Tiebel, Katharina (AFZ-DerWald 5/2023)

23. Februar 2023
Literaturhinweise aus „Verjüngung auf Störungsflächen Teil 3: Bodensamenbankpotenzial“ von Katharina Tiebel (AFZ-DerWald 5/2023):

[1]AFROZE, F.; O‘REILLY, C. (2015): Effect of harvest date, drying, short-term storage and freezing after chilling on the germination of rowan seeds. Scand. J. For. Res. 31:339-346.
[2]AMREIN, D.; RUSTERHOLZ, H-P.; BAUR, B. (2005): Disturbance of suburban Fagus forests by recreational activities: effects on soil characteristics, aboveground vegetation and seed bank. Appl. Veg. Sci. 8:175-182.
[3]ATKINSON, M. D. (1992): Betula pendula Roth (B. verrucosa Ehrh.) and B. pubescens Ehrh. J. Ecol. 80:837-870.
[4]BERGER, TW.; SUN, B.; GLATZEL, G. (2004): Soil seed banks of pure spruce (Picea abies) and adjacent mixed species stands. Plant Soil 264:53-67.
[5]BEWLEY, J. D. (1997): Seed germination and dormancy. The Plant Cell 9:1055-1066.
[6]BOSSUYT, B.; HEYN, M.; HERMY, M. (2002): Seed bank and vegetation composition of forest stands of varying age in central Belgium: consequences for regeneration of ancient forest vegetation. Plant Ecol 162:33-48.
[7]BRADBEER, J. W. (1988): Seed dormancy and germination. Blackie and Son Ltd, Glasgow and London, pp. 146.
[8]BURMEIER, S.; ECKSTEIN, RL.; OTTE, A.; DONATH T. W. (2010): Desiccation cracks act as natural seed traps in flood-meadow systems. Plant Soil 333:351-364.
[9]ERLBECK, R. (1998): Die Vogelbeere (Sorbus aucuparia) - ein Porträt des Baumes des Jahres 1997. In: “Beiträge zur Vogelbeere” (Schmidt O ed.). Berichte aus der Bayrischen Landesanstalt für Wald und Forstwirtschaft 17: 2-14.
[10]FENNER, M. (1985): Seed ecology. Chapman and Hall Ltd, London and New York, UK and USA, pp. 151.
[11]FIEDLER, H. J..; HOFMANN, W. (1978): Standortskundlicher Exkursionsführer „Tharandt-Grillenburger Wald“ - Bodennutzung und Bodenschutz. Studienmaterial für die Weiterbildung. TU Dresden - Direktion Studienangelegenheiten, Dresden, 80 S.
[12]GRANSTRÖM, A. (1982): Seed banks in five boreal forest stands originating between 1810 and 1963. Can J Bot 60:1815-1821.
[13]GRANSTRÖM, A.; FRIES, C (1985): Depletion of viable seeds of Betula pubescens and Betula verrucosa sown onto some north Swedish forest soils. Can. J. For. Res. 15:1176-1180.
[14]GRANSTRÖM, A. (1987): Seed viability of fourteen species during five years of storage in a forest soil. J. Ecol. 75:321-331.
[15]HEINRICHS, S. (2010): Response of the understorey vegetation to select cutting and clear cutting in the initial phase of Norway spruce conservation. Doktorarbeit der Georg-August-Universität Göttingen, pp. 177.
[16]HEINRICH, J. (2016): Untersuchung des Bodensamenbankpotenzials von Pionierbaumarten. Bachelorarbeit der TU-Dresden, 54 S.
[17]HILL, M. O. (1979): The development of a flora in even-aged plantations. In: “The ecology of even-aged forest plantations” (Ford ED, Malcolm DC, Atterson J eds). Institute of Terrestrial Ecology, Cambridge, pp. 175-192.
[18]HILL, M. O.; STEVENS P. A. (1981): The density of viable seed in soils of forest plantations in upland Britain. J. Ecol. 69:693-709.
[19]HOLEKSA, J.; ŻYWIEC, M. (2005): Spatial pattern of a pioneer tree seedling bank in old-growth European subalpine spruce forest. Ekológia (Bratislava) 24:263-276.
[20]HUTH, F. (2009): Untersuchungen zur Verjüngungsökologie der Sand-Birke (Betula pendula Roth). Doktorarbeit der TU-Dresden, 383 S.
[21]ISRAEL, S. (2022): Untersuchungen zum Einfluss der Samenbaumanzahl und Auflagendicke auf die Bodensamenbank der Sand-Birke (Betula pendula Roth). Bachelorarbeit der TU-Dresden, 51 S.
[22]MCEUEN, A. B.; CURRAN, L. M. (2004): Seed dispersal and recruitment limitation across spatial scales in temperate forest fragments. Ecology 85:507-518.
[23]O’HANLON-MANNERS, D. L.; KOTANEN, P. M. (2006): Losses of seeds of temperate trees to soil fungi: effects of habitat and host ecology. Plant Ecol 187:49-58.
[24]OSUMI, K.; SAKURAI, S. (1997): Seedling emergence of Betula maximowicziana following human disturbance and the role of buried viable seeds. For. Ecol. Manag. 93: 235-243. [25]PALUCH, J. G. (2011): Ground seed density patterns under conditions of strongly overlapping seed shadows in Abies alba Mill. stands. Eur J Forest Res 130:1009-1022.
[26]PERALA, D. A.; ALM, A. A. (1990): Reproductive ecology of birch: a review. For. Ecol. Manag. 32:1-38.
[27]RASPÉ, O.; FINDLAY, C.; JACQUEMART A.-L. (2000): Sorbus aucuparia L. J. Ecol. 88:910-930.
[28]SAATKAMP A.; POSCHLOD, P.; VENABLE, D. L. (2014): The functional role of soil seed banks in natural communities. In: “Seeds: The Ecology of Regeneration in Plant Communities” (Gallagher RS ed). CAB International, Oxfordshire, pp. 263-295.
[29]SARVAS, R. (1948): A research on the regeneration of birch in South Finland. Commun. Inst. For. Fenn. 35:82-91.
[30]SCHAFER, D. E..; CHILCOTE, DO (1967): Factors influencing dormancy and persistence in buried seed of five grass species. Crop Sci. 10:342-345.
[31]SKOGLUND, J.; VERWIJST, T. (1989): Age structure of woody species populations in relation to seed rain, germination and establishment along the river Dalälven, Sweden. Veg. 82:25-34.
[32]SPERENS, U. (1997): Long-term variation in, and effects of fertiliser addition on, flower, fruit and seed production in the tree Sorbus aucuparia (Rosaceae). Ecography 20:521-534.
[33]TIEBEL, K.; HUTH, F.; WAGNER, S. (2018): Soil seed banks of pioneer tree species in European temperate forests: a review. iForest 11:48-57.
[34]TIEBEL, K.; HUTH, F.; FRISCHBIER, N.; WAGNER, S. (2020): Restrictions on natural regeneration of storm-felled spruce sites by silver birch (Betula pendula Roth) through limitations in fructification and seed dispersal. Eur. J. For. Res. 139:731-745.
[35]ZOBEL, M.; KALAMEES, R.; PÜSSA, K.; ROOSALUSTE, E.; MOORA, M. (2007): Soil seed bank and vegetation in mixed coniferous forest stands with different disturbance regimes. For. Ecol. Manag. 250:71-76.