Annual growth trends and response to weather of larch trees at Järvselja Training and Experimental Forest Center stands (Estonia)
References
- Aastaraamat Mets 2013. (Yearbook Forest 2013). 2014. Keskkonnaagentuur. (Environmental Agency). Tartu. 244 pp. (In Estonian).
- Akaike, H. 1974. A new look at the statistical model identification. IEEE Transactions on Automatic Control, 19(6), 716–723.
- Becker, M., Nieminen, T.M, Gérémia, F. 1994. Shortterm variations and long-term changes in oak productivity in northeastern France. The role of climate and atmospheric CO2. – Annals of Forest Science, 51(5), 477–492.
- Bunn, A., Korpela, M., Biondi, F., Campelo, F., Mérian, P., Qeadan, F., Zang, C., Buras, A., Cecile, J., Mudelsee, M., Schulz, M. 2015. Package ’dplR’. Dendrochronology Program Library in R. [WWW Document]. – URL http://cran.r-project.org/web/packages/dplR/dplR.pdf [Accessed 30 August 2015].
- Bunn, A.G., Jansma, E., Korpela, M., Westfall, R.D., Baldwin, J. 2013. Using simulations and data to evaluate mean sensitivity (ζ) as a useful statistic in dendrochronology. – Dendrochronologia, 31, 250–254.
- Carrer, M., Urbinati, C. 2001. Spatial Analysis of Structural and Tree-Ring Related Parameters in a Timberline Forest in the Italian Alps. – Journal of Vegetation Science, 12(5), 643–652.
- Carrer, M., Urbinati, C. 2004. Age-dependent treering growth responses to climate in Larix decidua and Pinus cembra. – Ecology, 85, 730–740.
- Carrer, M., Urbinati, C. 2006. Long-term change in the sensitivity of tree-ring growth to climate forcing in Larix decidua. – New Phytologist, 170, 861–872.
- Cook, E.R., Kairiukstis, L.A. 1990. Methods of dendrochronology. Kluwer Academic Publishers, 394 pp.10.1007/978-94-015-7879-0
- Dalgaard, P. 2002. Introductory Statistics with R. Springer-Verlag New York, Inc. 267 pp.
- Douglas, A.E. 1936. Climatic Cycles and Tree-Growth, vol. 3. Carnergie Institution of Washington publication 289, Washington DC, USA
- Dubolazov, E. 2012. Effect of climate on radial growth of Silver birch in Aegopodium site type. (Ilmastiku mõju kase radiaalsele juurdekasvule naadi kasvukohatüübis). BSc Thesis, Estonian University of Life Sciences. 53 pp. (In Estonian).
- Dubolazov, E. 2014. Analyzing larch growth on abandoned oil shale quarries in Sirgala. (Lehiste kasvu analüüs Sirgala tasandatud põlevkivikarjääri puistangul). MSc Thesis, Estonian University of Life Sciences. 57 pp. (In Estonian).
- Erik, Ü. 2004. Hybrid larch – the fastest growing coniferous tree in Estonia. (Eurojaapani lehis – kõige kiirekasvulisem okaspuu Eestis). – Eesti Mets, 2, 24–28. (In Estonian).
- Fedorkov, A. 2014. Vitality and height growth of two Larix species and provenances in a field trial located in north-west Russia. – Silva Fennica, 48(1), p. 7.
- Fowler, A., Boswijk, G. 2003. Chronology stripping as a tool for enhancing the statistical quality of treering chronologies. – Tree-Ring Research, 59(2), 53–62.
- Fritts, H.C. 1976. Tree rings and climate. London, Academic Press. 567 pp.
- Henderson, J.P., Grissino-Mayer, H.D. 2009. Climatetree growth relationships of longleaf pine (Pinus palustris Mill.) in the Southeastern Coastal Plain, USA. – Dendrochronologia, 27, 31–43.
