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Das Monitoring von Ökosystemeigenschaften leistet einen wichtigen Beitrag zur Renaturierung von Ökosystemen. Dabei ist es entscheidend, nicht nur Vegetationsdaten, sondern auch Standortfaktoren, wie zum Beispiel Licht, direkt zu erfassen. Das Projekt "Dynamisierung der Donauauen zwischen Neuburg und Ingolstadt" (Bayern) wurde mit der Zielsetzung implementiert, das typische Flutungsregime und die damit verbundenen Grundwasserschwankungen eines naturnahen Auwaldes wiederherzustellen. Ein Teilprojekt des darauf abgestimmten Monitoringprogramms konzentriert sich seit 2007 auf die Beobachtung von Vegetationsveränderungen an einem neu angelegten Umgehungsgewässer, die entlang von rechtwinklig zum Gewässer verlaufenden Transekten erfasst werden. Hierbei wurde der Standortfaktor Licht anhand der sogenannten "Wörlein-Skala" abgeschätzt. Das Ziel dieser Arbeit war es, eine quantitative Methode auf der Basis der digitalen Hemisphärenphotographie zu entwickeln, die genauere Ergebnisse als die Schätzung liefert und dabei zeitsparend und flexibel eingesetzt werden kann. Aufgrund der so erhobenen Daten sollten folgende Fragen beantwortet werden: (1) Liefert die Wörlein-Skala im Vergleich zu den Messdaten eine verlässliche Datengrundlage? (2) Stellen Ellenberg-Lichtzeigerwerte eine sinnvolle Alternative zur direkten Messung oder Schätzung des Standortfaktors Licht dar? In einer Vorstudie wurde die Vergleichbarkeit spezieller Kameraaufbauten unter verschiedenen Umweltbedingungen getestet. Die Bearbeitung der digitalen Photographien erfolgte mit dem Programm "SideLook" zur Schwellenwertermittlung und der Modellierungssoftware "Gap Light Analyzer". Die Prüfung der Verlässlichkeit der Wörlein-Skala und der Ellenberg-Zeigerwerte erfolgte anhand von induktiver Statistik. Der Methodenvergleich ergab deutliche Unterschiede in der Erfassung des Standortfaktors Licht im Auwald: Die Wörlein-Skala repräsentierte die aus den Photographien abgeleiteten Messwerte relativ gut, nur die Schätzungen für die schattigeren Bereiche waren weniger gut aufgelöst. Die Ellenberg-Lichtzeigerwerte korrelierten nur schwach mit den Messwerten sowohl bei logarithmischer Korrektur der Deckung, als auch bei Gewichtung entsprechend der Deckung der Pflanzenarten. Zusammenfassend erfüllt die digitale Hemisphärenphotographie die meisten Anforderungen an Messungen des Standortfaktors Licht. Die Wörlein-Skala kann als verlässliche Alternative betrachtet werden, solange ihr logarithmischer Verlauf entsprechend des Weber-Fechner`schen Gesetzes beachtet wird. Der Ellenberg-Zeigerwert eignet sich dagegen weniger zur Erfassung des Standortfaktors Licht in Auwaldgebieten.
In many regions of Central Europe, semi-natural grasslands have experienced severe vegetation changes, e.g. compositional change and overall species loss, because of land use changes, atmospheric nitrogen input and also climate change. Here we analysed the vegetation change in a dry grassland complex (Gabower Hänge) in the Biosphere Reserve Schorfheide-Chorin (NE Brandenburg, Germany), one of the driest regions of the country. We resampled four 10 m² plots of each of four typical alliances (Festucion valesiacae, Koelerion glaucae, Armerion elongatae, Arrhenatherion elatioris) about 20 years after their original sampling with a recovery accuracy of approx. 10 m. The cover of vascular plants, bryophytes and lichens was recorded in both samplings. The overall compositional change was analysed with a detrended correpondence analysis (DCA). To interpret this change, we calculated unweighted mean Ellenberg indicator values for old and new plots. Furthermore we tested differences in constancy of individual species between old and new plots as well as differences in species richness, cover of herb and cryptogam layer, ecological indicator values and unweighted proportion of species groups (vascular plants, bryophytes, lichens), floristic status (native or not), life forms, CSR-strategy types and Red List species. The results of the ordination indicated no significant vegetation change, but revealed tendencies towards more nutrient-rich conditions. Ellenberg indicator values for nutrients and soil reaction were significantly correlated with the axes of the ordination. There were 28 species exclu-sively found in the new plots and 45 species of the old plots missing. While no species decreased signif-icantly, there were seven species that increased significantly. Mean species richness was significantly increased in the new plots. There were no significant differences in mean Ellenberg indicator values. Proportions of vascular plants, neophytes, hemicryptophytes and CS-strategists decreased. We conclude that overall vegetation changes are small, indicating that the dry grassland complex at the Gabower Hänge is still in a good state and of high conservation value. This relative stability over time compared to the situation in many other dry grasslands throughout temperate Europe is likely attributable to low nitrogen deposition and the dryness of the local climate. However, the detected tendency towards more nutrient-rich conditions should be taken into account in future management.
Evidence for increasing homogenization and de-ruralization of the Central European village flora
(2013)
In this study, the spontaneous flora of North Rhine-Westphalian villages (NW Germany) recorded in the periods 1980–1984 and 2004–2005 was analyzed. We asked: (i) Did the similarity of the village flora increase with time and to what extent did non-native species contribute to this? (ii) Is the ongoing trend of urbanization reflected in the village flora? (iii) Regarding the species composition and β-diversity: are there differences between the results of a repeated survey and of a type comparison? In both periods, 200 villages were visited once, using consistent criteria for village selection and floristic investigation. Of these, a subset of 61 villages was investigated in both time periods and the rest were selected randomly for the second survey but with respect to the same criteria as used in the first. Using different β-diversity indices (Sørensen index of dissimilarity, Simpson index of dissimilarity and nestedness resultant index) to disentangle pure species turnover and nestedness of species assemblages, we tested whether the similarity among the villages increased over the years. This was done by calculating all pairwise comparisons among the villages of each time period, i.e. their spatial turnover. Additionally, different ecological groups were defined (e.g. "neophytes", "C-strategists" or "urbanophilous species") using the subgroups of species traits (floristic status, Grime's life strategy and urbanity) to indentify urbanization and compositional changes. Our results show that the traditional village flora (species of the Arction lappae, Bidention tripartitae and Potentillion anserinae) is further blurred towards unspecific ubiquitous assemblages found in the periphery of man and that the floristic urbanization is still ongoing. Supported by nearly all ecological groups regarded, our results corroborate that the species composition of Central European villages underwent a considerable degree of homogenization. To some extent this is caused by structural homogenization of villages. Regarding the considerable increase of common ubiquists and α-diversity in general, however, changes in weeding practices seem to be the main reason. Based on the reinvestigated subset we could show that comparable results can be obtained by a consistent use of criteria for the selection of villages, even if unpaired samples were used.