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Forest self-regeneration following clear-felling of dieback-affected Fraxinus excelsior: focus on ash |
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| Authors: | Vaidotas Lygis Remigijus Bakys Alma Gustiene Daiva Burokiene Antanas Matelis Rimvydas Vasaitis |
| Institution: | 1. Laboratory of Phytopathogenic Microorganisms, Institute of Botany of Nature Research Centre, Zaliuju Ezeru str. 49, 08406, Vilnius, Lithuania 2. State Forest Service, Pramones pr. 11A, 51327, Kaunas, Lithuania 3. Department of Forest Mycology and Plant Pathology, Uppsala BioCenter, Swedish University of Agricultural Sciences, P.O. Box 7026, 75007, Uppsala, Sweden |
| Abstract: | Due to the dieback caused by invasive fungus Hymenoscyphus pseudoalbidus, ash is threatened in many regions of Europe. In order to predict the situation with ash ecosystems, it is important to examine forest regeneration in areas formerly dominated by ash with long disease history and known management. The main aim of the present study was, therefore, to evaluate forest self-regeneration following clear-felling of ash dieback-devastated stands, focusing on ash. In Lithuania, during 2011, a forest regeneration inventory was performed on twenty clear-cuts, initially dominated by stands of ash, but severely damaged by the dieback caused by H. pseudoalbidus and clear-felled 1–10 years previously. In subsequent forest regeneration, grey alder and birch dominated. Ash regeneration was scarce, and its proportion decreased from 40–100 % in pre-dieback stands to 0–21 % in current stands. Of all observed ash trees (n = 775), 53.9 % were diseased, 16.8 % were dead, and only 29.3 % were visually healthy. Moreover, ash was among the slowest growing species, while grey alder, aspen and birch were the fastest. The regeneration and health condition of ash in forests, where previous to the dieback ash was dominant, demonstrated a sharp decrease in occurrence of this species and a clear shift in species composition towards grey alder and birch. |
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