- Henttonen, H.M., Mäkinen, H., Peltoniemi, M., Laurén, A., Hordo, M. 2014. Response of radial increment variation of Scots pine to temperature, precipitation and soil water content along a latitudinal gradient across Finland and Estonia. – Agricultural and Forest Meteorology, 198–199, 294–308.
- Holmes, R.L. 1983. Computer assisted quality control in tree-ring dating and measurements. – Treering Bulletin, 43, 69–78.
- Hordo, M., Henttonen, H., Helama, S., Mäkinen, H., Kiviste, A. 2011. Annual growth variation of Scots pine in Estonia and Finland. – Baltic Forestry, 17(1), 35–49.
- Hordo, M., Metslaid, S., Kiviste, A. 2009. Response of Scots pine (Pinus sylvestris L.) radial growth to climate factors in Estonia. – Baltic Forestry, 15(2), 195–205.
- Jansons, Ā., Matisons, R., Purina, L., Neimane, U., Jansons, J. 2015. Relationships between climatic variables and tree-ring width of European beech and European larch growing outside of their natural distribution area. – Silva Fennica, 49(1), p. 8.10.14214/sf.1255
- Kajaste, T. 2013. The growth of Siberian larch on Aidu exhausted oil shale opencast mines and climate analysis. (Siberi lehise (Larix sibirica Ledeb.) kasvukäik Aidu karjääris ja kliima analüüs). MSc Thesis, Estonian University of Life Sciences. 78 pp. (In Estonian).
- Kasesalu H. 2002. Powerful larch stands grow in Estonia. (Eestis kasvab võimsaid lehisepuistuid). – Eesti Mets, 3, 27–30. (In Estonian).
- Kasesalu, H. 1999. Cultivation of larches (Larix sp.) at Järvselja. (Lehise kasvatamise tulemusi Järvseljal. – Forestry Studies / Metsanduslikud Uurimused, 31, 124–130. (In Estonian).
- Kirdyanov, A.V., Prokushkin, A.S., Tabakova, M.A. 2013. Tree-ring growth of Gmelini larch under contrasting local conditions in the north of Central Siberia. – Dendrochronologia, 31, 114–119.
- Koprowski, M. 2012. Long-term increase of March temperature has no negative impact on tree rings of European larch (Larix decidua) in lowland Poland. – Trees, 26, 1895–1903.10.1007/s00468-012-0758-8
- Läänelaid, A. Eckstein, D. 2012. Norway spruce in Estonia reflects the early summer weather in its tree-ring widths. – Baltic Forestry, 18(2), 194–204.
- Legendre, P., Legendre, L. 2012. Numerical ecology. Elsevier. 1006 pp.
- Lõhmus, E. 2004. Estonian forest site types. (Eesti metsakasvukohatüübid). Tartu. 80 pp. (In Estonian).
- Oksanen, J. 2015. Vegan: an introduction to ordination. [WWW Document]. – URL https://cran.rproject.org/web/packages/vegan/vignettes/intro-vegan.pdf [Accessed 30 August 2015].
- Oksanen, J., Blanchet, F.G., Kindt, R., Legendre, P., Minchin, P.R., O’Hara, R.B., Simpson, G.L., Solymos, P., Stevens, M.H.H., Wagner, H. 2015. Package ‘vegan’. [WWW Document]. – URL https://cran.r-project.org/web/packages/vegan/vegan.pdf [Accessed 30 August 2015].
- Oleksyn, J., Fritts, H.C. 1991. Influence of climatic factors upon tree rings of Larix decidua and L. decidua × L. kaempferi from Pulawy, Poland. – Trees, 5, 75–82.
- Paves, H. 1969. About selection of larches in Estonia. (Lehiste selektsioonist Eestis). – Forestry Studies / Metsanduslikud Uurimused, 7, 40–44.
- Paves, H. 2004. Larch: forest and park tree. (Lehis: metsa- ja pargipuu). Tartu, OÜ Vali Press. 160 pp.
