Spatial variation of pine tree-ring growth in the Solovetsky Islands

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Abstract

The paper presents the results of an analysis of the spatial variability of pine tree-ring growth in the Solovetsky Islands. As a result of the field work, tree-ring network containing 14 dendrochronological pine sites in various habitats were developed. For each site, a local tree-ring width pine chronology (from 472 to 271 years) is obtained, representing pine growth features in different habitat conditions. A comparison between chronologies revealed synchronious growth of pine in various habitats in the late 17th, in the first half of the 18th and the beginning of the 19th centuries. The use of cluster analysis allowed to identify several groups of chronologies with similar characteristics. So, trees growing on swamps, on a sandy substrate and in a green-moss pine forest or in a mixed forest are allocated in separate clusters. This clustering is also confirmed by the results of a dendroclimatic analysis of local chronologies. It turned out that the increase in the pine’s growth in the mixed forest and in the green-moss pine forest depends on the July air temperature variation. Inside this group, samples from pine forests have a common feature – a positive relationship of growth with the precipitation of September. The only site located on the sands showed a different climatic signal than the other chronologies, namely, the dependence on the temperature of August.

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About the authors

E. A. Dolgova

Institute of Geography, Russian Academy of Sciences

Author for correspondence.
Email: dolgova@igras.ru
Russian Federation, 29, Staromonetny, Moscow, 119017

O. N. Solomina

Institute of Geography, Russian Academy of Sciences

Email: solomina@igras.ru
Russian Federation, 29, Staromonetny, Moscow, 119017

V. V. Matskovsky

Institute of Geography, Russian Academy of Sciences

Email: matskovsky@igras.ru
Russian Federation, 29, Staromonetny, Moscow, 119017

A. S. Dobryansky

Institute of Geography, Russian Academy of Sciences

Email: alex@igras.ru
Russian Federation, 29, Staromonetny, Moscow, 119017

N. A. Semenyak

Institute of Geography, Russian Academy of Sciences

Email: semenyak@igras.ru
Russian Federation, 29, Staromonetny, Moscow, 119017

S. S. Shpunt

Institute of Geography, Russian Academy of Sciences

Email: sergey.s.shpunt@gmail.com
Russian Federation, 29, Staromonetny, Moscow, 119017

References

  1. Ipatov L.F., Kosarev V.P, Prourzin L.I., Torkhov S.V. Lesa Solovetskogo arkhipelaga [Forests of the Solovki Islands]. Arkhangel’sk: SOLTI Publ., 2009. 244 p.
  2. Prirodnaya sreda Solovetskogo arkhipelaga v usloviyakh menyayushchegosya klimata [The Natural Environment of the Solovetsky Archipelago in a Changing Climate], Shvartsman Yu.G., Bolotov I.N., Eds. Yekaterinburg: UrO RAN Publ., 2007. 184 p.
  3. Solomina O.N., Matskovskii V.V., Zhukov R.S. The Vologda and Solovki dendrochronological “chronicles” as a source of information about the climate conditions of the last millennium. Doklady Earth Sciences, 2011, vol. 439(2), pp. 1104–1109.
  4. Shiyatov S.G., Vaganov Ye.A., Kirdyanov A.V., Kruglov V.B., Mazepa B.C., Naurzbayev M.M., Khantemirov P.M. Metody dendrokhronologii [Methods of Dendrochronology], Part I: Osnovy dendrokhronologii. Sbor i poluchenie drevesno-kol’tsevoi informatsii [Basics of Dendrochronology. Collecting and Obtaining Tree-Ring Data]. Krasnoyarsk: Krasnoyarskii Gos. Univ., 2000. 80 p.
  5. Anchukaitis K.J., Wilson R., Briffa K.R., Büntgen U., Cook E.R., D’Arrigo R., Davi N., Esper J., Frank D., Gunnarson B.E., Hegerl G., Helama S., Klesse S., Krusic P.J., Linderholm H.W., Myglan V., Osborn T.J., Zhang P., Rydval M., Schneider L., Schurer A., Wiles G., and Zorita E.Last millennium Northern Hemisphere summer temperatures from tree rings: Part II, spatially resolved reconstructions. Quat. Sci. Rev., 2017, vol. 163, pp. 1–22.
  6. Bunn A.G. A dendrochronology program library in R (dplR). Dendrochronologia, 2008, vol. 26(2), pp. 115–124.
  7. Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Geneva, 2007. 151 p.
  8. Cook E., Holmes R.Guide for Computer Program ARSTAN, Adapted from User’s Manual for Program ARSTAN. Laboratory of Tree-Ring Research, Univ. of Arizona, 1986, pp. 50–65.
  9. Methods of Dendrochronology. Applications in the Environmental Sciences, Cook E.R., Kairiukstis L.A., et al. Eds.Dordrecht: Kluwer Academic Publ., 1989. 394 p.
  10. Harris I., Jones P.D., Osborn T.J, Lister D.H. Updated high-resolution grids of monthly climatic observations–the CRU TS3. 10 Dataset. Int. J. Climatol., 2014, vol. 34(3), pp. 623–642.
  11. Holmes R.L. Computer-assisted quality control in tree-ring dating and measurement. Tree-Ring Bull., 1983, no. 43, pp. 69–78.
  12. Rinn F. TSAP Time Series Analysis and Presentation. Version 3.0. Reference Manual. Heidelberg, 1996. 262 p.
  13. Stokes M.A., Smiley T.L. An Introduction to Tree-Ring Dating. Tucson: The University of Arizona Press, 1996. 73 p.
  14. Suzuki R., Shimodaira H. Pvclust: an R package for assessing the uncertainty in hierarchical clustering. Bioinformatics, 2006, vol. 22, pp. 1540–1542.
  15. Zang C., Biondi F. Dendroclimatic calibration in R: the bootRes package for response and correlation function analysis. Dendrochronologia, 2013, vol. 31(1), pp. 68–74.
  16. Zang C., Biondi F. Treeclim: an R package for the numerical calibration of proxy-climate relationships. Ecography, 2015, vol. 38(4), pp. 431–436.
  17. The Comprehensive R Archive Network. Availbale at: http://cran.r-project.org/ (accessed 13.01.2019).

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2. Fig. 1. Landscape map of the Solovetsky Islands and the location of pine dendrochronological sites. The landscape map was taken from the diploma work of A. Glukhova (Faculty of Geography, Moscow State University) and generalized by A. Dobriansky (IG RAS).

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3. Fig. 2. Standard chronologies of pine tree rings, smoothed by a 20-year spline (if there are more than 2 series).

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4. Fig. 3. Results of cluster analysis of 14 standard chronologies.

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