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- Nachhaltigkeitsmgmt./-ökologie (27) (entfernen)
Der vielfältige Einsatz von unterschiedlichen organischen Substanzen in Haushalt, Landwirtschaft und Industrie hat zur Folge, dass diese eventuell in die aquatische Umwelt gelangen. Jede dieser Substanzen stellt potentiell eine Gefährdung der verschiedenen Wasserressourcen dar. Deshalb ist zur Sicherung der Trinkwasserqualität eine ständige und umfassende Überwachung der Ressourcen, die für die Trinkwasseraufbereitung verwendet werden, auf diese organischen Spurenstoffe notwendig. Als Ergänzung zum weitverbreiteten Target-Screening gewinnt das Non-Target-Screening mittels HPLC-MS in den letzten Jahren zunehmend bei der Überwachung von für die Trinkwasserherstellung genützter Wasserressourcen an Bedeutung. Diese Arbeit beschreibt neue Strategien für das Screening und die Identifizierung unerwarteter oder unbekannter organischer Spurenstoffe in Wasser mittels HPLC-QTOF-MS. Dabei werden alle Komponenten bei der Datenauswertung berücksichtigt, die mittels der verwendeten Analysenmethode detektierbar sind. Dies entspricht der Grundidee des Non-Target-Screenings. Dabei ist während des Screenings aufgrund der hohen Anzahl an detektierten Substanzen pro Probe eine Fokussierung auf wenige relevante Kontaminanten zwingend notwendig. Deshalb wird eine Probe nicht isoliert betrachtet, sondern es erfolgt eine vergleichende Betrachtung von mehreren Proben mit einer räumlichen, zeitlichen oder prozessbezogenen Beziehung. Die Effizienz der entwickelten Strategien konnte sowohl bei der Identifizierung von unbekannten Substanzen in Grundwasserüberwachungsproben als auch bei der Ermittlung von Oxidationsnebenprodukten von bekannten Kontaminanten (4- and 5-Methyl-1H-benzotriazol) bei der Ozonierung von Donauwasser erfolgreich gezeigt werden. Außerdem wurde für eine effektivere Unterstützung der Identifizierung von Substanzen das Datenbankkonzept DAIOS (Database-Assisted Identification of Organic Substances) angewandt. Schlussendlich können die beschriebenen neuen Strategien für das Screening und die Identifizierung organischer Spurenstoffe in Wasser für zahlreiche andere Anwendungsgebiete und Fragestellungen der Umweltanalytik, wie z.B. Überwachung von Altlastensanierung oder Prozessschritten der Trink- und Abwasseraufbereitung, eingesetzt werden.
Traditional farming landscapes have been created in coexistence of rural dwellers and local ecosystems over long time spans, and can be considered tightly coupled ´social-ecological systems´ (SES). Since these landscapes typically embody exceptionally high levels of biological diversity and multiple socio-cultural values, their protection is critical from a sustainability perspective. Due to the pressures of globalization and social change, however, rural livelihoods and farmland biodiversity are at risk. While the focus of research is often on the Southern hemisphere, there are traditional farming landscapes in the former socialist countries of Central and Eastern Europe (CEE) which are equally affected by rapid change, and thus deserve particular attention. Since the institutional breakdown of socialism in 1989, the CEE states have not only been confronted with an unprecedented socio-economic and environmental transition. Their integration into the multi-level governance regime of the European Union (EU) further resulted in the transformation of decision-making structures and competition within the EU common market. In light of the profound changes traditional farming landscapes of Central and Eastern Europe are confronted with, they serve as a valuable source of learning about the institutional design necessary to harmonize socio-economic development and biodiversity conservation within regional social-ecological systems worldwide. This thesis is the result of an in-depth analysis of one traditional farming landscape of Central and Eastern Europe, namely Southern Transylvania (Romania). Based on empirical research involving diverse stakeholder groups, this thesis assessed the impact of EU policy on the area, the institutional features characterizing local-level governance in Southern Transylvania, and the barriers and bridges towards sustainable rural development. This thesis finds that while rural dwellers are highly dependent on smallholder farming and local ecosystems for their livelihoods, Southern Transylvania is currently confronted with a range of structural development barriers. These are likely to be exacerbated by a governance system consisting of historically grounded ´elite social networks´, and by EU policies which often do not fit rural realities. The findings of this dissertation underline that entrenched informal institutions, political will, and historical legacies play a critical role for the governance of traditional social-ecological systems since these ´social system features´ do not only mediate how external policies act on the local level. They may further restrict local adaptive and innovation capacities which, however, are critical for the transformation towards sustainable development. This thesis further finds that there are no blueprint solutions for the design of rural development strategies. Instead, (supra-) national policies should take better account of local socio-economic and cultural particularities.
