Global ETD Search

1	Etudes expérimentales et numériques de la dynamique des vagues et leurs implications pour les échanges océan - atmosphère. / Directional Measurements of the Kinematics and Dynamics of Surface Waves and the Implications to Ocean-Atmosphere Interaction Processes Lenain, Luc 11 September 2017 (has links) Au cours des dernières décennies, les communautés de recherches océanographiques et atmosphérique ont démontrées que pour améliorer notre compréhension du couplage entre l'atmosphère et l'océan, et le paramétrage du flux de masse entre l'océan et l'atmosphère (gaz, aérosols, par exemple) , de moment (pour la génération de vagues et de courants marins) et d'énergie (flux de chaleur et énergie cinétique pour les courants et le processus de mélange près de la surface ) dans les modèles couplés océan-atmosphère, les vagues doivent être prises en compte. La physique du couplage dépend de la cinématique et de la dynamique du champ de vagues, y compris les processus de génération de vagues liées au vent, les interactions non-linéaires, ondes-ondes et la dissipation des vagues, cette dernière étant normalement considérée comme dominée par le déferlement. Nous présentons ici une série d'études expérimentales et numériques, démontrant l'importance du champ de vagues sur les interactions océan - atmosphère. / Over the last several decades there has been growing recognition from both the traditional oceanographic and atmospheric science communities that to better understand the coupling between the atmosphere and the ocean, and reflect that understanding in improved air-sea fluxes of mass (e.g. gases, aerosols), momentum (e.g. generation of waves and currents) and energy (e.g. heat and kinetic energy for currents and mixing) in coupled ocean-atmosphere models, surface-wave processes must be taken into account. The underlying physics of the coupling depends on the kinematics and dynamics of the wave field, including processes of wind-wave growth, nonlinear wave-wave interactions, wave-current interactions and wave dissipation, with the last normally considered dominated by wave breaking. Here we present a series of experiments, both numerical and field observations, focusing on surface wave effects on air-sea interaction processes. Deferlement Échanges océan - atmosphère Hydrodynamique Ocean Aerosol marin Gerris Breaking wave Hydrodynamic Sea spray Marine aerosol Air-Sea interaction Gerris
2	Drop impact on solid : splashing transition and effect of the surrounding gas / Impact de goutte sur solide : la transition vers le splashing et l'effet du gaz environnant Jian, Zhen 16 June 2014 (has links) Cette thèse porte sur la formation du splash lors de l'impact de gouttes sur substrat solide. Alors que l'influence du gaz environnant a souvent été négligé par le passé, des expériences récentes ont montré que la pression du gaz pouvait contrôler la formation du splash lors de l'impact. Dans cette thèse la formation du splash est étudiée lorsque deux paramètres du gaz varient: la densité et la viscosité dynamique, paramètres par leur rapport aux propriétés du liquide. Deux mécanismes de splash sont identifiés: le splash-jet lorsqu'un jet est formé avant le contact de la goutte avec le solide, le splash-détachement lorsque le splash se forme après le contact liquide-solide. Un diagramme de phase entre ces différents mécanismes est obtenu en fonction des paramètres du gaz. L'influence d'autres paramètres, en particulier l'angle de contact est également étudiée. Finalement, le cas de l'impact d'une goutte sur un liquide très visqueux est étudié à la fois théoriquement, numériquement et expérimentalement. Une méthode numérique originale a été développée afin de prendre en compte la frontière entre les deux liquides et le solide et la comparaison avec des expériences réalisées au laboratoire est très prometteuse. Suivant la valeur de la viscosité du liquide impacté, l'impact se comporte comme dans le cas d'un impact sur surface solide. / A splash is observed under certain conditions as drop impacts on solid. Gas has been generally neglected in the splashing