9 Geschichte und Geografie
91 Geografie, Reisen
- 92 Biografie, Genealogie
- 93 Geschichte des Altertums (bis ca. 499), Archäologie
94 Geschichte Europas
- 95 Geschichte Asiens
- 96 Geschichte Afrikas
- 97 Geschichte Nordamerikas
- 98 Geschichte Südamerikas
- 99 Geschichte anderer Gebiete
GrenzStattMiteinander. Zivilgesellschaftliche Raumproduktionen eines grenzüberschreitenden deutsch-polnischen Gemeinwesens in Görlitz und Zgorzelec.
- Während Pressevertreter sowie Politiker Görlitz (D) und Zgorzelec (PL), die sich seit 1998 als Europastadt bezeichnen, zum „Modellfall des europäischen Einigungsprozess“ (FAZ, 10.06.2006) erklären, sind damit verbundene Visionen in ihrer Differenz zum Alltagsleben in den nach dem Zweiten Weltkrieg geteilten Grenzstädten deutlich spür-bar. – Vollzieht sich die postulierte Konstruktion eines grenzüberschreitenden Ge-meinwesens auch als bottom-up-Prozess innerhalb von Alltagswelten beiderseits der Staatsgrenze? Davon ausgehend folgt die Arbeit mit einer ethnographischen For-schungshaltung der Perspektive zivilgesellschaftlicher Akteure im Bereich von Kultur und Bildung, die für das sogenannte „borderwork“ (Rumford 2008), der Konstruktion, Verschiebung und dem Abbau von Grenzen, eine aktive Position einnehmen. Als Zu-gang dient die doppelte Triade der Raumproduktion, die Lefebvre in La production de l'espace (1974) formuliert und aufgrund der Prämisse „(sozialer) Raum ist ein (soziales) Produkt“ sowohl territoriale als auch soziale bordering-Prozesse berücksichtigen kann.
Drivers of forest dynamics: Joint effects of climate and competition
- The present dissertation thesis addresses different aspects of forest dynamics and possible changes due to climate change. Various modelling approaches are used to explore joint effects of climate and competition on forest dynamics with a focus on temperate forests. Motivated by scientific interest, this thesis is aimed at contributing to the establishment of fundamental knowledge for proper ecosystem management. Each of the research projects of this thesis explores a facet of forest dynamics. It appears that for projections of forest dynamics under climate change particularly, it is critical to consider competition among trees.
In the first study, the joint effect of climate and competition on forest dynamics in a mountain forest of New Zealand was investigated. The landscape simulation model LandClim was calibrated based on empirical data and applied to reproduce a 1700 years forest succession under stationary climate at the slope of Mt. Hauhungatahi, North Island. Although designed for European temperate forests, LandClim was capable of simulating NZ´s forest dynamics.
Under non-stationary climate, forests likely remain in disequilibrium with climate for some time due to the longevity of trees and competitive prevention of establishment. This aspect was investigated in a mixed beech-oak forest in Germany, using LandClim and the forest gap model SILVA in a cooperation study. Furthermore, a possible ‘climatic turning point’ was investigated, the point at which species dominances change due to changes in competitiveness caused by climate change. Both models projected a potential climatic turning point at a mean annual temperature of 11-12 °C and precipitation sum of 500‑530 mm. However, the change of species composition in existing mixed stands was much slower since the turning point also depended on inherited stand structure. Based on these projections the promotion of oak at dry sites seems advisable due to its superior resistance and resilience to drought.
The applied simulation models consider joint effects of climate and competition but no changes in species sensitivity to competition along climatic gradients. The Spanish National Forest Inventories provided a solid basis to develop a statistical model for the influence of climate and competition on tree growth. The results indicated that in Mediterranean forests the effect of competition increases with aridity potentially resulting in an additional disadvantage for drought sensitive oaks compared to pines under climate change.
Under the prerequisite that forest dynamics will be affected by climate change, different forest management strategies on adaptation are currently discussed. One option is the promotion of tree species that are better adapted to anticipated future climates (such as oak instead of beech in Germany) and also the introduction of non-local ecotypes of local species. This increase in biodiversity intuitively appears promising because it is in line with the insurance hypothesis and the portfolio effect theory. Within this thesis the effect of ecotype mixing as an increase of within stand diversity under consideration of self-thinning was assessed. It was shown that ecotype mixing in forest stands might lower the risk of yield losses and at the same time might exempt the portfolio effect from its drawback of lower chances for high yields.
Climate not only affects demographic rates of tree species but also all other ecosystem components. Disturbances are an important component of forest dynamics because they initiate successions and thereby influence species coexistence. Climate will alter disturbance regimes not only directly but also due to interactions among disturbances, for example an increased risk of insect outbreaks due to weak tree defence caused by severe drought stress. Most disturbance interactions have been observed to be positive, implying that increases of disturbances in quality and quantity due to climate change will be amplified. Furthermore, systems containing positive feedback loops are considered to be mostly unstable, which would result in forest collapse. A theoretical study on disturbance interactions showed why positive feedback loops of disturbances do not necessarily lead to a forest collapse. Disturbance interactions might cause only a minor part of disturbances, whereas direct changes due to climate change are of much higher importance.
The described studies reflect the diversity of the research field forest dynamics and innovative ecological methodology. Nevertheless, the present thesis is not an exhaustive discussion of drivers of forest dynamics under climate change. Forest dynamics and its drivers provide a range of open research questions posing a challenge for fundamental an applied research of high relevance for society.