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Die Nachhaltigkeitsberichterstattung kann als ein zentrales Element einer konsequenten Unternehmensstrategie zur Umsetzung der gesellschaftlichen Verantwortung (Corporate Social Responsibility) angesehen werden. Um die Unternehmen bei dieser Aufgabe zu unterstützen stellt die Global Reporting Initiative (GRI) mit ihren G4 Leitlinien einen Orientierungsrahmen bereit, dessen Anwendung sich allerdings für Klein und Mittelunternehmen sehr komplex gestaltet. Ein branchenspezifisches Sector Supplement für den Weinbau existiert derzeit noch nicht.
Ziel der vorliegenden Arbeit ist es, diese Forschungslücke durch die Entwicklung weinbauspezifischer Nachhaltigkeitsaspekte und Indikatoren zu schließen, um den Betrieben eine selbstständige GRI-konforme Berichterstattung zu ermöglichen.
Der Prozess zur Identifikation wesentlicher Nachhaltigkeitsaspekte und -indikatoren erfolgt mittels Erhebungs- und Auswertungsmethoden der qualitativen Sozialforschung in Form
von Workshops, betrieblichen Vorortanalysen und Experteninterviews.
Parallel dazu erfolgt eine umfassende Analyse der weinbaulichen Wertschöpfungskette in Form einer Internet- und Literaturrecherche. Diese umfasst vorrangig die ökologischen Nachhaltigkeitsaspekte als diejenigen Bestandteile weinbaulicher Tätigkeiten, die sich sowohl positiv als auch negativ auf die Umwelt auswirken können. Anschließend erfolgt die zentrale Priorisierung der identifizieren Handlungsfelder und Nachhaltigkeitsthemen durch die Stakeholder. Zur Visualisierung der bewerteten Handlungsfelder dient das Instrument der Wesentlichkeitsanalyse.
Auf dieser Basis erfolgt die Entwicklung eines Handlungsleitfadens zur Erstellung von Nachhaltigkeitsberichten in der Weinwirtschaft. Hiermit erlangen Weingüter die praktische Kompetenz ein eigenes Nachhaltigkeitsreporting anzugehen.
Im Rahmen der Arbeit wurde auch ein elektronisches Tool entwickelt, das den Betrieben die Möglichkeit eröffnet, betriebliche Umweltaspekte zu erfassen und zu bewerten. Gleichzeitig wird den Anwendern damit die Generierung eines überbetrieblichen Vergleichs der Umweltleistung ermöglicht (Benchmarking).
Eine weitere Forschungsfrage der vorliegenden Arbeit beschäftigt sich mit der Biodiversitätserfassung und -bewertung für Rebland. Hintergrund sind die bisher nur geringen Funde auf der durch das Bundesamt für Naturschutz festgelegten Kennartenlisten bzw. den HNV-Stichprobenflächen (High nature value farmland-Indikator) für Rebland.
Hierzu wurde mittels Geoinformationssystemen das Artenvorkommen in rheinland-pfälzischen Weinanbaugebieten analysiert und 30 Pflanzenarten als Indikatorarten für den Weinbau abgeleitet. Ergänzend wurden weinbergstypische, geschützte Tierarten als „Bonusarten“ identifiziert. Die Indikatorarten werden den Winzern als ein Instrument zur eigenständigen Erfassung der Biodiversität in den Weinbergen dienen und im Rahmen einer Nachhaltigkeitsberichterstattung herangezogen werden können.
Refractory dry-vibratable mixes, which consist of a mineral filling material and an organic or anorganic binder system, are widely used for linings in industrial aggregates, where a very high temperature resistance is required (e.g. steel industry). During lining, all compounds are mixed and hardening is chemically or thermally initiated. The time span required for hardening is of special relevance for the application of refractory dry-vibratable mixes. It should be long enough for adequate processability, but simultaneously avoid too long downtimes. Prediction or regulation of the hardening time, necessary for an ideal processing, is currently limited. One the one hand, this is a result of the lack of an appropriate method for time-dependent determination of the harding process. On the other hand, the mechanisms responsible for this very complex process have not yet been investigated in detail and the effect of influencing factors, like the temperature or the composition of the refractory dry-vibratable mixes, are poorly documented.