mechanism because of the large liquid/gas density and viscosity ratio. However, experiments demonstrated recently a genuine role of the surrounding gas. Under incompressible assumption, this thesis aims to understand the gas effect in the splashing mechanism using both analytical and numerical methods. By changing the gas density or viscosity, two mechanisms of splashing are identified: ''jet-splash'' and ''detachment-splash''. Curved transition frontiers between outcomes in function of the density and viscosity ratio are found. Both gas inertial and viscous effects are crucial in the splashing formation. The creation and lift-up of the ejecta (the small jet for a jet-splash and the thin liquid sheet for a detachment-splash) is the origin of splash and an aerodynamic force makes the lift-up occur. The contact angle can influence the impact outcome, since a hydrophilic contact angle can eliminate a splash while a hydrophobic contact angle promotes the splash. Finally, drop impact on highly-viscous liquid is investigated. A theoretical model is proposed to deal with the triple-phase dynamics in the numerics. By increasing the viscosity of the liquid basin, dynamics varies from a ''wave-like regime'' to a ''solidification regime''. Experiments of an ethanol drop impacting on a highly-viscous liquid (honey) basin are executed. The basin performed as a solid and the complete suppression of splashing by decreasing the gas pressure is observed. Drop shapes predicted by simulations agree with the experiments. Impact de goutte Transition vers le splashing Gaz environnant Mécanisme aérodynamique Volume-of-fluid Gerris Drop impacts Splashing mechanism 530.4
3	Vliv vybraných abiotických faktorů na křídelní polymorfismus hladinatky pobřežní (Microvelia reticulata Burmeister, 1835) / Effect of selected abiotic factors on wing polymorphism of semiaquatic bug Microvelia reticulata Burmeister, 1835. ČERMÁKOVÁ, Táňa January 2010 (has links) Wing polymorphism of semiaquatic bugs is affected by environmental factors as temperature, photoperiod, population density or permanency of habitat. The heritability has its own specific part, too. A lot of field studies suggest that crucial effect on wing polymorphism has temperature, but laboratory experiments often do not confirm this hypothesis. The main aim of this thesis was to describe the effect of environmental factors (photoperiod, temperature and permanency of habitat) on wing polymorphism of Microvelia reticulata, additionally of Gerris lacustris. The partial tasks included description of effect of mentioned abiotic factors on mortality and rate of development. The individuals of both species were kept at combinations of two levels of temperature, photoperiod and permanency of habitat (overall at eight treatments) from first larval instar to adult. All adults of Microvelia reticulata emerged as apterous, so there was no response of wing polymorphism to tested environmental factors. The main influence of heritability is presumable. Only ten individuals of G. lacustris developed into the adult stage, so it was impossible to describe the influence of abiotic factors on wing polymorphism, mortality and lenght of development in this species. Mortality of individuals of M. reticulata was significantly influenced by the type of substrate. Only 3.5% of individuals survived when reared on wet filter paper, while 80.5% on the water surface. Both other factors (temperature, photoperiod) had no effect on total mortality. There was no difference between mortality of males and females, so it is impossible to note sexual dependent mortality. The lenght of development did not differ between sexes either. Lenght of development was significantly affected by temperature, as low temperature reduces development of M. reticulata. The fastest development showed nymphs of second instar and slowest development nymphs of fifth instar at all treatments. Since the effect of abiotic factors on wing polymorphism was not found in M. reticulata, it would be sufficient to study the effect of heritability on development of wings in this species in the future.
