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Großmann, Josef und Pyttel, Patrick (AFZ-DerWald 20/2019)

Literaturhinweise aus „Auswirkung der Waldbewirtschaftung auf Baummikrohabitate“ von Josef Großmann und Patrick Pyttel (AFZ-DerWald 20/2019):

[1] Faltl, W., (Hrsg.) 2009. Naturschutzkonzept der Bayerischen Staatsforsten. Bayrische Staatsforsten AöR.

[2] ForstBW (Hrsg.) 2015. Gesamtkonzeption Waldnaturschutz. 60 S., Stuttgart.

[3] ForstBW 2010. Alt- und Totholzkonzept Baden-Württemberg.

[4] Kohler, B. 2015. Naturschutz: Anforderungen an die Waldbewirtschaftung hinsichtlich Biodiversität im Wald. BFW-Praxisinformation 37.

[5] Bütler, R., Lachat, T., Larrieu, L., Paillet, Y. 2013. Habitat Trees: Key Elements for Forest Biodiversity. In Integrative Approaches as an Opportunity for the Conservation of Forest Biodiversity, 284. Joensuu: European Forest Institute.

[6] Bouget, C., L. Larrieu, A. Brin. 2014. Key Features for Saproxylic Beetle Diversity Derived from Rapid Habitat Assessment in Temperate Forests. Ecological Indicators 36: 656–64. https://doi.org/10.1016/j.ecolind.2013.09.031.

[7] Paillet, Y., Archaux, F., du Puy, S., Bouget, C., Boulanger, V., Debaive, N., Gilg, O., Gosselin, F., Guilbert, E. 2018. The Indicator Side of Tree Microhabitats: A Multi-Taxon Approach Based on Bats, Birds and Saproxylic Beetles. Journal of Applied Ecology https://doi.org/10.1111/1365-2664.13181

[8] Larrieu, L., Cabanettes, A. 2012. Species, live status, and diameter are important tree features for diversity and abundance of tree microhabitats in subnatural montane beech–fir. Canadian Journal of Forest Research 42 (8): 1433–45. https://doi.org/10.1139/x2012-077.

[9] Vuidot, A., Paillet, Y., Archaux, F., Gosselin, F. 2011. Influence of Tree Characteristics and Forest Management on Tree Microhabitats. Biological Conservation 144 (1): 441–50. https://doi.org/10.1016/j.biocon.2010.09.030.

[10] Asbeck, T., Pyttel, P., Frey, J., Bauhus, J. 2019. Predicting Abundance and Diversity of Tree-Related Microhabitats in Central European Montane Forests from Common Forest Attributes. Forest Ecology and Management 432: 400–408. https://doi.org/10.1016/j.foreco.2018.09.043.

[11] Regnery, B., Paillet, Y., Couvet, D., Kerbiriou, C. 2013. Which Factors Influence the Occurrence and Density of Tree Microhabitats in Mediterranean Oak Forests? Forest Ecology and Management 295: 118–25. https://doi.org/10.1016/j.foreco.2013.01.009.

[12] Winter, S., Höfler, J., Michel, A. K., Böck, A., Ankerst, D.P. 2014. Association of Tree and Plot Characteristics with Microhabitat Formation in European Beech and Douglas-Fir Forests. European Journal of Forest Research 134 (2): 335–47. https://doi.org/10.1007/s10342-014-0855-x.

[13] Johann, F., Schaich, H. 2016. Land Ownership Affects Diversity and Abundance of Tree Microhabitats in Deciduous Temperate Forests. Forest Ecology and Management 380: 70–81. https://doi.org/10.1016/j.foreco.2016.08.037.

[14] Paillet, Y., Archaux, F., Boulanger, V., Debaive, N., Fuhr, M., Gilg, O., Gosselin, F., Guilbert, E. 2017. Snags and Large Trees Drive Higher Tree Microhabitat Densities in Strict Forest Reserves. Forest Ecology and Management 389: 176–86. https://doi.org/10.1016/j.foreco.2016.12.014.

[15] Großmann, J., Schultze, J., Bauhus, J., Pyttel, P. 2018. Predictors of Microhabitat Frequency and Diversity in Mixed Mountain Forests in South-Western Germany. Forests 9 (3): 104. https://doi.org/10.3390/f9030104.

[16] Kraus, D., Bütler, R., Krumm, F., Lachat, T., Larrieu, L., Mergner, U., Paillet, Y., Rydkvist, T., Schuck, A., Winter, S. 2016. Catalogue of Tree Microhabitats – Reference Field List. European Forest Institute. https://doi.org/10.13140/RG.2.1.1500.6483.

[17] Kraus, D., Schmitt, H., Schuck, H., Pyttel, P., 2015. The Rosskopf Marteloscope field guide. Integrate+ Technical Paper No. 3, 12 p.

[18] Pyttel, P., Kraus, D. Schuck, A., Krumm, F., Bauhus, J. 2018. Mit „Marteloskopen“ integrative Waldwirtschaft lehren und erlernen. AFZ-Der Wald 4: 26-29

[19] Winter, S., Möller, G. C. 2008. Microhabitats in Lowland Beech Forests as Monitoring Tool for Nature Conservation. Forest Ecology and Management 255 (3–4): 1251–61. https://doi.org/10.1016/j.foreco.2007.10.029.

[20] Larrieu, L., Cabanettes, A., Delarue, A. 2012. Impact of Silviculture on Dead Wood and on the Distribution and Frequency of Tree Microhabitats in Montane Beech-Fir Forests of the Pyrenees. European Journal of Forest Research 131 (3): 773–86. https://doi.org/10.1007/s10342-011-0551-z.

[21] Kiehne, J. 2015. Das Marteloskop Rosskopf als Grundlage zur Beurteilung von betriebswirtschaftlichen und naturschutzfachlichen Aspekten im Bergmischwald. Masterthesis, Freiburg im Breisgau: Albert-Ludwigs-Universität.

[22] Regnery, B., Couvet, D., Kubarek, L., Julien, J.-F., Kerbiriou, C. 2013. Tree Microhabitats as Indicators of Bird and Bat Communities in Mediterranean Forests. Ecological Indicators 34 (11): 221–30. https://doi.org/10.1016/j.ecolind.2013.05.003.

[23] Schürg, R. 2015. Das Marteloskop Mooswald als Grundlage zur Beurteilung von betriebswirtschaftlichen und naturschutzfachlichen Aspekten in ehemaligen Eichen-Mittelwäldern. Masterthesis, Freiburg im Breisgau: Albert-Ludwigs-Universität.

[24] Carneiro, A. 2015. Quantifizierung von Mikrostrukturen und Mikrohabitaten in Eichen-Stockausschlagwäldern. Masterthesis, Freiburg im Breisgau: Albert-Ludwigs-Universität.

[25] Paillet, Y., Bergès, L., Hjältén, J., Avon, C., Bernhardt-Römermann, M., Bijisma, R., u.a. 2010. Biodiversity Differences between Managed and Unmanaged Forests: Meta-Analysis of Species Richness in Europe. Conservation Biology 24 (1): 101–12. https://doi.org/10.1111/j.1523-1739.2009.01399.x.

[26] Larrieu, L., Cabanettes, A., Brin, A., Bouget, C., Deconchat, M. 2014. Tree Microhabitats at the Stand Scale in Montane Beech–Fir Forests: Practical Information for Taxa Conservation in Forestry. European Journal of Forest Research 133 (2): 355–67. https://doi.org/10.1007/s10342-013-0767-1.

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