Ökologische und soziale Themen werden für Marken zunehmend erfolgsrelevant. Jedoch können Nachhaltigkeitsversprechen einer Marke zu Vertrauensvorbehalten seitens der Stakeholder führen, weshalb die Glaubwürdigkeit einer Nachhaltigkeitsmarke besonders wichtig ist. Zudem wird die Wahrnehmung einer Nachhaltigkeitsmarke heutzutage verstärkt durch Stakeholder mitbestimmt, da sie mittels Social Media eigene Inhalte verfassen und im Social Web veröffentlichen können. Vor diesem Hintergrund wurde in der Dissertation erörtert, wie ein Unternehmen seine Marke durch ökologische und soziale Themen stärken kann. Außerdem wurde untersucht, wo in diesem Entwicklungsprozess soziale Medien gezielt eingesetzt werden können. In diesem Kontext wurde auch der Frage nachgegangen, wie die von Stakeholdern im Social Web verfassten Inhalte in Übereinstimmung mit einer intendierten Nachhaltigkeitsmarke gebracht und deren Kraft genutzt werden können. Zentrales Ergebnis der Dissertation stellt ein anwendungsorientiertes Modell für die systematische Social-Media-Verwendung zur Unterstützung des Nachhaltigkeitsmarkenmanagements dar.
Business Models for Sustainability Innovation: Conceptual Foundations and the Case of Solar Energy
(2013)
This dissertation deals with the relationships between the increasingly discussed business model notion, sustainability innovation, and the business case for sustainability concept. The main purpose of this research is to identify and define the so far insufficiently studied theoretical interrelations between these concepts. To this end, according theoretical foundations are developed and combined with empirical studies on selected aspects of the solar photovoltaic industry. This industry is particularly suitable for research on sustainability innovation and business models because of its increasing maturity paired with public policy and market dynamics that lead to a variety of business model-related managerial and entrepreneurial business case challenges. The overarching research question is: How can business models support the commercialisation of sustainability innovations and thus contribute to business cases for sustainability? A theoretical and conceptual foundation is developed based on a systematic literature review on the role of business models in the context of technological, organisational, and social sustainability innovation. Further, the importance of business model innovation is discussed and linked to sustainability strategies and the business case for sustainability concept. These theoretical foundations are applied in an in-depth case study on BP Solar, the former solar photovoltaic subsidiary of British Petroleum. Moreover, because supportive public policies and the availability of financial capital are known to be the most important preconditions for commercial success with innovations such as solar photovoltaic technologies, the solar studies include a comparative multiple-case study on the public policies of China, Germany, and the USA as well as a conjoint experiment to explore debt capital investors’ preferences for different types of photovoltaic projects and business models. As a result, the main contribution of this work is the business models for sustainability innovation (BMfSI) framework. This framework is based on the idea that the business model is an artificial and social construct that fulfils different functions resulting from social interaction and their deliberate construction. The BMfSI framework emphasises the so-called mediating function, i.e. the iterative alignment of business model elements with company-internal and external requirements as well as with the specific characteristics of environmentally and socially beneficial innovations. Against this backdrop, it becomes clear that practically-oriented knowledge based on BMfSI research might provide new and effective ways to support the achievement of corporate sustainability.