4	Hox genes and the evolution of adaptive phenotypes / Les gènes Hox et l'évolution des phénotypes adaptatives Nagui Refki Khalil, Peter 09 December 2014 (has links) Les populations sont soumises à des pressions sélectives qui agissent sur certains traits entraînant une divergence phénotypique. L'évolution des morphologies adaptatives est souvent liée avec des changements de structures préexistantes. Les insectes semi-Aquatiques ont subi une croissance de pattes exagérée qui est associée à leur adaptation et locomotion efficace à la surface de l'eau. Cette croissance excessive a facilitée l'exploitation de l'habitat aquatique restreint pour les espèces terrestres apparentées. En outre, le groupe dérivé des gerris a subi des modifications supplémentaires au niveau des pattes, de sorte que la deuxième patte (P2) est plus longue que la troisième patte (P3). Ce plan d'organisation inversé par rapport à celui des espèces terrestres, est associé à la spécialisation pour une vie sur l'eau. Les gerris ont acquis un mode de locomotion dérivée qui consiste à ramer par des mouvements simultanés de leurs P2 et des mouvements plus subtils de leurs P3 pour s'orienter. La structure et la croissance des pattes des insectes semi-Aquatiques sont réalisées durant l'embryogenèse. En effet, la nymphe qui éclot possède des pattes fonctionnelles. Il a été démontré que le facteur de transcription Hox, Ubx, est impliqué dans cette inversion du plan des pattes. Cependant, les mécanismes génétiques responsables de ces adaptations restent toujours obscurs. La thèse présentée examine ces questions à travers deux axes : premièrement, déterminer les gènes et les voies de signalisation responsables du développement et de la croissance remarquable des pattes ; deuxièmement, étudier le rôle du gène Hox impliqué dans l'inversion du plan des pattes caractéristique des gerris / Populations are faced with selective pressures that act on certain traits resulting in phenotypic divergence. The evolution of adaptive morphological traits is often associated with changes in pre-Existing structures. In semiaquatic insects, a dramatic growth of thoracic appendages is associated with their adaptation and efficient locomotion on the water surface. This particular leg allometry facilitated the exploitation of aquatic habitats, a restricted niche for their terrestrial relatives; and hence opens a new array of ecological opportunities. Additionally, the derived group of water striders has undergone further appendage modification, such that T2-Legs are longer than T3-Legs, a ground plan associated with the specialization to open water. Water striders have evolved a derived mode of locomotion through rowing on water. They move their mid-Legs in simultaneous sweeping strokes for propulsion, and move their hind-Legs in fine movements for orientation. Leg specification and elongation in semiaquatic insects happens during early embryogenesis as the newly hatching nymphs emerge with functional legs. The Hox transcription factor Ubx was found to be implicated in the reversal in leg ground plan. Nonetheless, the genetic mechanisms underlying these leg adaptive changes are still poorly understood. The presented thesis investigates these questions through two main goals: first, to uncover the genes and pathways implicated in the development and dramatic elongation of the legs; second, to examine the dynamics of Hox control responsible for the reversal in leg ground plan characteristic of water striders Gènes Hox Adaptation Allométrie Evolution morphologique Ubx Gerris Hox genes Adaptation Allometry Morphological evolution Ubx Water striders 571.8
5	Model Studies of Slag Metal Entrainment in Gas Stirred Ladles Senguttuvan, Anand January 2016 (has links) In gas stirred steelmaking ladles, entrainment of slag into metal and vice versa takes place. The slag entrainment has been shown to abruptly increase the mass transfer rates of refining reactions through high temperature and water modeling studies of the past. However such an effect has not been correlated with the degree of entrainment, since the latter has not been quantified in terms of operating parameters like gas injection rate and fluid properties. Much of the past works are limited to finding the critical conditions for onset of entrainment. The difficulty lies in measuring the degree of entrainment in industrial ladles or even in a water model. Mathematical modeling is also challenging due to the complexity of the multiphase phenomena. So in this thesis, a modular mathematical modeling approach is presented wherein the phenomena of slag entrainment into metal is resolved into four aspects, models developed for each and finally integrated to study its role. The individual models are (1) multiphase large eddy simulations