Axer, Maximilian, Martens, Sven, Eisenhauer, Dirk-Roger und Wagner, Sven (AFZ-DerWald 22/2020)

25. November 2020

Literaturhinweise aus „Das Ausbreitungspotenzial von Buchen- und Eichenverjüngung“ von Maximilian Axer, Sven Martens, Dirk-Roger Eisenhauer und Sven Wagner (AFZ-DerWald 22/2020):

[1] Amann, F. (2007): Balzfüttern, Nahrung und Samenverstecken bei der Sumpfmeise Parus palustris. Der Ornithologische Beobachter 104:91–100.

[2] Ammer, C.; Bickel, E.; Kölling, C. (2008): Converting Norway spruce stands with beech‐a review of arguments and techniques. Zum Umbau von Fichtenbeständen mit Buche: Ein Überblick über Argumente und Verfahren. Centralblatt für das gesamte Forstwesen 125(1):3–26.

[3] Annighöfer, P.; Beckschäfer, P.; Vor, T.; Ammer, C. (2015): Regeneration patterns of European oak species (Quercus petraea (Matt.) Liebl., Quercus robur L.) in dependence of environment and neighborhood. PloS one 10(8).

[4] Bossema, I. (1979): Jays and oaks: an eco-ethological study of a symbiosis. Behaviour 70(1-2):1–116. doi:10.1163/156853979X00016.

[5] Cade, B.S.; Terrell, J.W.; Schroeder, R.L. (1999): Estimating effects of limiting factors with regression quantiles. Ecology 80(1):311–323.

[6] Den Ouden, J.; Jansen, P.A.; Smit, R. (2005): Jays, mice and oaks: predation and dispersal of Quercus robur and Q. petraea in North-western Europe. Seed fate. Predation, dispersal and seedling establishment:223–240.

[7] Dobrovolny, L. (2016): Density and spatial distribution of beech (Fagus sylvatica L.) regeneration in Norway spruce (Picea abies (L.) Karsten) stands in the central part of the Czech Republic. iForest-Biogeosciences and Forestry 9(4):666–672.

[8] Dobrovolny, L.; Tesař, V. (2010); Extent and distribution of beech (Fagus sylvatica L.) regeneration by adult trees individually dispersed over a spruce monoculture. Journal of Forest Science 56(12):589–599.

[9] Dobrowolska, D. (2006): Oak natural regeneration and conversion processes in mixed Scots pine stands. Forestry 79(5):503–513.

[10] Eisenhauer, D.-R.; Sonnemann, S. (2009): Waldbaustrategien unter sich ändernden Umweltbedingungen‐Leitbilder, Zielsystem und Waldentwicklungstypen. Waldökologie, Landschaftsforschung und Naturschutz 8:71–88.

[11] Fahrmeir, L.; Kneib, T.; Lang, S.; Marx, B. (2013): Regression Models, Methods and Applications. Springer, Berlin, Heidelberg.

[12] Felton, A.; Nilsson, U.; Sonesson, J.; Felton, A.M.; Roberge, J.-M.; Ranius, T.; Ahlström, M.; Bergh, J.; Björkman, C.; Boberg, J.; others (2016): Replacing monocultures with mixed-species stands: Ecosystem service implications of two production forest alternatives in Sweden. Ambio 45(2):124–139.

[13] Fischer, E. (1993): Über den Umbau von Kiefernbeständen mit Eiche aus Hähersaat und Pflanzung. Forst und Holz 48(18):525–528.

[14] Gerber, S.; Chadœuf, J.; Gugerli, F.; Lascoux, M.; Buiteveld, J.; Cottrell, J.; Dounavi, A.; Fineschi, S.; Forrest, L.L.; Fogelqvist, J.; others (2014): High rates of gene flow by pollen and seed in oak populations across Europe. PloS one 9(1).

[15] Gómez, J.M.; Hódar, J.A. (2008): Wild boars (Sus scrofa) affect the recruitment rate and spatial distribution of holm oak (Quercus ilex). Forest Ecology and Management 256(6):1384–1389. doi:10.1016/j.foreco.2008.06.045.

[16] Gómez, J.M. (2003):. Spatial patterns in long-distance dispersal of Quercus ilex acorns by jays in a heterogeneous landscape. Ecography 26(5):573–584. doi:10.1034/j.1600-0587.2003.03586.x

[17] Gómez-Aparicio, L.; Zavala, M.A.; Bonet, F.J.; Zamora, R. (2009): Are pine plantations valid tools for restoring Mediterranean forests? An assessment along abiotic and biotic gradients. Ecological applications 19(8):2124–2141.

[18] González-Rodriguez, V.; Villar, R. (2012): Post-dispersal seed removal in four Mediterranean oaks: species and microhabitat selection differ depending on large herbivore activity. Ecological research 27(3):587–594.

[19] Hoffmann, K.; Coenradie, B.; Haag, L.; Nitzsche, V. (2017): Sachsenforst setzt auf Fernerkundung. Sachsens forstliche Praxis nutzt mit großem Erfolg Daten aus der Fernerkundung. LWF aktuell (4):26–29.

[20] HÖLTKEN, A.M.I.; EUSEMANN, P.; KERSTEN, B.; Liesbach, H.; KAHLERT, K.; KAROPKA, M.; Kätzel, R.; KUCHMA, O.; LEINEMANN, L.; ROSE, B.; others: Das Verbundprojekt GENMON: Einrichtung eines genetischen Langzeit-Monitorings in Buchenbeständen (Fagus sylvatica L.).

