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Pretzsch et al. (AFZ-DerWald 8/2019)

Literaturhinweise aus „Bäume im Klimawandel: Schneller groß mit leichterem Holz“ von Hans Pretzsch, Peter Biber, Gerhard Schütze, Enno Uhl und Julia Kemmerer (AFZ-DerWald 8/2019):

[1] Bouriaud, O., Leban, J.-M., Bert, D., Deleuze, C., 2005. Intra-annual variations in climate influence growth and wood density of Norway spruce. Tree Physiol. 25, 651-660. https://doi.org/10.1093/treephys/25.6.651.

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[3] Churkina, G., Zaehle, S., Hughes, J., Viovy, N., Chen, Y., Jung, M., Heumann, B.W., Ramankutty, N., Heimann, M., Jones, C., 2010. Interactions between nitrogen deposition, land cover conversion, and climate change determine the contemporary carbon balance of Europe. Biogeosciences 7, 2749-2764. https://doi.org/10.5194/bg-7-2749-2010.

[4] Dunham, R.A., Cameron, A.D., 2000. Crown, stem and wood properties of wind-damaged and undamaged Sitka spruce. For. Ecol. Manag. 135, 73-81.

[5] Evans, R., Ilic, J., 2001. Rapid prediction of wood stiffness from microfibril angle and density. For. Prod. J. 51, 53.

[6] Franceschini, T., Bontemps, J.-D., Gelhaye, P., Rittie, D., Herve, J.-C., Gegout, J.-C., Leban, J.-M., 2010. Decreasing trend and fluctuations in the mean ring density of Norway spruce through the twentieth century. Ann. For. Sci. 67, 816. https://doi.org/10.1051/forest/2010055.

[7] Franceschini, T., Bontemps, J.-D., Leban, J.-M., 2012. Transient historical decrease in earlywood and latewood density and unstable sensitivity to summer temperature for Norway spruce in northeastern France. Can. J. For. Res. 42, 219-226. https://doi.org/10.1139/x11-182.

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[9] Hoffmeyer, P., Pedersen, J.G., 1995. Evaluation of density and strength of Norway spruce wood by near infrared reflectance spectroscopy. Holz Als Roh- Werkst. 53, 165-170.

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[12] Jüttner O (1955) Eichenertragstafeln. In: Schober R (ed) (1971) Ertragstafeln der wichtigsten Baumarten. JD Sauerländer’s Verlag, Frankfurt am Main, pp 12-25, 134-138.

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[17] Pretzsch, H., 2016. Ertragstafel-Korrekturfaktoren für Umwelt- und Mischungseffekte. AFZ- Wald 187, 47-50.

[18] Pretzsch, H., Rais, A., 2016. Wood quality in complex forests versus even-aged monocultures: review and perspectives. Wood Sci. Technol. 50, 845-880.

[19] Pretzsch, H., Biber, P., Schütze, G., Bielak, K., 2014a. Changes of forest stand dynamics in Europe. Facts from long-term observational plots and their relevance for forest ecology and management. For. Ecol. Manag., Forest Observational Studies: “Data Sources for Analysing Forest Structure and Dynamics” 316, 65–77. https://doi.org/10.1016/j.foreco.2013.07.050.

[20] Pretzsch, H., Biber, P., Schütze, G., Uhl, E., Rötzer, T., 2014b. Forest stand growth dynamics in Central Europe have accelerated since 1870. Nat. Commun. 5. https://doi.org/10.1038/ncomms5967.

[21] Pretzsch, H., Biber, P., Uhl, E., Dahlhausen, J., Schütze, G., Perkins, D., Rötzer, T., Caldentey, J., Koike, T., van Con, T., Chavanne, A., du Toit, B., Foster, K., Lefer, B. (2017): Climate change accelerates growth of urban trees in metropolises worldwide. Scientific Reports 7: S. 10 DOI:10.1038/s41598-017-14831-w.

[22] Pretzsch H, Biber P, Schütze G, Kemmerer J, Uhl E (2018a) Wood Density Reduced While Wood Volume Growth Accelerated in Central European Forests Since 1870, Forest Ecology and Management, 429: 589-616.

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[26] Spiecker, H., Hansen, N., Schinker, M.G., 2003. High-Frequency Densitometry-A New Method for the Rapid Evaluation of Wood Density Variations. IAWA J. 24, 231-239.

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