The Finnish forest site type approach: ordination and classification studies of mesic forest sites in southern Finland |
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Authors: | Tiina Tonteri Juha -Pekka Hotanen Jussi Kuusipalo |
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Affiliation: | (1) Department of Silviculture, The Finnish Forest Research Institute, P.O. Box 18, SF-01301 Vantaa, Finland;(2) Joensuu Research Station, The Finnish Forest Research Institute, P.O. Box 68, SF-80101 Joensuu, Finland;(3) Joensuu Research Station, The Finnish Forest Research Institute, P.O. Box 68, SF-80101 Joensuu, Finland |
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Abstract: | A.K. Cajander's forest site type classification system is based on definition of plant communities typical to certain climatical and edaphical site conditions, but the structure and composition of the tree stands in Finland are considered sensitive to random variation and are therefore not used as primary classification criteria. The system has often received criticism, usually that the effects of the tree stand and successional stage of the stand have been underestimated. Most of the present-day forest stands in Finland represent young successional stages and are subjected to intensive management. This should result in an additional difficulty in the application of the forest site types in the field.The present study is based on three independent data sets representing forests on mineral soil in southern part of Finland. TWINSPAN classification, DCA ordination and canonical correspondence analysis (CCA) techniques were applied in successive stages of the data analysis. It was found that the definition of the intermediately fertile, mesic site types was clearly confused by the effects of the tree species and age of the stand. The analyses also revealed that the succession pathways on mesic forest sites are largely determined by the tree species composition. In stands dominated by Pinus sylvestris, the succession follows the competitive hierarchy model, whereas in stands dominated by Picea abies, severe shading of the tree canopy governs the development of understorey vegetation.Abbreviations CCA Canonical correspondence Analysis - DCA Detrended correspondence Analysis - TWINSPAN Two-way indicator species analysis |
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Keywords: | CCA DCA Finland Forest site types Forest succession Forest vegetation TWINSPAN |
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