To make a contribution to the understanding of the hardening mechanism of refractory dry-vibratable mixes, it was the aim of the present work, to develop an appropriate test method for the time-dependent investigation of this process. This was realized by means of the dynamic-mechanical analysis. In addition, the hardening mechanism was described for a refractory dry-vibratable mix with a binder system, which consists of a waterglass and a phosphate hardener (AlPO4 und BPO4), using supplement gravimetric investigations and determining solubility behavior of the phosphates. By means of X-ray diffraction analysis, nuclear magnetic resonance spectroscopy and scanning electron microscopy, the impact of the hardening mechanism on the crystal and amorphous structure was studied. It could be shown, that according to the two phosphates, the hardening leads to different network structures in respect of their link denseness. These structure characteristics correlate with the speed of the hardening reactions. In addition, the impact on selected properties (thermal linear deformation, temperature-dependent phase development and phase transition) could be deducted.
Gegeben sei eine Basis b>=10 und eine Ziffer a0 aus der Menge {0,..., b − 1}. Wir untersuchen, ob es unendlich viele Primzahlen gibt, die in ihrer b-adischen Zifferndarstellung die Ziffer a0 nicht besitzen. Ferner schätzen wir die Anzahl dieser Primzahlen, die kleiner sind als X = b^k, nach oben und unten ab.
Damit gelingt uns eine Verallgemeinerung von Maynards Beweis für den Fall b = 10 und wir nutzen hierzu auch die in seiner Arbeit verwendeten Werkzeuge. Unter Anderem benötigen wir die Hardy-Littlewoodsche Kreismethode sowie diverse Siebmethoden, um die Minor Arcs zu kontrollieren.
Schließlich sehen wir, dass wir Maynard's Aussage vor allem dann auf beliebige Basen b>= 10 und ausgeschlossene Ziffern a0 aus {0, ..., b − 1} übertragen können, wenn zwei betragsmäßig größte Eigenwerte von Matrizen, die von b und a0 parametrisiert werden, bestimmte Abschätzungen erfüllen. Dass diese Abschätzungen im Fall b>=102 erfüllt sind, beweisen wir im letzten Kapitel. Für die Fälle b = 10 und b = 11 liegt ebenfalls ein Mathematica-Code vor, der die Abschätzungen bestätigt.
Groundwater is essential for the provision of drinking water in many areas around the world. The ecosystem services provided by groundwater-related organisms are crucial for the quality of groundwater-bearing aquifers. Therefore, if remediation of contaminated groundwater is necessary, the remediation method has to be carefully selected to avoid risk-risk trade-offs that might impact these valuable ecosystems. In the present thesis, the ecotoxicity of the in situ remediation agent Carbo-Iron (a composite of zero valent nano-iron and active carbon) was investigated, an estimation of its environmental risk was performed, and the risk and benefit of a groundwater remediation with Carbo-Iron were comprehensively analysed.
At the beginning of the work on the present thesis, a sound assessment of the environmental risks of nanomaterials was impeded by a lack of guidance documents, resulting in many uncertainties on selection of suitable test methods and a low comparability of test results from different studies with similar nanomaterials. The reasons for the low comparability were based on methodological aspects of the testing procedures before and during the toxicity testing. Therefore, decision trees were developed as a tool to systematically decide on ecotoxicity test procedures for nanomaterials. Potential effects of Carbo-Iron on embryonic, juvenile and adult life stages of zebrafish (Danio rerio) and the amphipod Hyalella azteca were investigated in acute and chronic tests. These tests were based on existing OECD and EPA test guidelines (OECD, 1992a, 2013a, 2013b; US EPA, 2000) to facilitate the use of the obtained effect data in the risk assessment. Additionally, the uptake of particles into the test organisms was investigated using microscopic methods. In zebrafish embryos, effects of Carbo-Iron on gene expression were investigated. The obtained ecotoxicity data were complemented by studies with the waterflea Daphnia magna, the algae Scenedesmus vacuolatus, larvae of the insect species Chironomus riparius and nitrifying soil microorganisms.
