Literaturhinweise aus „Klimasensitives Höhenwachstum der Eiche“ von Kilian Stimm, Michael Heym, Enno Uhl, Stefan Tretter und Hans Pretzsch (AFZ-DerWald 22/2021):
[1] Albert, M.; Schmidt, M. (2010): Climate-sensitive modelling of site-productivity relationships for Norway spruce (Picea abies (L.) Karst.) and common beech (Fagus sylvatica L.). Forest Ecology and Management 259, 739–749
[2] Albert, M.; Schmidt, M. (2012): Standort-Leistungs-Modelle für die Entwicklung von waldbaulichen Anpassungsstrategien unter Klimawandel. Archiv f. Forstwesen u. Landsch.ökol. 46, 57–71.
[3] Assmann, E. (1970): The principles of Forest Yield Study: Studies in the Organic Production, Structure, Increment and Yield of Forest Stands. Pergamon Press, Oxford, New York, Toronto, Sydney, Braunschweig.
[4] Bolte, A. (2016): Chancen und Risiken der Buche im Klimawandel. AFZ-DerWald, 12.
[5] Bolte, A.; Ammer, C.; Löf, M.; Madsen, P.; Nabuurs, G.-J.; Schall, P. et al (2009): Adaptive forest management in central Europe: Climate change impacts, strategies and integrative concept. Scandinavian Journal of Forest Research 24, 473–482.
[6] Bonfils, P.; Rigling, A.; Brändli, U.-B.; Brang, P.; Forster, B.; Engesser, R. et al (2015): Die Eiche im Klimawandel: Zukunftschancen einer Baumart. Merkblatt für die Praxis 55.
[7] Bontemps, J.-D.; Herve, J.-C.; Duplat, P.; Dhôte, J.-F. (2012): Shifts in the height-related competitiveness of tree species following recent climate warming and implications for tree community composition: The case of common beech and sessile oak as predominant broadleaved species in Europe. Oikos 121, 1287–1299.
[8] Brandl, S.; Mette, T.; Falk, W.; Vallet, P.; Rötzer, T.; Pretzsch, H. (2018): Static site indices from different national forest inventories: Harmonization and prediction from site conditions. Annals of Forest Science 75, 739.
[9] del Río, M.; Condés, S.; Pretzsch, H. (2014): Analyzing size-symmetric vs. size-asymmetric and intra- vs. inter-specific competition in beech (Fagus sylvatica L.) mixed stands. Forest Ecology and Management 325, 90–98
[10] Fischer, H.S., Michler, B., Fischer, A., 2018. Die zukünftige pnV Bayerns: Wie man sich Vorstellungen über die Standortsituation der Zukunft erarbeiten kann. LWF Aktuell, 46–49.
[11] Forrester, D.I. (2014): The spatial and temporal dynamics of species interactions in mixed-species forests: From pattern to process. Forest Ecology and Management 312, 282–292
[12] Jucker, T.; Bouriaud, O.; Avacaritei, D.; Dănilă, I.; Duduman, G.; Valladares, F. et al (2014): Competition for light and water play contrasting roles in driving diversity-productivity relationships in Iberian forests. J Ecol 102, 1202–1213
[13] Kölling, C.; Zimmermann, L. (2007): Die Anfälligkeit der Wälder Deutschlands gegenüber dem Klimawandel. Gefahrstoffe-Reinhaltung der Luft 67, 259–268.
[14] Leuschner, C.; Ellenberg, H. (2017): Ecology of Central European Forests: Vegetation ecology of central europe, Volume 1 (accessed 21 June 2019).
[15] Lindner, M.; Maroschek, M.; Netherer, S.; Kremer, A.; Barbati, A.; Garcia-Gonzalo, J. et al (2010): Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. Forest Ecology and Management 259, 698–709
[16] Pretzsch, H.; Biber, P. (2010): Size-symmetric versus size-asymmetric competition and growth partitioning among trees in forest stands along an ecological gradient in central Europe. Canadian Journal of Forest Research 40, 370–384.
[17] Pretzsch, H.; Bielak, K.; Block, J.; Bruchwald, A.; Dieler, J.; Ehrhart, H.-P. et al (2013): Productivity of mixed versus pure stands of oak (Quercus petraea (Matt.) Liebl. and Quercus robur L.) and European beech (Fagus sylvatica L.) along an ecological gradient. European Journal of Forest Research 132, 263–280
[18] Pretzsch, H.; Biber, P. (2016): Tree species mixing can increase maximum stand density. Can. J. For. Res. 46, 1179–1193
[19] Reineke, L.H. (1933): Perfecting a stand-density index for even-aged forests. Journal of Agricultural Research 46, 627–638.
[20] Stimm, K.; Heym, M.; Uhl, E.; Tretter, S.; Pretzsch, H. (2021): Height growth-related competitiveness of oak (Quercus petraea (Matt.) Liebl. and Quercus robur L.) under climate change in Central Europe. Is silvicultural assistance still required in mixed-species stands? Forest Ecology and Management, 482, 118780
[21] Zeller, L.; Liang, J.; Pretzsch, H. (2018): Tree species richness enhances stand productivity while stand structure can have opposite effects, based on forest inventory data from Germany and the United States of America. For. Ecosyst. 5, 3.