• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 4
  • Tagged with
  • 4
  • 4
  • 4
  • 3
  • 3
  • 3
  • 3
  • 3
  • 3
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Effects of curvature on epithelial tissue - Coordinated rotational movement and other spatiotemporal arrangements

Happel, L., Wenzel, D., Voigt, A. 16 May 2024 (has links)
Coordinated movements of epithelial tissue are linked with active matter processes. We here consider the influence of curvature on the spatiotemporal arrangements and the shapes of the cells. The cells are represented by a multiphase field model which is defined on the surface of a sphere. Besides the classical solid and liquid phases, which depend on the curvature of the sphere, on mechanical properties of the cells and the strength of activity, we identify a phase of global rotation. This rotation provides a coordinated cellular movement which can be linked to tissue morphogenesis. This investigation on a sphere is a first step to investigate the delicate interplay between topological constraints, geometric properties and collective motion. Besides the rotational state we also analyse positional defects, identify global nematic order and study the associated orientational defects.
2

Modelling evaporation with local, regional and global BROOK90 frameworks: importance of parameterization and forcing

Vorobevskii, Ivan, Luong, Thi Thanh, Kronenberg, Rico, Grünwald, Thomas, Bernhofer, Christian 19 April 2024 (has links)
Evaporation plays an important role in the water balance on a different spatial scale. However, its direct and indirect measurements are globally scarce and accurate estimations are a challenging task. Thus the correct process approximation in modelling of the terrestrial evaporation plays a crucial part. A physically based 1D lumped soil–plant–atmosphere model (BROOK90) is applied to study the role of parameter selection and meteorological input for modelled evaporation on the point scale. Then, with the integration of the model into global, regional and local frameworks, we made cross-combinations out of their parameterization and forcing schemes to show and analyse their roles in the estimations of the evaporation. Five sites with different land uses (grassland, cropland, deciduous broadleaf forest, two evergreen needleleaf forests) located in Saxony, Germany, were selected for the study. All tested combinations showed a good agreement with FLUXNET measurements (Kling–Gupta efficiency, KGE, values 0.35–0.80 for a daily scale). For most of the sites, the best results were found for the calibrated model with in situ meteorological input data, while the worst was observed for the global setup. The setups' performance in the vegetation period was much higher than for the winter period. Among the tested setups, the model parameterization showed higher spread in performance than meteorological forcings for fields and evergreen forests sites, while the opposite was noticed in deciduous forests. Analysis of the of evaporation components revealed that transpiration dominates (up to 65 %–75 %) in the vegetation period, while interception (in forests) and soil/snow evaporation (in fields) prevail in the winter months. Finally, it was found that different parameter sets impact model performance and redistribution of evaporation components throughout the whole year, while the influence of meteorological forcing was evident only in summer months.
3

