> 
> There is also the Salzer BP based temperature reconstruction:
> http://www.ncdc.noaa.gov/paleo/pubs/salzer2005/salzer2005.html
> 
> again this does not correlate particular well with gridded temperatures - in 
fact it is driven more by trends, but there are some similarities with my BP 
chronology and NA series.
> 
> I hope this helps the discussion
> best regards
> Rob
> 
>   ----- Original Message ----- 
>   From: Jan Esper 
>   To: Keith Briffa ; Martin Juckes ; Myles Allen 
>   Cc: anders@misu.su.se ; Eduardo.Zorita@gkss.de ; hegerl@duke.edu ; 
weber@knmi.nl ; t.osborn@uea.ac.uk ; Wilson Rob 
>   Sent: Thursday, November 16, 2006 1:36 PM
>   Subject: Re: Mitrie: Bristlecones
> 
> 
>   ...no, no, not a lot to add from my side. This is much more than I could 
have said. Except, I once looked at strip bark growth trees in Central Asia, 
and at least there the cause for this growth form was clear to me (Esper 
2000, The Holocene):
> 
> 
>   "Strip-bark growth forms (Ferguson, 1968; Fritts, 1969; Graybill and Idso, 
1993; Kelly et al., 1992; Wright and Mooney, 1965) also appear in older 
Juniper trees. This condition develops as the cambium is damaged locally and 
will no longer be overgrown. Mechanical damage by rockfall seems to be the 
principle stimulus for cambial dieback and unilateral growth. In extreme 
cases only a narrow strip on the stem is still active, creating these 
eccentric growth forms."
> 
> 
>   I didn't visit the Bristlecone sites yet, but the mechanism might be the 
same (some physical damage).
> 
> 
>   I believe that over time the crown and root system are reduced, but not at 
the same rate than the reduction in circumference covered by the cambium. 
This would be the key for strip bark tree rings being wider than "normal" 
rings.
> 
> 
>   I am not very convinced that there are long-term fertilization effects by 
CO2 (but have of course no proof for this). As far as I know, (most) results 
from free air CO2 enrichment experiments suggest that there is no long-term 
effect.
> 
> 
>   I Cc Rob Wilson to the mail, as he might have looked at Bristlecone data 
recently. Pehaps he wants to add something.
> 
> 
>   Best --je
> 
> 
>   At 11:57 Uhr +0000 16.11.2006, Keith Briffa wrote:
>     Martin and all,
>     I know Franco very well - but he has not worked extensively with the 
Bristlecones. I still believe that it  would be wise to involve Malcolm 
Hughes in this discussion - though I recognise the point of view that says we 
might like to appear (and be) independent of the original Mann, Bradley and 
Hughes team to avoid the appearance of collusion. In my opinion (as someone 
how has worked with the Bristlecone data hardly at all!) there are 
undoubtedly problems in their use that go beyond the strip bark problem (that 
I will come back to later).
>     The main one is an ambiguity in the nature and consistency of their 
sensitivity to temperature variations. It was widely believed some 2-3 
decades ago, that high-elevation trees were PREDOMINANTLY responding to 
temperature and low elevation ones  to available water supply (not always 
related in a simple way to measured precipitation) . However, response 
functions ( ie sets of regression coefficients on monthly mean temperature 
and precipitation data derived using principal components regression applied 
to the tree-ring data) have always shown quite weak and temporally unstable 
associations between chronology and climate variations (for the 
high-elevations trees at least). The trouble is that these results are 
dominated by inter-annual (ie high-frequency) variations and apparent 
instability in the relationships is exacerbated by the shortness of the 
instrumental records that restrict analyses to short periods, and the large 
separation of the climate station records from the sites of the trees. 
Limited comparisons between tree-ring density data (which seem to display 
less ambiguos responses) imply that there is a reasonable decadal time scale 
association and so indicate a real temperature signal , on this time 
scale .The bottom line though is that these trees likely represent a mixed 
temperature and moisture-supply response that might vary on longer 
timescales.
>     The discussion is further complicated by the fact that the first PC of 
"Western US" trees used in the Mann et al. analyses is derived from a mixture 
of species (not just Bristlecones ) and they are quite varied in their 
characteristics , time span, and effective variance spectra . Many show low 
interannual variance and a long-term declining trend , up until about 1850 , 
when the Bristlecones (and others) show the remarkable increasing trend up 
until the end of the record. The earlier negative trend could be (partly or 
more significantly) a consequence of the LACK of detrending to allow for age 
effects in the measurements (ie standardisation) - the very early sections of 
relative high growth were removed in their analysis, but no explicit 
standardistion of the data was made to account for remaining slow width 
changes resulting from tree aging.  This is also related to the "strip bark" 
problem , as these types of trees will have unpredictable trends as a 
consequence of aging  and depending on the precise nature of each tree's 
structure .