- R Core Team. 2015. R: A language and environment for statistical computing. R Foundation for statistical computing, Vienna, Austria. [WWW Document]. – URL http://www.R-project.org/ [Accessed 30 August 2015].
- Rinn, F. 2003. TSAP-Win-time series analysis and presentation dendrochronology and related applications. Heidelberg, Frank Rinn. 110 pp.
- Rossi, S., Deslauriers, A., Griçar, J., Seo, J.W., Rathgeber, C.B.K., Anfodillo, T., Morin, H., Levanic, T., Oven, P. Jalkanen, R. 2008. Critical temperatures for xylogenesis in conifers of cold climates. – Global Ecology and Biogeography, 17(6), 696–707.
- Sander, H., Meikar, T. 2004. Exotic conifers in Estonian forest plantations. (Eksootilise okaspuud Eesti metsakultuurides). – Forestry Studies / Metsanduslikud Uurimused, 40, 41–64.
- Schweingruber, F.H. 1988. Tree rings: basics and applications of dendrochronology. Kluwer Academic Publishers, Dordrecht, Netherlands. 276 pp.10.1007/978-94-009-1273-1_5
- Schweingruber, F.H. 1996. Tree rings and environment. Dendroecology. Birmensdorf, Swiss Federal Institute for Forest, Snow and Landscape Research. Berne, Stuttgart, Vienna, Haupt. 609 pp.
- Simak M. 1970. Photo- and thermoperiodic response of different Larch provenances (Larix decidua Mill.). – Studia Forestalia Suecica, 86, 32 pp.
- Speer, J.H. 2010. Fundamentals of tree-ring research. Tucson. 333 pp.
- Tartif, J.C., Conciatori, F. 2006. A comparison of ringwidth and event-year chronologies derived from white oak (Quercus alba) and northern red oak (Quercus rubra), southwestern Quebec, Canada. – Dendrochronologia, 23, 133–138.
- ter Braak, C.J.F. 1994. Canonical community ordination. Part I: Basic theory and linear methods. – Ecoscience, 1(2), 127–140.
- Vaganov, E.A., Kirdyanov, A.V. 2010. Dendrochronology of Larch Trees Growing on Siberian Permafrost. – Ecological Studies, Permafrost Ecosystems, 209, 347–363.
- Veermets, K. 1937. Wood assessment through macro- and microscopic characteristics. (Puidumääraja makro- ja mikroskoobiliste tunnuste järgi). Tartu, Akadeemilise Metsaseltsi kirjastus. 79 pp.
- Vitas, A., Žeimavičius, K. 2010. Regional tree-ring chronology of European larch (Larix Decidua Mill.) in Lithuania. – Baltic Forestry, 16(2), 187–1993.
- Voge, R.M., Shallcross, A.L. 1996. The moving blocks bootstrap versus parametric time series models. – Water Resource Research, 32(6), 1875–1882.
- Wilczyński, S.B., Kulej, M. 2013. The influence of climate on the radial increment of larches of different provenances on the basis of the experiment in the Carpathian Mountains in Southern Poland. – European Journal of Forest Research, 132, 919–929.
- Zang, C. 2015. Package‘bootRes’. Bootstrapped Response and Correlation Functions. [WWW Document]. – URL http://cran.r-project.org/web/packages/bootRes/bootRes.pdf [Accessed 30 August 2015].
- Zang, C., Biondi, F. 2013. Dendroclimatic calibration in R: The bootRes package for response and correlation function analysis. – Dendrochronologia, 31(1), 68–74.
Language: English
Page range: 111 - 129
Submitted on: Sep 30, 2015
Accepted on: Dec 15, 2015
Published on: Jun 8, 2016
Published by: Estonian University of Life Sciences
In partnership with: Paradigm Publishing Services
Publication frequency: 2 times per year
Keywords:
Related subjects:
© 2016 Maris Hordo, Vivika Kängsepp, Taavi Kannimäe, Priit Kask, published by Estonian University of Life Sciences
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.