Dengue disease in Malaysia

Cheong, Yoon Ling 29 April 2015 (has links)
Der Klimawandel hat weitreichende Folgen auf die Gesundheit der Menschen. Insbesondere Übertragungskrankheiten wie Dengue bekommen global gesehen eine zunehmende Bedeutung. Über die raumzeitliche Verteilung und das Umwelt-Dengue Risiko ist bisher wenig bekannt. Das Hauptziel dieser Dissertation war es daher, die Ätiologie von Dengue in einem hoch endemischen Gebiet besser zu verstehen. Es wurden räumliche Muster des Krankheitsauftretens untersucht, die anschließend in einer Umwelt-Risiko Analyse mit örtlichen Wetterdaten und Landnutzungsinformationen in Zusammenhang gebracht wurden. Zunächst wurde ein raumzeitlicher Ansatz durchgeführt, um herauszufinden, in wie weit Analysen, die verschiedene Aggregationsebenen miteinander kombinieren, zu neuen Erkenntnissen von raumzeitlichen Mustern von Dengue beitragen können. Anschließend wurde ein auf nicht-lineare zeitliche Einflüsse kontrolliertes, Poisson-generalisiertes additives Regressionsmodell genutzt, um herauszufinden, welchen Einfluss Wetterparameter auf die Verbreitung von Dengue haben. Schließlich wurden Boosted regression trees verwendet, um auf nicht-lineare Zusammenhänge und Interaktionen zwischen einzelnen Landnutzungsfaktoren und Dengue zu kontrollieren und um eine Risikokarte zu erstellen. Die Ergebnisse deuten darauf hin, dass mehr als eine geographische Ebene notwendig ist, um Krankheitscluster zu bestätigen. Minimaltemperatur, Regenmenge, und Windgeschwindigkeit waren mit der Verbreitung von Dengue im Untersuchungsgebiet assoziiert. Räumliche Dengue-Muster konnten durch Siedlungen, Wasser, gemischte Landwirtschaftsflächen, offene Flächen und stillgelegte Grünflächen erklärt werden. Dengue-Risiko ist auf der Ergebniskarte des Studiengebietes ersichtlich. Diese Dissertation liefert sowohl wertvolle Informationen für die Gesundheitspolitik in Malaysia als auch wichtige Herangehensweisen für die Entwicklung von Dengue-Kontrollmechanismen in und über die Untersuchungsregion hinaus. / Global changes to our earth system have impacts on human health; specifically vector-borne diseases such as dengue are of epidemiological importance. Dengue is a global disease burden. Little is known about the spatio-temporal distribution and environmental risk association of dengue disease. The main goal of this dissertation was to improve understanding of the etiology of dengue disease in a highly endemic region by focusing on, initially, vulnerability mapping of the disease occurrences and, next, environmental risk assessment between disease clusters and both weather and land use. First, a Spatio-temporal scan statistics approach was used to assess to what extent analyses that combine sub-district and address level data contribute to new insights into spatio-temporal dengue disease patterns to better inform health interventions. Second, a Poisson generalized additive model was used to assess the weather effects on dengue disease accounting for non-linear temporal effects. Third, a Boosted regression trees approach was used to account for nonlinearities and interactions between the land use factors and dengue disease and to generate a risk map. Results suggested that more than one geographical level was needed to confirm the disease clusters. Minimum temperature, rainfall and wind speed, were associated with the dengue cases in the study area. Spatial patterns of dengue cases could be explained by land use types, including human settlements, water bodies, mixed horticulture land, open land and neglected grassland. The predicted risk map depicted dengue risk in the study area. This dissertation provided compelling approaches that are highly valuable for dengue vector control policy advice; applicability is not confined to Malaysia but is transferable to other studies in similar settings.
4

Using soil erosion as an indicator for integrated water resources management: a case study of Ruiru drinking water reservoir, Kenya

Kamamia, Ann W., Vogel, Cordula, Mwangi, Hosea M., Feger, Karl-Heinz, Sang, Joseph, Julich, Stefan 26 February 2024 (has links)
Functions and services provided by soils play an important role for numerous sustainable development goals involving mainly food supply and environmental health. In many regions of the Earth, water erosion is a major threat to soil functions and is mostly related to land-use change or poor agricultural management. Selecting proper soil management practices requires site-specific indicators such as water erosion, which follow a spatio-temporal variation. The aim of this study was to develop monthly soil erosion risk maps for the data-scarce catchment of Ruiru drinking water reservoir located in Kenya. Therefore, the Revised Universal Soil Loss Equation complemented with the cubist–kriging interpolation method was applied. The erodibility map created with digital soil mapping methods (R2 = 0.63) revealed that 46% of the soils in the catchment have medium to high erodibility. The monthly erosion rates showed two distinct potential peaks of soil loss over the course of the year, which are consistent with the bimodal rainy season experienced in central Kenya. A higher soil loss of 2.24 t/ha was estimated for long rains (March–May) as compared to 1.68 t/ha for short rains (October–December). Bare land and cropland are the major contributors to soil loss. Furthermore, spatial maps reveal that areas around the indigenous forest on the western and southern parts of the catchment have the highest erosion risk. These detected erosion risks give the potential to develop efficient and timely soil management strategies, thus allowing continued multi-functional use of land within the soil–food–water nexus.

Page generated in 0.0603 seconds