Human activities have converted natural ecosystems worldwide, mostly for agricultural purposes. This change in land use has been recognized as one of the key drivers causing mass extinction of biodiversity. Yet, there are species which persist particularly in traditional, low-intensity agricultural areas. However, this farmland biodiversity is increasingly threatened by the consequences of land-use intensification and land abandonment. One effect of these two processes is the change in existing landscape structures. This dissertation aimed at quantifying the relationship between biodiversity and landscape structures because a better understanding of current biodiversity patterns and their drivers is needed to navigate biodiversity conservation for a sustainable development. Specifically, this dissertation anticipates the impacts of land-use change on biodiversity in Southern Transylvania, focusing on butterflies and plants as study groups. In a first step, a methodological baseline for subsequent biodiversity studies is developed by exploring an optimal survey strategy, allocating the available resources in a study design that enables high statistical power and covers a wide range of environmental conditions. This study shows that in the highly heterogeneous farmland mosaic of Southern Transylvania, survey effort can be moderately reduced while still showing similar patterns of species richness, species turnover and species composition (Chapter 2). In a second step, biodiversity patterns of plants and butterflies are empirically investigated in response to different landscape structures, particularly towards heterogeneity and woody vegetation cover. These studies provide evidence that all main land-use types in Southern Transylvania, namely arable land, grassland and forests, contribute to an overall landscape pool. Species richness of plants, but not of butterflies, differed significantly between arable land and grassland. Presence of woody vegetation in farmland had a positive effect on plant species richness. Heterogeneity has been found beneficial for butterfly species richness in arable land, but not in grasslands. Species composition of plants was determined by land-use, but butterfly species composition was widely overlapping in arable land and grassland (Chapters 3 & 4). Investigations on the potential spread of invasive plant species in the Transylvanian landscape exhibited that distance to roads and heterogeneity, especially in arable land, were key variables determining the invasibility of the landscape (Chapter 5). By studying movement patterns of butterflies in agricultural landscapes, land-use intensity could be revealed having an impact on butterfly movements. Furthermore, butterflies were found to prefer non-arable patches within farmland (Chapter 6). In a third step, this dissertation conceptually embeds socio-economic considerations into the local and international discourse on sustainable rural development: Reflections on a participatory projects on establishing butterfly monitoring in Romania conclude that involving citizens in biodiversity conservation is possible in Romania, but need tailored approaches which consider the unique social and cultural settings (Chapter 7). Current recommendations from scientific literature to increase the agricultural yield, for example in Eastern European landscapes, through ´sustainable intensification´ for global food security are scrutinized for their engagement with sustainability. This dissertation concludes that genuine sustainable solutions need to respect the various aspects of sustainability, including procedural and distributive justice. Furthermore, it is clarified that general recommendations for agricultural intensification, for instance in Romania, may lead to devastating impacts on biodiversity and ecosystem functions (Chapter 8). This dissertation provides evidence that the beneficial characteristics of the Translvanian farmland are linked to the fine spatial scale of the agricultural mosaic, the amount and distribution of semi-natural elements and the scattered woody vegetation throughout the landscape. Hence, the future of biodiversity depends on human interventions in the ancient cultural landscape. Navigating biodiversity conservation in Southern Transylvania thus needs genuine sustainable solutions, which integrate socially acceptable and ecological meaningful landscape management.
The role of tree diversity for individual tree growth, crown architecture and branch demography
(2012)