In the fish embryo test, no passage of Carbo-Iron particles into the perivitelline space or the embryo was observed. In D. rerio and H. azteca, Carbo-Iron was detected in the gut at the end of exposure, but no passage into the surrounding tissue was detected. Carbo-Iron had no significant effect on soil microorganisms and on survival and growth of fish. However, it had significant effects on the growth, feeding rate and reproduction of H. azteca and on survival and reproduction in D. magna. Additionally, the development rate of C. riparius and the cell volume of S. vacuolatus were negatively influenced.
A predicted no effect concentration of 0.1 mg/L was derived from the ecotoxicity studies based on the no-effect level determined in the reproduction test with D. magna and an assessment factor of 10. It was compared to measured and modelled environmental concentrations for Carbo-Iron after application to an aquifer contaminated with chlorohydrocarbons in a field study. Based on these concentrations, risk quotients were derived. Additionally, the overall environmental risk before and after Carbo-Iron application was assessed to verify whether the chances for a risk-risk trade-off by the remediation of the contaminated site could be minimized. With the data used in the present study, a reduced environmental risk was identified after the application of Carbo-Iron. Thus, the benefit of remediation with Carbo-Iron outweighs potential negative effects on the environment.
The dissertation examines the self-concept of Indian religious women in German care institutions. For the analysis, the method of grounded theory was selected from empirical social research. The investigation field interviewed 26 Indian religious women and 5 employers. The theoretical foundations of mission history were the standard of the missionary ministry, the expression of the German and Indian concept of care, the concept of culture in its structural conditionality of dimensions and models with reference to the organization "religious community".
The direct relation to the research question was served by the hierarchical self-concept model according to Shalveson and another model by Bracken, which was used to interpret the empirical results. In the five core categories and their subcategories, the main motive was "being a missionary". Indian religious women refer to themselves as "European missionaries" and want to bring the love of Christ to the sick, the needy and the elderly through their care and nursing work.
In order for the Indian religious women to be able to work even more optimally in their self-concept in Germany, it is advisable to develop a requirement profile, to consider certain framework conditions in advance and to design new models of life.
Sediment transport contributes to the movement of inorganic and organic material in rivers. The construction of a dam interrupts the continuity of this sediment transport through rivers, causing sediments to accumulate within the reservoir. Reservoirs can also act as carbon sinks and methane can be released when organic matter in the sediment is degraded under anoxic conditions. Reservoir sedimentation poses a great threat to the sustainability of reservoirs worldwide, and can emit the potent greenhouse gas methane into the atmosphere. Sediment management measures to rehabilitate silted reservoirs are required to achieve both better water quantity and quality, as well as to mitigate greenhouse gas emissions.
