Refine
Year of publication
- 2014 (24) (remove)
Document Type
- Doctoral Thesis (24) (remove)
Keywords
- Pestizid (2)
- Pflanzenschutzmittel (2)
- monitoring (2)
- Abdrift (1)
- Annotation (1)
- Anpassung (1)
- Araneae (1)
- Augenbewegung (1)
- Auslese (1)
- Auswahl (1)
Institute
- Fachbereich 7 (8)
- Fachbereich 5 (3)
- Institut für Informatik (3)
- Fachbereich 8 (2)
- Institut für Erziehungswissenschaft (2)
- Institute for Web Science and Technologies (2)
- Fachbereich 6 (1)
- Institut für Anglistik und Amerikanistik (1)
- Institut für Computervisualistik (1)
- Institut für Grundschulpädagogik (1)
- Institut für Integrierte Naturwissenschaften, Abt. Geographie (1)
- Institut für Kunstwissenschaft und Bildende Kunst (1)
- Institut für Pädagogik, Abteilung Schulpädagogik/Allgemeine Didaktik (1)
- Institut für Wirtschafts- und Verwaltungsinformatik (1)
Larvae of Cx.pipiens coocurred with Cladocera, but the latter established delayed in time. Biotope structure influenced time of species occurrence with ponds at reed-covered wetlands favouring crustacean development, while ponds at grassland biotopes favoured colonization by mosquito larvae. The mechanisms driving the negative effect of crustaceans on mosquito larvae were investigated within an experiment under artificial conditions. Crustacean communities were found to reduce both oviposition and larval development of Cx.pipiens. Crustacean communities of high taxa diversity, including both predatory and competing crustaceans, were more effective compared with crustacean communities dominated by single taxa. Presence of crustacean communities characterised by high taxa diversity increased the sensitivity of Cx.pipiens larvae towards Bti and prolonged the time of recolonization. In a final step the combined approach, using Bti and crustaceans, was evaluated under field conditions. The joint application of Bti and crustaceans was found to reduce mosquito larval populations over the whole observation period, while single application of Bti caused only short-term reduction of mosquito larvae. Single application of crustaceans had no significant effect, because high abundances of prior established mosquito larvae impeded propagation of crustaceans. At combined treatment, mosquito larvae were reduced by Bti application and hence crustaceans were able to proliferate without disturbance by interspecific competition. In conclusion, natural competitors were found to have a strong negative impact on mosquito larval populations. However, a time span of about 2 weeks has to be bridged, before crustacean communities reached a level sufficient for mosquito control. Results of a combined approach, complementing the short-term effect of the biological insecticide Bti with the long-term effect of crustaceans, were promising. Using natural competitors within an integrated control strategy could be an important tool for an effective, environmentally friendly and sustainable mosquito management.
Mathematical Modelling of GIS Tailored GUI Design with the Application of Spatial Fuzzy Logic
(2014)
This PhD thesis is situated within the framework of the Research-Group Learning and Neurosciences (ReGLaN)-Health and Logistics project. The goal of this project is the optimisation of health service delivery in the rural areas of South Africa. Cooperation takes place between ReGLaN-Health and Logistics and the South African Council for Scientific and Industrial Research (CSIR) Meraka Institute, with Prof Dr Dr Marlien Herselman of Pretoria, South Africa, as the central contact person. This thesis deals with the mathematical modelling of Geographic Information System (GIS)-tailoredrnGraphical User Interface (GUI) design with the application of spatial fuzzy logic. This thesis considers the mathematical visualisation of risk and resource maps for epidemiological issues using GIS and adaptive GUI design for an Open Source (OS) application for digital devices. The intention ofrnthis thesis is to provide spatial decision support tailored to different user groups. In order for the GUI elements to be evaluated and initialised, empirical teaching-learning-research on dealing with geomedia and GUI elements was conducted.