In the light of the concurrent loss of biodiversity, biodiversity and ecosystem functioning (BEF) research attracted a great deal of attention and emerged as one of the important fields of research in ecology. Since important ecological interactions such as competition occur between individuals, the understanding of individual tree growth was considered to be fundamental for forest related BEF research. Individual tree growth is determined by the above- and belowground interactions of a tree individual with its local neighbourhood. To obtain a deeper understanding of BEF relationships, I broadened the focus from individual tree growth (usually measured as diameter or biomass increment) to the arrangement and dynamics of the above-ground modules of trees in dependence of their local neighbourhood. More precisely, the main objective of the present thesis was to analyse the impact of tree diversity on individual tree growth, crown architectural and branch demographic variables. Thereby I considered crown architectural variables as important indicators of the competition for light. In addition, crown architectural variables impacted ecosystem services such as erosion control. Furthermore, the results of the present thesis contributed to the current discussion on species coexistence theories, which may be differentiated by two opposing views: one that relies on neutral processes and one that implicates a role for meaningful differences in the ecological strategy (niche) of co-occurring species. The studied forest ecosystems were the subtropical broad-leaved evergreen forests of southeast China, which have been under high human pressure due to a long history of intensive land-use. The area is of particular interest for BEF research due to the high species richness of woody plants, including many, yet poorly studied species, and due to the rough terrain with steep slopes, which cause severe soil erosion. The present thesis combines three observational with two experimental studies, applying the local neighbourhood approach along an age gradient from tree saplings to mature trees. In the Gutianshan National Nature Reserve (GNNR), I conducted two observational studies on permanent plots which were chosen according to a space-for-time substitution design. The aim of the first study was to reveal the effects of diversity (species richness, functional diversity) together with other biotic and abiotic variables on morphological growth parameters (crown area, crown displacement and stem inclination) of target trees of four tree species (Castanea henryi, Castanopsis eyrei, Quercus serrata and Schima superba). In the second study, the same target trees together with their neighbours were used to analyse the relation between stand related functional diversity and the horizontal and vertical structure of the canopy. The third study was conducted in a young secondary broad-leaved evergreen forest. Using two target species (Castanopsis fargesii and Quercus fabri), the role of diversity, intra- vs. inter-specific competition and the mode of competition (symmetric vs. asymmetric) on the target individuals was tested by analysing five-year radial growth increments. The two other studies were carried out in an experimentally established plantation, using saplings of four tree species (C. henryi, Elaeocarpus decipiens, Q. serrata and S. superba), which were planted in monoculture, twoand four-species combinations and in three densities. The fourth study focused on mechanisms of coexistence and the role of species richness, species composition, species identity and density on sapling growth. The fifth study tested the effect of sapling density and identity on the througfall kinetic energy, which represents a measure for the erosive power of rain. It was found that functional diversity does affect crown architectural and canopy related parameters of forests in the GNNR. However, no effects of species richness on radial-growth were detected in the younger forest. Since I also did not find strong effects of species richness on saplings in the experimental plantation, diversity effects may evolve at a later age stage. The importance of the diversity effect may be related reversely to that of species identity in an age gradient of forest stands. The findings suggest that different mechanisms of coexistence operate simultaneously but that their relative importance may shift through the life stages of trees. During the sapling stage, species-specific differences in growth and architectural traits support niche theory. In older forest stands, no species-specific differences in growth parameters could be detected. However, I did find effects of functional diversity on horizontal canopy structure. I conclude that mechanisms of coexistence may not only change with forest stand age, but may also differ for distinct traits. The present thesis, being the first to apply the local neighbourhood approach with regard to crown architecture and branch demography within the BEF field of research, stresses the importance of this individual based approach. Although the observed forest systems are very complex, crown architectural and canopy structural variables were found to be affected by diversity. The finding that the degree of erosive power of rain could be elucidated by crown architectural variables, encourages further studies to reveal possible relations between biodiversity and other ecosystem functions or services, which might be mediated by crown architectural and canopy structural variables.