This thesis aims at the improvement of sediment sampling techniques to characterize sediment deposits as a basis for accurate and efficient water jet dredging and to monitor the dredging efficiency by measuring the sediment concentration. To achieve this, we investigated freeze coring as a method to sample (gas-bearing) sediment in situ. The freeze cores from three reservoirs obtained were scanned using a non-destructive X-Ray CT scan technique. This allows the determination of sediment stratification and character-ization of gas bubbles to quantify methane emissions and serve as a basis for the identi-fication of specific (i.e. contaminated) sediment layers to be dredged. The results demon-strate the capability of freeze coring as a method for the characterization of (gas-bearing) sediment and overcomes certain limitations of commonly used gravity cores. Even though the core’s structure showed coring disturbances related to the freezing process, the general core integrity seems to not have been disturbed. For dredging purposes, we analyzed the impact pressure distribution and spray pattern of submerged cavitating wa-ter jets and determined the effects of impinging distances and angles, pump pressures and spray angles. We used an adapted Pressure Measurement Sensing technique to enhance the spatial distribution, which proved to be a comparatively easy-to-use meas-urement method for an improved understanding of the governing factors on the erosional capacity of cavitating water jets. Based on this data, the multiple linear regression model can be used to predict the impact pressure distribution of those water jets to achieve higher dredging accuracy and efficiency. To determine the dredging operational efficien-cy, we developed a semi-continuous automated measurement device to measure the sediment concentration of the slurry. This simple and robust device has lower costs, compared to traditional and surrogate sediment concentration measurement technolo-gies, and can be monitored and controlled remotely under a wide range of concentrations and grain-sizes, unaffected by entrained gas bubbles
Computer modelling of human partial body structures is becoming increasingly important for medical application. This is an interdisciplinary field of research in which new methods can be developed through the cooperation of physics, mathematics, computer visualistics and medicine. These methods can be used to make more precise statements about the mechanical loads of internal force-transmitting structures, such as intervertebral discs, ligaments, joints and muscles, during motion sequences.
At the beginning of this work, the importance of the need for research in computer modeling, specialized in the area of the spine, is presented.
In the following, the basic anatomical structures will be discussed, including intervertebral discs, ligaments, facet joints and musculature.
Algorithms are then developed to create individual lumbar spine models from CT data in a short time and semi-automatically. Methods will be developed to model the presented force transmitting structures of the spine, such as the intervertebral discs, ligaments, facet joints and muscles.
In addition different imaging methods (MRT data, x-ray film, x-ray functional images) will be presented and validate the lumbar spine models.
Finally, the algorithms developed will be used to create a larger number of individual lumbar spine models, which will then be examined for similarities and differences with regard to internal loads as well as for physiologically correct movement sequences. In particular, the relative momentary center of rotation between two adjacent vertebrae is calculated.
While the existing literature on cooperative R&D projects between firms and public research institutes (PRI) has made valuable contributions by examining various factors and their influence on different outcome measures, there has been no investigation of cooperative R&D project success between firms and PRI from a product competitive advantage perspective. However, insights into the development of a meaningful and superior product (i.e., product competitive advantage) are particularly important in the context of cooperative R&D projects between PRI and (mainly small and medium-sized) firms in the biotechnology industry in response to increasing competition to raise capital funds necessary for survival.
The objectives of this thesis are: (1) to elaborate the theoretical foundations which explain the achievement of a product competitive advantage in cooperative R&D projects between biotechnology firms and PRI, (2) to identify and empirically evaluate the determining factors for achieving a product competitive advantage in cooperative R&D projects between biotechnology firms and PRI, and (3) to show how cooperative R&D projects between biotechnology firms and PRI should be designed and executed to support the achievement of a product competitive advantage.
To accomplish these objectives, a model of determinants of product competitive advantage in cooperative R&D projects between biotechnology firms and PRI is developed by drawing from the theoretical foundations of resource-based theory and information-processing theory. The model is evaluated using data from 517 questionnaires on cooperative R&D projects between at least one biotechnology firm and one PRI. The data are analyzed using variance-based structural equation modeling (i.e., PLS-SEM) in order to conduct hypotheses testing. The evaluation of the empirical data includes an additional mediation analysis and the comparison of effects in subsamples.
The results demonstrate the importance of available resources and skills, as well as the proficient execution of marketing-related and technical activities for the achievement of a product competitive advantage in cooperative R&D projects between biotechnology firms and PRI. By identifying project-related and process-related factors affecting product competitive advantage and empirically testing their relationships, the research findings should be valuable for both researchers and practitioners. After discussing contributions and implications for research and practice, the present thesis concludes with limitations and avenues for future research.
