An attempt was made to evaluate some deadwood parameters as factors influencing saproxylic Coleoptera communities on the fallen spruce and aspen trunks in the old-growth spruce forest. It has been shown that the most important factor determining the species diversity of saproxylic Coleoptera is the time since tree death, which manifests itself differently depending on the tree species. The influence of the trunk diameter and the type of mortality was traceable (but not statistically significant) in combination with each other or with the time since tree death. Species composition of saproxylic Coleoptera was determined by the tree species, the time since tree death and the type of mortality. The influence of the trunk diameter, in this case, was traced only in combination with the tree species and the time since tree death. Analysis of the distribution of red-listed species confirms the need for the presence of dead fallen trunks of different tree species, and at different decomposition stages to maintain the maximum species diversity of rare saproxylic Coleoptera.
2020. T. 125. Vyp. 2.
2020. T. 125. Vyp. 2.
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Dead Wood Parameters Influencing Saproxylic Coleoptera Communities on the Fallen Spruce and Aspen Trunks in the Old-Growth Spruce Forest in South Karelia
References
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Список литературы
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- Birkemoe T., Sverdrup-Thygeson A. Trophic levels and habitat specialization of beetles caught on experimentally added aspen wood: Does trap type really matter? // J. Insect Conservation. 2015. Vol. 19. N 1. P. 163–173.
- Dahlberg A., Stokland J.N. Vedlevande arters krav på substrat – sammentällning och analys av 3600 arter // Skogsstyrelsen Rapport 7. 2004. P. 1–75.
- Gibb H., Petterson R.B., Hjälten J., Hilszczanski J., Ball J.., Johansson T., Atlegrim O., Danell K. Conservation-oriented forestry and early successional saproxylic beetles: Responses of functional groups to manipulated dead wood substrates // Biological Conservation. 2006. Vol. 129. P. 437–450.
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- Hammer Ø., Harper D.A.T., Ryan P.D. PAST: Palaeontological statistics software package for education and data analysis // Palaeontologica Electronica. 2001. Vol. 4. N 1. P. 1–9.
- Hövemeyer K., Schauermann J. Succession of Diptera on dead beech wood: A 10-year study // Pedobiologia. 2003. Vol. 47. P. 61–75.
- Irmler U., Heller K., Warning J. Age and tree species as factors influencing the populations of insects living in dead wood (Coleoptera, Diptera: Sciaridae, Mycetophilidae) // Pedobiologia. 1996. Vol. 40. P. 134–148.
- Jonsell M., Hansson J., Wedmo L. Diversity of saproxylic beetle species in logging residues in Sweden – Comparisons between tree species and diameters // Biological Conservation. 2007. Vol. 138. N 1–2. P. 89–99.
- Kaila L., Martikainen P., Punttila P., Yakovlev E.B. Saproxylic beetles (Coleoptera) on dead birch trunks decayed by different polypore species // Annales Zoologici Fennici. 1994. Vol. 31. P. 97–107.
- Langor D.W., Hammond H.E.J., Spence J.R., Jacobs J., Cobb T.P. Saproxylic insect assemblages in Canadian forests: Diversity, ecology, and conservation // Canadian Entomologist. 2008. Vol. 140. N 4. P. 453–474.
- Mlynarek J.J., Taillefer Grégoire A., Wheeler T.A. Saproxylic Diptera assemblages in a temperate deciduous forest: implications for community assembly // Peer J. – The Journ. of Life and Invironment. Sci. 2018. Vol. 6. Article e6027. P. 1–15.
- Polevoi A. V., Pilipenko V.E. The first record of Tipula apicispina and Tipula stenostyla (Diptera, Tipulidae) from Russian Karelia with new data on their bionomics // Zoosystematica Rossica. 2016. Vol. 25. N 2. P. 380–386.
- Polevoi A., Ruokolainen A., Shorohova E. Eleven remarkable Diptera species, emerged from fallen aspens in Kivach Nature Reserve, Russian Karelia // Biodiversity Data Journal. 2018. Vol. 6. Article e22175. P. 1–22.
- Ranius T., Martikainen P., Kouki J. Colonisation of ephemeral forest habitats by specialised species: Beetles and bugs associated with recently dead aspen wood // Biodiversity and Conservation. 2011. Vol. 20. N 13. P. 2903–2915.
- Ruokolainen A., Shorohova E., Penttilä R., Kotkova V., Kushnevskaya H. A continuum of dead wood with various habitat elements maintains the diversity of wood-inhabiting fungi in an old-growth boreal forest // European Journal of Forest Research. 2018. Vol. 137. N 5. P. 707–718.
- Saint-Germain M., Drapeau P., M. Buddle C. Host-use patterns of saproxylic phloeophagous and xylophagous Coleoptera adults and larvae along the decay gradient in standing dead black spruce and aspen // Ecography. 2007. Vol. 30. N 6. P. 737–748.
- Seibold S., Bässler C., Brandl R., Gossner M.M., Thorn S., Ulyshen M.D., Müller J. Experimental studies of dead-wood biodiversity – A review identifying global gaps in knowledge // Biological Conservation. 2015. Vol. 191. P. 139–149.
- Shorohova E., Kapitsa E., Kazartsev I., Romashkin I., Polevoi A., Kushnevskaya H. Tree species traits are the predominant control on the decomposition rate of tree log bark in a mesic old-growth boreal forest // Forest Ecology and Management. 2016. Vol. 377. P. 36–45.
- Siitonen J., Saaristo L. Habitat requirements and conservation of Pytho kolwensis, a beetle species of old-growth boreal forest // Biological Conservation. 2000. Vol. 94. P. 211–220.
- Weslien J., Djupström L.B., Schroeder M., Widenfalk O. Long-term priority effects among insects and fungi colonizing decaying wood // The Journal of animal ecology. 2011. Vol. 80. N 6. P. 1155–1162.