>      Another serious issue to be considered relates to the fact that the PC1 
time series in the Mann et al. analysis was  adjusted to reduce the positive 
slope in the last 150 years (on the assumption - following an earlier paper 
by Lamarche et al. - that this incressing growth was evidence of carbon 
dioxide fertilization) , by differencing the data from another record 
produced by other workers in  northern Alaska and Canada (which  incidentally 
was standardised in a totally different way). This last adjustment obviously 
will have a large influence on the quantification of the link between these 
Western US trees and N.Hemisphere temperatures. At this point , it is fair to 
say that this adjustment was arbitrary and the link between Bristlecone pine 
growth and CO2 is , at the very least, arguable. Note that at least one 
author (Lisa Gaumlich) has stated that the recent growth of these trees could 
be temperature driven and not evidence of CO2 fertilisation.
> 
>     The point of this message is to show that that this issue is complex , 
and I still believe the "Western US" series and its interpretation in terms 
of Hemispheric mean temperature is perhaps a "Pandora's box" that we might 
open at our peril!
>     What does Jan say about this - he is very acquainted with these issues?
> 
>     cheers
>     Keith
>     At 15:01 15/11/2006, Martin Juckes wrote: 
>       Hi,
> 
>       Concerning Bristlecones, I had a sympathetic reply from Prof. North, 
but he
>       deferred to the person who wrote the relevant paragraph in the NAS 
report
>       (Franco Biondi) who is firmly of the view that strip-bark bristlecones 
should
>       not be used. I've read a few of the articles cited to back up this 
statement
>       and I am surprised by the extreme weakness of the evidence. There is 
one
>       study of 27 strip-bark pines which shows that they clearly developed
>       anomalous growth around 1850. Attributing this to CO2 is odd, to say 
the
>       least. I'm writing a brief review of the literature which I'll send 
round in
>       a few days time.
> 
>       cheers,
>       Martin
> 
>       On Sunday 12 November 2006 22:21, Myles Allen wrote:
>       > Although it probably doesn't feel like it, it seems to me you're 
doing
>       > rather well...
>       >
>       > -----Original Message-----
>       > From: Martin Juckes [mailto:m.n.juckes@rl.ac.uk]
>       > Sent: 10 November 2006 15:24
>       > To: anders@misu.su.se; Eduardo.Zorita@gkss.de; hegerl@duke.edu;
>       > esper@wsl.ch; k.briffa@uea.ac.uk; Myles Allen; weber@knmi.nl;
>       > t.osborn@uea.ac.uk
>       > Subject: Mitrie
>       >
>       > Hello,
>       >
>       > well, I've had a few exchanges on climateaudit, and decided to leave
>       > them to
>       > it for a few days.
>       >
>       > I'm going to send an email to Prof. North of the NAS panel to ask if 
he
>       > really
>       > meant "don't use bristlecones", as he is quoted by McIntyre. I 
believe
>       > it
>       > would be incorrect to select sites on the basis of what the data 
from
>       > the
>       > sites looks like, and this makes up a substantial part of the 
argument
>       > in
>       > Graybill and Idso (1993).
>       >
>       > Does anyone know where I can get hold of the categorisation of the 
Sheep
>       >
>       > Mountain trees used by Graybill and Idso (ca534.rwl from the WDC for
>       > paleoclimatology I think) into "strip-bark" and "full-bark"? I've 
sent
>       > an
>       > email to the WDC query address.
>       >
>       > I've also sent of for a publication which is cited by co2science as
>       > using
>       > Sargasso Sea data with the dating shifted by 50 years (Loehle,  
2004,
>       > Ecological Modelling). This appears to be a source of considerable
>       > confusion
>       > among the climate sceptics. The shifted series fits nicely with the 
idea
>       > that
>       > the Medieval Warm Period was warmer than the 20th century, so there 
is a
>       >
>       > widespread perception that it is being ignored to fudge the results.
>       >
>       > Apart from a couple of oversights in the documentation of the data 
files
>       >
>       > McIntyre hasn't come up with much yet. I need to read up a bit more 
on
>       > the
>       > different Tornetraesk/Fennoscandia series.  There was an interesting
>       > discussion on "cherrypicking", with contributors suggesting that 
testing
>       > the
>       > effect of removing each proxy series in turn was "cherrypicking" and
>       > that
>       > selecting series based on subjective analysis of what the series 
look
>       > like
>       > would be much better!
>       >
>       > I've had a comment from the editor saying that responses to 
non-refereee
>       >
>       > comments are optional, especially if the comments are not relevant 
to
>       > the
>       > paper.
>       >
>       > cheers,
>       > Martin
>       >
>       >
>       >
> 
>     --
>     Professor Keith Briffa,
>     Climatic Research Unit
>     University of East Anglia
>     Norwich, NR4 7TJ, U.K.
> 
>     Phone: +44-1603-593909
>     Fax: +44-1603-507784
> 
>     http://www.cru.uea.ac.uk/cru/people/briffa/ 
> 
> 
> 
> 
> -- 
> PD Dr. Jan Esper
>   Swiss Federal Research Institute WSL
>   Zuercherstrasse 111, 8903 Birmensdorf, Switzerland
>   Voice: +41-44-739 2510
>   Fax:   +41-44-739 2515
>   http://www.wsl.ch/staff/jan.esper


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