Carsten Rüther - Academia.edu (original) (raw)

Books by Carsten Rüther

Rüther, C. and Walentowski, H., 2008. Tree species composition and historic changes of the Central European oak/beech region. In: Floren, A. and Schmidl, J. (eds): Canopy arthropod research in Europe, pp. 61-88, bioform entomology, Nuremberg., 2008

After the ending of the final glaciations, tree species re-immigrated to Central Europe from thei... more After the ending of the final glaciations, tree species re-immigrated to Central Europe from their southern refuges. Fagus sylvatica (beech) was the last principal tree species to arrive at the northernmost areas of the Central European region, viz. northwestern Germany, Denmark and southern Sweden. Due to their high competitive ability, F. sylvatica plays a predominant role in Central European Fagion-forest communities, whose native ranges are lowlands and low mountain ranges. Depending on local soil and climatic conditions, other tree genera are included such as Quercus (oak), Picea (spruce) and Abies (¿ r) (both Pinaceae). Indeed, only under exceptional environmental conditions is the competitive ability of F. sylvatica limited in such a manner that other tree species may predominate. Even rare occurrences of one associated tree species within beech forests may assure a long habitat tradition for specialised biocoenoses. Since the Neolithic period, human activities interfered with the forest-covered regions of Central Europe. The forests were changed sig-ni¿ cantly by multiple historical uses and management techniques. Anthropogenic transformation of the forests was driven by wood pasture, pollarding techniques, litter utilisation, coppicing, coppicing with standards and high-forest systems (selective and clear-cutting). These had crucial effects on tree species composition as well as the stand climate of the forests. They changed the spatial and temporal structures of the stands as well as the cycling of soil matter. Another effect of human activities was drastic reduction of forest cover. The unwitting transition of tree species composition finished in the Middle Ages. Since then, human interference has concentrated on targeted timber selection. These alterations make clear that structural components and site conditions of commercial forests deviate considerably from those of the original natural forests. Modern management methods have to consider biodiversity and the degree of naturalness with regard to the tradition of old-growth trees, natural tree species combination and natural ground layer vegetation. Important standards for a sustainable forestry combined with conservation of biodiversity are heterogeneity, complexity and scale.

Rüther, C. and Walentowski, H., 2008. Tree species composition and historic changes of the Central European oak/beech region. In: Floren, A. and Schmidl, J. (eds): Canopy arthropod research in Europe, pp. 61-88, bioform entomology, Nuremberg., 2008

After the ending of the final glaciations, tree species re-immigrated to Central Europe from thei... more After the ending of the final glaciations, tree species re-immigrated to Central Europe from their southern refuges. Fagus sylvatica (beech) was the last principal tree species to arrive at the northernmost areas of the Central European region, viz. northwestern Germany, Denmark and southern Sweden. Due to their high competitive ability, F. sylvatica plays a predominant role in Central European Fagion-forest communities, whose native ranges are lowlands and low mountain ranges. Depending on local soil and climatic conditions, other tree genera are included such as Quercus (oak), Picea (spruce) and Abies (¿ r) (both Pinaceae). Indeed, only under exceptional environmental conditions is the competitive ability of F. sylvatica limited in such a manner that other tree species may predominate. Even rare occurrences of one associated tree species within beech forests may assure a long habitat tradition for specialised biocoenoses. Since the Neolithic period, human activities interfered with the forest-covered regions of Central Europe. The forests were changed sig-ni¿ cantly by multiple historical uses and management techniques. Anthropogenic transformation of the forests was driven by wood pasture, pollarding techniques, litter utilisation, coppicing, coppicing with standards and high-forest systems (selective and clear-cutting). These had crucial effects on tree species composition as well as the stand climate of the forests. They changed the spatial and temporal structures of the stands as well as the cycling of soil matter. Another effect of human activities was drastic reduction of forest cover. The unwitting transition of tree species composition finished in the Middle Ages. Since then, human interference has concentrated on targeted timber selection. These alterations make clear that structural components and site conditions of commercial forests deviate considerably from those of the original natural forests. Modern management methods have to consider biodiversity and the degree of naturalness with regard to the tradition of old-growth trees, natural tree species combination and natural ground layer vegetation. Important standards for a sustainable forestry combined with conservation of biodiversity are heterogeneity, complexity and scale.