[21] Humphrey, J.W.; Swaine, M.D. (1997): Factors Affecting the Natural Regeneration of Quercus in Scottish Oakwoods. II. Insect Defoliation of Trees and Seedlings. The Journal of Applied Ecology 34(3):585–593. doi:10.2307/2404909.

[22] Irmscher, T. (2009): Zoochores Ausbreitungspotenzial der Rotbuche (Fagus sylvatica l.) mit Blick auf die Minimierung der Eingriffsintensität beim Waldumbau in Wäldern mit Naturschutzstatus. Forstarchiv 80(1):29–32.

[23] Jensen, T.S.; Nielsen, O.F. (1986): Rodents as seed dispersers in a heath—oak wood succession. Oecologia 70(2):214–221.

[24] Kaliszewski, A. (2017): Cost analysis of artificial and natural oak regeneration in selected forest districts. Forest Research Papers 78(4):315–321.

[25] Kätzel, R.; Löffler, S.; Winter, S.; Kallweit, R. (2005): Zum Einfluss von Überschirmung und Begründungsverfahren auf den Entwicklungserfolg von Eichen- und Buchen-Voranbauten in der Initialphase. In: Ministerium für Ländliche Entwicklung, Umwelt und Verbraucherschutz des Landes Brandenburg (Hrsg) Ökologischer Waldumbau im nordostdeutschen Tiefland. BMBF-Forschungsverbund Zukunftsorientierte Waldwirtschaft, S 79–89.

[26] Kollmann, J.; Schill, H.-P. (1996): Spatial patterns of dispersal, seed predation and germination during colonization of abandoned grassland by Quercus petraea and Corylus avellana. Vegetatio 125(2):193–205.

[27] Kunstler, G.; Thuiller, W.; Curt, T.; Bouchaud, M.; Jouvie, R.; Deruette, F.; Lepart, J. (2007): Fagus sylvatica L. recruitment across a fragmented Mediterranean Landscape, importance of long distance effective dispersal, abiotic conditions and biotic interactions. Diversity and distributions 13(6):799–807.

[28] Mirschel, F.; Zerbe, S.; Jansen, F. (2011): Driving factors for natural tree rejuvenation in anthropogenic pine (Pinus sylvestris L.) forests of NE Germany. Forest Ecology and Management 261(3):683–694.

[29] Moreno, J.; Lundberg, A.; Carlson, A. (1981): Hoarding of individual nuthatches Sitta europaea and march tits Parus palustris. Ecography 4(4):263–269.

[30] Mosandl, R.; Kleinert, A. (1998): Development of oaks (Quercus petraea (Matt.) Liebl.) emerged from bird-dispersed seeds under old-growth pine (Pinus silvestris L.) stands. Forest Ecology and Management 106(1):35–44. doi:10.1016/S0378-1127(97)00237-5.

[31] Mosandl, R.; Küssner, R. (1999): Conversion of pure pine and spruce forests into mixed forests in eastern Germany: some aspects of silvicultural strategy. In: Olsthoorn AFM, Bartelink HH, Gardiner JJ, Pretzsch H, Hekhuis HJ, Franc A (Hrsg) Management of mixed-species forest: silviculture and economics. IBN-DLO, S 208–218.

[32] Nilsson, S.G. (1985): Ecological and evolutionary interactions between reproduction of beech Fagus silvatica and seed eating animals. Oikos 44(1):157–164. doi:10.2307/3544056.

[33] Perea, R.; Miguel, A.S.; Gil, L. (2011): Acorn dispersal by rodents: The importance of re-dispersal and distance to shelter. Basic and Applied Ecology 12(5):432–439. doi:10.1016/j.baae.2011.05.002.

[34] Perea, R.; San Miguel, A.; Gil, L. (2011): Flying vs. climbing: Factors controlling arboreal seed removal in oak‐beech forests. Forest Ecology and Management 262(7):1251–1257.

[35] Perez-Ramos, I.M.; Maranon, T. (2008): Factors affecting post-dispersal seed predation in two coexisting oak species: microhabitat, burial and exclusion of large herbivores. Forest Ecology and Management 255(8-9):3506–3514.

[36] Rudolph, J.; Schmidt, M. (2017): Vorhersage der Verjüngungsetablierung von Fichte und Buche in Abhängigkeit von Bestandes-und Standortsparametern Tagungsbericht zur Jahrestagung des DVFFA – Sektion Ertragskunde. Jahrestagung 29.-31. Mai 2017, Untermarchtal.

[37] Rumpf, H.; Petersen, R. (2008): Waldumbau mit Buche unter Berücksichtigung ihrer ökologischen Ansprüche Forest conversion to beech in consideration of its ecological demands. Ergebnisse angewandter Forschung zur Buche 3:193–219.

[38] Schelter, D.; Krabel, D. (2004): Genetic structures of adult European beech (Fagus sylvatica L.) stands and the corresponding natural regeneration in middle Ore Mountains—Part 2: Molecular markers. In: Fürst C, Bitter AW, Eisenhauer D-R, Makeschin F, Röhle H, Roloff A, Wagner S (Hrsg) Sustainable Methods and Ecological Processes of a Conversion of Pure Norway Spruce and Scots Pine Stands Into Ecologically Adapted Mixed Stands: Joint Research Project“ Future Oriented Forestry“, Region Saxony. Ulmer.

[39] Schirmer, W.; Diehl, T.; Ammer, C. (1999): Zur Entwicklung junger Eichen unter Kiefernschirm. Forstarchiv (70):57-65.

[40] Schröder, H.K.; Andersen, H.E.; Kiehl, K. (2005): Rejecting the mean: Estimating the response of fen plant species to environmental factors by non-linear quantile regression. Journal of Vegetation science 16(4):373–382.