Stoffstromnetzbasierte Optimalplanung des Ressourceneinsatzes industrieller Produktionssysteme
(2011)
Die Steigerung ihrer Ressourceneffizienz ist heute für viele Unternehmen des produzierenden Gewerbes sowohl aus Gründen des Umweltschutzes als auch zur Steigerung ihrer Wettbewerbsfähigkeit ein wichtiges Anliegen. Als ein in vielfältiger Hinsicht geeignetes Planungsinstrument für das industrielle Energie- und Stoffstrommanagement hat sich in den letzten Jahren die in den 1990er Jahren entwickelte Methode der Stoffstromnetze erwiesen. Ihr Manko besteht hauptsächlich darin, dass bislang keine automatische Suche nach Systemkonfigurationen mit optimalem Ressourcenverbrauch möglich ist. Gängige Optimierungsmethoden des Operations Research wie die mathematische Programmierung sind hierfür prinzipiell geeignet. Aufgrund ihres hohen Abstraktionsniveaus lassen sie sich jedoch nur schwer in betriebliche Planungsprozesse, insbesondere in mittelständischen Unternehmen, einbinden. Daher wird in dieser Arbeit eine neuartige Methode für die Optimalplanung industrieller Produktionssysteme entwickelt, die die Vorteile der Stoffstromnetze mit denen der Parameteroptimierung verbindet: die stoffstromnetzbasierte Optimalplanung. Als formale Schnittstelle zwischen Stoffstromanalyse und Operations Research wird durch die Einbettung eines Stoffstromnetzes in ein Parameteroptimierungsproblem das stoffstromnetzbasierte Optimierungsproblem (SSNOP) definiert. Dabei wird deutlich, dass aus der methodischen Integration nur dann ein sinnvolles Planungswerkzeug resultiert, wenn auch die jeweiligen Modellierungsparadigmen von Stoffstromanalyse und Optimalplanung miteinander verschmolzen werden. Das SSNOP ermöglicht daher nicht nur die angestrebte Erweiterung des Stoffstrommanagements um den Aspekt der automatischen Systemoptimierung. Es induziert darüber hinaus einen Perspektivwechsel von der traditionell eher beschreibenden zu einer entscheidungsorientierten Stoffstromanalyse. Nur durch die systematische Berücksichtigung der Freiheitsgrade eines Produktionssystems in Form von vorhandenen oder potenziellen Handlungs- und Gestaltungsspielräumen entstehen Stoffstrommodelle, die gleichzeitig als Optimierungsmodelle einsetzbar sind. Weiterhin werden in dieser Arbeit konkrete Lösungsansätze für das SSNOP untersucht. In Abhängigkeit von den Eigenschaften des eingebetteten Stoffstromnetzes gibt es zwei Möglichkeiten für die Optimierung: Einerseits die algebraische Reformulierung als mathematisches Programm, welches anschließend mit analytischen Optimierungsalgorithmen gelöst werden kann, andererseits die Anwendung direkter Suchalgorithmen im Rahmen einer simulationsbasierten Optimierung. Weiterhin wird ein Optimierungsmodul für eine stoffstromnetzbasierte Stoffstromanalysesoftware konzipiert, welches beide Lösungsansätze integriert. Mittels numerischer Experimente wird schließlich die Eignung verschiedener direkter Optimierungsalgorithmen zur Lösung des SSNOP untersucht.
In den Jahren 2006 und 2007 wurden auf dem Gebiet der Lüneburger Heide nach einer Vorstratifizierung im Rahmen ausgedehnter Feldforschung Umweltdaten für die stark bedrohte Spinnenart Eresus kollari Rossi 1846 und die eurytope Spinnenart Trochosa terricola Thorell 1856 erhoben. Ziel der Arbeit war es, die Habitatbindung beider Arten zu beschreiben und Heidepflegemaßnahmen vor allem für erstere zu benennen, um zu ihrem dauerhaften Erhalt beizutragen. Außerdem sollten beide Arten auf dem gleichen Standort in ihren Habitatansprüchen verglichen werden. Mit Hilfe der vorliegenden Untersuchungen konnte die spezifische Habitatbindung von E. kollari in der Lüneburger Heide beschrieben werden. Heidepflegemaßnahmen, die dazu führen, dass die organische Auflage des Bodens gering, die Temperatur auf Höhe der Röhren der Tiere (in 10 cm Tiefe) hoch und die Heidebedeckung gleichzeitig relativ groß ist, entsprechen den ermittelten Mikrohabitatansprüchen der Art Eresus kollari. Der Nischenvergleich der stenotopen Art E. kollari mit der eurytopen Art T. terricola zeigte, dass die beiden Arten sich hinsichtlich ihrer Habitatparameter nur in den drei Faktoren ‚Bedeckungsgrad Bäume‘, ‚Dicke der organischen Auflage‘ und ‚Bedeckungsgrad Gräser‘ unterschiedlich verhalten. Dabei stellt sich der Reaktionsraum von E. kollari wie eine Teilmenge desjenigen von T. terricola dar. Unter diesem Aspekt kann E. kollari nicht nur als Leitart sondern auch als Schirmart in der Lüneburger Heide dienen. Pflegemaßnahmen wie kontrolliertes Brennen und Schoppern, variabel in Zeit und Raum angewandt, erscheinen vor dem Hintergrund der Ergebnisse der Habitateignungsmodellierung als besonders geeignet, um langfristig die Mikrohabitatansprüche für E. kollari (aber auch für T. terricola) zu sichern. Angesichts des geringen Ausbreitungspotentials von E. kollari werden vielleicht manche geeignete Lebensräume nicht besiedelt. Ein Monitoring sowie (Wieder-) Besiedlungsexperimente auf geeignet erscheinenden Flächen sollten daher für den dauerhaften Erhalt der Art im norddeutschen Raum in naher Zukunft ausgeführt werden.