In the present dissertation, the structural interaction between potassium waterglass and aluminium metaphosphates (aluminium tetrametaphosphate and aluminium hexametaphosphate) were investigated in terms of the resettlement behaviour of the metaphosphates as hardening agents. The crystalline phase composition was described qualitatively and quantitatively in terms of powder diffraction patterns combined with Rietveld refinement. The amorphous phase content was determined by different spectroscopic methods (e.g. solid-state NMR, ATR-IR, and Raman spectroscopy). The solubility behaviour of the chemical hardening agents was investigated by optical emission spectroscopy and electron absorption spectroscopy. The mechanical properties of the samples were measured by three-point bending tests, resonance damping frequency analysis, and acid test. The structural framework of the chemically hardened waterglasses was explored by scanning electron microscopy method. It could be proven, that the reaction mechanism of the resettlement is strongly dependent on the structure of the aluminium metaphosphate. After the dissolution of the aluminium ions of aluminium tetrametaphosphate through the alkalic environment of the potassium waterglass, a potassium tetrametaphosphate is developed through an ion-exchange reaction with the waterglass` potassium ions. In the hexametaphosphate system, no analogous structure could be proven. Parallel to the ion-exchange reaction an incremental depolymerization of the cyclic metaphosphate structure to the final crystalline product potassium dihydrogen phosphate occurs. The drop in pH value due to the addition of the respective aluminium metaphosphate initiates a polycondensation of the potassium waterglass due to the decreasing stabilization of the waterglass. This process is increased by the depolymerization products of the metaphosphate, that remove further quantities of the alkali ions, which accelerates the polycondensation reaction due to a further decrease in pH value. The dissolved aluminium ions from the aluminium metaphosphate penetrate into the amorphous, hardening silica network and develops an alumosilicate binder matrix. Furthermore, amorphous hydrated aluminium phosphate phases develop in separate domains beside silicate, alumosilicate phases, and the crystalline phase contents e.g. potassium dihydrogenphosphate and the incomplete reacted aluminium metaphosphate. Consequently, the chemically hardened potassium waterglass binder is not necessarily homogenous. Regarding the mechanical and chemical properties, in summary with increasing alkali modulus the mechanical flexural strength, and the young modulus drop, while the chemical resistance towards acid attack, and the porosity of the samples increase. The change in the cyclic structure from aluminium tetrametaphosphate to aluminium hexametaphosphate leads to a drop in the acid resistance, the porosity of the samples, the flexural strength, and the young modulus.
Grapevine growers have struggled with defending their crops against pests and diseases since the domestication of grapevine over 6000 ears ago. Since then, new growing methods paired with a better nderstanding of the ecological processes in the vineyard ecosystem continue to improve quality and quantity of grape harvests. In this thesis I am describing the effects of two recent innovations in viticulture on pest and beneficial arthropods in vineyards; Fungus-resistant grapevine cultivars (PIWIs) and the pruning system semi-minimal pruned hedge (SMPH). The SMPH pruning system allows for a drastic reduction of manual labor in the vineyard, and PIWIs are resistant to two of the most common fungal diseases of grapevine and therefore allow a drastic reduction of fungicide applications compared to conventional varieties. Heavy use of pesticides is linked to a number of problems, including pollution of waterways, negative effects on human health, and biodiversity loss. Here, I studied the effects of fungicide reduction and minimal pruning on arthropods that are beneficial for natural pest suppression in the vineyard ecosystem such as predatory mites, spiders, ants, earwigs, and lacewings. All of these groups either benefitted from the reduction of fungicide sprayings or were not significantly affected. Structural changes in the canopy of SMPH grapevines altered the microclimate in the canopy which in turn influenced some of the arthropods living in it. Overall, my findings suggest that PIWIs and SMPH, both in combination or separately, improve conditions for natural pest control. This adds to other advantages of these innovative management practices such as a reduction in production cost and a smaller impact on the environment.