File:Yamal peninsula summer jj temperature 700 1100 ad 1.svg

1. Contribution_Date
2. Date: 2013-05-21
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4. Title
5. Study_Name: Yamalia, NW Siberia 2000 Year Tree Ring Summer Temperature Reconstructions
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7. Investigators
8. Investigators: Briffa, K.R.; Melvin, T.M.; Osborn, T.J.; Hantemirov, R.M.; Kirdyanov, A.V.; Mazepa, V.S.; Shiyatov, S.G.; Esper, J.
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10. Description_and_Notes
11. Description: Summer (June-July) temperature reconstructions for Yamalia (combining Yamal and Polar Urals).
12. Values reported as mean June-July temperature anomalies from the 1961-1990 mean in degrees C.
13. (1) 2000 year reconstruction based on Yamal tree-ring width data spanning the period -96 to 2005; and
14. (2) 1000 year reconstruction based on variability in Yamal and Polar Urals tree-ring width data on >15-year
15. timescales combined with variability in Polar Urals maximum latewood density data on <15-year
16. timescales, each separately calibrated (at the appropriate timescale) against local June-July
17. temperature observations. This reconstruction spans the period 914 to 2005.
18. For further information, see the Briffa et al. (2013) paper and the suppplementary material available at:
19. http://www.cru.uea.ac.uk/cru/papers/briffa2013qsr/
20. This data file contains the approximately 2000-yr reconstruction shown in Fig. 11 and 13.
21. The confidence interval values given here represent 1 standard deviation of the total reconstruction uncertainty
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25. Publication
26. Authors: Keith R. Briffa, Thomas M. Melvin, Timothy J. Osborn, Rashit M. Hantemirov, Alexander V. Kirdyanov, Valeriy S. Mazepa, Stepan G. Shiyatov, Jan Esper
27. Published_Date_or_Year: 2013-07-15
28. Published_Title: Reassessing the evidence for tree-growth and inferred temperature change during the Common Era in Yamalia, northwest Siberia
29. Journal_Name: Quaternary Science Reviews
30. Volume: 72
31. Edition:
32. Issue:
33. Pages: 83-107
34. DOI: 10.1016/j.quascirev.2013.04.008
35. Abstract: The development of research into the history of tree growth and inferred summer temperature changes in Yamalia spanning the last 2000 years is reviewed. One focus is the evolving production of tree-ring width (TRW) and tree-ring maximum-latewood density (MXD) larch (Larix sibirica) chronologies, incorporating different applications of Regional Curve Standardisation (RCS). Another focus is the comparison of independent data representing past tree growth in adjacent Yamalia areas: Yamal and Polar Urals, and the examination of the evidence for common growth behaviour at different timescales. The sample data we use are far more numerous and cover a longer time-span at Yamal compared to the Polar Urals, but Yamal has only TRW, while there are both TRW and MXD for the Polar Urals. We use more data (sub-fossil and from living trees) than in previous dendroclimatic studies in this region. We develop a new TRW chronology for Yamal, more than 2000 years long and running up to 2005. For the Polar Urals we develop new TRW and MXD chronologies that show good agreement at short (<15 years) and medium (15-100 years) timescales demonstrating the validity of attempts to reconcile the evidence of longer-timescale information that they provide. We use a "conservative" application of the RCS approach (two-curve signal-free RCS), guarding against the possibility of "modern sample bias": a possible inflation of recent chronology values arising out of inadvertent selection of mostly relatively fast-growing trees in recent centuries. We also transform tree indices to have a normal distribution to remove the positive chronology skew often apparent in RCS TRW chronologies. This also reduces the apparent magnitude of 20th century tree-growth levels.

There is generally good agreement between all chronologies as regards the major features of the decadal to centennial variability. Low tree-growth periods for which the inferred summer temperatures are approximately 2.5C below the 1961-90 reference are apparent in the 15-year smoothed reconstructions, centred around 1005, 1300, 1455, 1530, particularly the 1810s where the inferred cooling reaches -4C or even -6C for individual years, and the 1880s. These are superimposed on generally cool pre-20th century conditions: the long-term means of the pre-1900 reconstructed temperature anomalies range from -0.6 to -0.9C in our alternative reconstructions. There are numerous periods of one or two decades with relatively high growth (and inferred summer temperatures close to the 1961-1990 level) but at longer timescales only the 40-year period centred at 250 CE appears comparable with 20th century warmth. Although the central temperature estimate for this period is below that for the recent period, when we take into account the uncertainties we cannot be highly confident that recent warmth has exceeded the temperature of this earlier warm period. While there are clear warm decades either side of 1000 CE, neither TRW nor MXD data support the conclusion that temperatures were exceptionally high during medieval times. One previous version of the Polar Urals TRW chronology is shown here to be in error due to an injudicious application of RCS to non-homogeneous sample data, partly derived from root-collar samples that produce spuriously high chronology values in the 11th and 15th centuries. This biased chronology has been used in a number of recent studies aimed at reconstructing wider scale temperature histories. All of the chronologies we have produced here clearly show a generally high level of growth throughout their most recent 80 years. Allowing for chronology and reconstruction uncertainty, the mean of the last 100 years of the reconstruction is likely warmer than any century in the last 2000 years in this region.

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2. Funding_Agency
3. Funding_Agency_Name: UK Natural Environment Research Council
4. Grant: NE/G018863/1
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6. Funding_Agency
7. Funding_Agency_Name: The Ural and Siberian Branches of the Russian Academy of Sciences
8. Grant: 12-S-4-1038, 69
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10. Funding_Agency
11. Funding_Agency_Name: Russian Foundation for Basic Research
12. Grant: 11-04-00623-a, 13-04-00961-a, 13-04-02058
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14. Site_Information
15. Site_Name: Yamalia
16. Location: Europe>Eastern Europe>Russia
17. Country: Russia
18. Northernmost_Latitude: 67.7
19. Southernmost_Latitude: 66.0
20. Easternmost_Longitude: 71.2
21. Westernmost_Longitude: 65.6
22. Elevation: 0 m to 250 m