Diese Studie leistet einen Beitrag zur Weiterentwicklung der Nachrichtenwerttheorie. Hierzu wird das Konzept der Fotonachrichtenfaktoren zunächst theoretisch aufgearbeitet und seine Plausibilität anhand verschiedener Teilbereiche der Journalismusforschung dargelegt. Darauf aufbauend wird es im Rahmen einer Inhaltsanalyse eingesetzt, die die Prüfung des erweiterten Modells der Nachrichtenwerttheorie ermöglicht. Dieses Modell geht von einem gemeinsamen Einfluss der textbasierten Nachrichtenfaktoren und der Fotonachrichtenfaktoren auf den Nachrichtenwert bzw. die journalistische Beachtung eines Beitrags aus. Ergänzend werden die Fotonachrichtenfaktoren zur Bildung von Fototypen herangezogen. Die Analysen werden am Beispiel der Kriegs- und Krisenberichterstattung deutscher Tageszeitungen durchgeführt. Dieser Themenbereich des Journalismus genießt viel Aufmerksamkeit sowohl bei Medienrezipienten als auch bei Kommunikationswissenschaftlern. Die Ergebnisse der Studie unterstützen die Grundidee der Fotonachrichtenfaktoren: Sie können, ähnlich wie die textbasierten Nachrichtenfaktoren, zu übergeordneten Bündeln zusammengefasst werden. Diese Bündel zeigen Einflüsse auf die formale Gestaltung der Fotos und können gemeinsam mit den Textnachrichtenfaktoren teilweise die journalistische Beachtung des Artikels erklären. Darüber hinaus ist die gewählte Operationalisierung der Fotonachrichtenfaktoren geeignet, Fototypen bzw. zentrale Motive der visuellen Kriegsberichterstattung deutscher Tageszeitungen zu identifizieren. Die Ergebnisse dieser Studie liefern Ausgangspunkte für weitere Fragestellungen zum Zusammenwirken der Text- und Fotonachrichtenfaktoren, der Anwendung der Zwei-Komponenten-Theorie und der Wirkung von typischen Bildmotiven.
The transport of pesticides from agricultural land into surface waters via diffuse entry pathways such as runoff is a major threat to aquatic ecosystems and their communities. Although certain risk mitigation measures are currently stipulated during pesticide product authorisation, further approaches might be needed to manage hot spots of pesticide exposure. Such a management is, for example, required by the European Union- directive for the sustainable use pesticides (2009/128/EC).
The need for mitigation measures was investigated within the present thesis at stream sites draining an arable and a vineyard region in Germany by characterising pesticide exposure following edge-of-field runoff and (expected) effects on the aquatic macroinvertebrates. The results of these field studies showed, that streams in both regions were exposed to pesticide concentrations suggesting effects on the macroinvertebrate community. In the arable region the observed toxicity was mainly attributed to the insecticides lambda-cyhalothrin (in the water-phase samples) and alpha-cypermethrin (in the suspended particle samples), whereas in the vineyard region fungicides were most important. Furthermore stream water and suspended particles sampled in the vineyard region showed critical copper concentrations, which might cause ecotoxicological effects in the field. In addition to pesticide exposure, in the arable region also the effects on aquatic macroinvertebrates were assessed in the field. Generally, invertebrate fauna was dominated by pesticide-tolerant species, which suggested a high pesticide exposure at almost all sites. The elevated levels of suspended particle contamination in terms of maximum toxic units per sample (logTUMax > -2) reflect also this result. At two sites that received high aqueous-phase entries of the insecticide lambda-cyhalothrin (logTUMax > -0.6), the abundance and number of sensitive species (indicated by the SPEcies At Risk index) decreased during the pesticide application period. In contrast, at sites characterised by low water-phase toxicity (logTUMax < -3.5), no acute significant negative effects on macroinvertebrates were observed. In conclusion these data showed that in both regions the implementation of risk mitigation measures is needed to protect the aquatic communities.
To mitigate runoff-related pesticide entries, riparian buffer strips are often recommended. However, the mitigating influence with increasing buffer strip width could not be demonstrated for riparian buffers which were already present in the arable and vineyard region. This result was attributed in the vineyard region to the high number of paved field paths associated with artificial erosion rills, which concentrate and rapidly transport receiving edge-of-field runoff in stream direction. Consequently the pesticide reduction efficiency of buffer strips is considerably reduced. We assumed that a similar process occurred in the arable region, due to a high number of erosion rills, which complicate a laminar sheet flow of edge-of-field runoff through the riparian buffer strip. Additionally also the presence of ephemeral drainage ditches, which led surface runoff from the agricultural fields to the streams may have contributed to observed pesticide entries despite wide buffers.
Effective risk mitigation measures should address these identified most important input pathways in the study areas. As possible measures the implementation of grassed field paths and vegetated ditches or wetlands were suggested. In general also the improvement of currently present riparian buffer strips regarding their efficiency to reduce pesticide runoff entries should be taken into account. In conclusion the results of the field studies underline the importance that risk mitigation measures are identified specifically for the respective pollution situation in stream catchments. To facilitate this process, a user guide was developed within the present thesis for identifying appropriate mitigation measures at high-risk sites. Based on a survey of exposure relevant landscape parameter a set of risk mitigation measures is suggested that focus on the specific pollution situation. Currently the guide includes 12 landscape- and six application-related measures and presents an overview of these measures" efficiency to reduce pesticide entries via runoff and spray drift, their feasibility and expected acceptability to farmers. Based on this information the user can finally choose the mitigation measures for implementation. The present guide promotes the practical implementation of appropriate risk mitigation measures in pesticide-polluted streams, and thus the protection of aquatic stream communities against pesticide entries.