to simulate slag entrainment in a narrow domain that receives its boundary conditions from (2) single phase RANS simulation of a full ladle, (3) a Lagrangian particle tracking method to compute the residence times of slag droplets in metal phase and (4) a kinetic model that integrates the above three models to compute mass transfer rate as a function of degree of entrainment. Mass transfer rate predictions comparable to a literature correlation were obtained. This supports the modeling approach and also the assessment of role of various system parameters on entrainment characteristics. In essence, the present work shows a systematic approach to model and study the complex multiphase phenomena. / Thesis / Doctor of Philosophy (PhD) / The entrainment of liquid slag into liquid steel in gas stirred-steelmaking ladles is known to increase the rate of refining drastically. However, there is lack of correlation between degree of entrainment and ladle operating conditions, which this thesis addresses through mathematical modeling. Slag metal entrainment secondary steelmaking Large Eddy Simulation Synthetic Eddy Method Gerris Flow Solver RANS turbulence model
6	Sexual selection and intersexual conflicts in water striders Arnqvist, Göran January 1992 (has links) <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1992, härtill 8 uppsatser</p> / digitalisering@umu Sexual selection mating behaviour parasitism sperm competition mate guarding sexual dimorphism natural selection sexual conflicts water striders Heteroptera Gerridae Gerris Scelionidae Trypanosomatidae Skinnbaggar Etologi
7	Drop impact splashing and air entrapment Thoraval, Marie-Jean 03 1900 (has links) Drop impact is a canonical problem in fluid mechanics, with numerous applications in industrial as well as natural phenomena. The extremely simple initial configuration of the experiment can produce a very large variety of fast and complex dynamics. Scientific progress was made in parallel with major improvements in imaging and computational technologies. Most recently, high-speed imaging video cameras have opened the exploration of new phenomena occurring at the micro-second scale, and parallel computing allowed realistic direct numerical simulations of drop impacts. We combine these tools to bring a new understanding of two fundamental aspects of drop impacts: splashing and air entrapment. The early dynamics of a drop impacting on a liquid pool at high velocity produces an ejecta sheet, emerging horizontally in the neck between the drop and the pool. We show how the interaction of this thin liquid sheet with the air, the drop or the pool, can produce micro-droplets and bubble rings. Then we detail how the breakup of the air film stretched between the drop and the pool for lower impact velocities can produce a myriad of micro-bubbles. Drop Impact Bubble Entrapment Vortex Street Gerris Splashing Film Breakup ejecta sheet slingshot mechanism bubble ring air toroid liquid toroid VOF vortex shedding air entrapment Mesler entrainment
8	The Role of Juvenile Hormone and Ecdysone in Wing Morph Determination in the Wing Polyphenic Water Strider, Gerris buenoi Nielsen, Kevin January 2021 (has links) In this laboratory study, the role of juvenile hormone (JH) and ecdysone in regulating wing polyphenism was investigated in the non-model organism Gerris buenoi. Topical application of the JH analog methoprene elicited reduced pronotum, wing defects, and nymphal-adult intermediates but no changes to wing morph. Similarly, while microinjection of the ecdysone derivative 20-hydroxyecdysone (20E) elicited aberrant phenotypes there was again no influence on the wing morph. Using data from a transcriptomics experiment, RNAi knockdown of the differentially expressed 20E induced receptor gene, Hr4, caused high mortality rates (> 90 %) which resulted in a sample size too small to draw any inferences of Hr4’s involvement in G. buenoi wing polyphenism. My results indicate that both JH and ecdysone are involved in several developmental processes including wing development, but they do not seem to be important for determining wing polyphenism. However, several factors are important to consider in future research which means that the potential role of JH and ecdysone in G. buenoi wing polyphenism should not be dismissed at this stage. Wing polyphenism Phenotypic plasticity Water striders Gerris buenoi Ecdysone Juvenile hormone RNAi Biological Sciences Biologiska vetenskaper Biochemistry and Molecular Biology Biokemi och molekylärbiologi Genetics Genetik
9	Developing a protocol for RT-qPCR of wing-tissue gene expression and investigating the dynamics of photoperiodically induced polyphenism in the water strider Gerris buenoi Andersson, Elin January 2023 (has links) Wing polyphenism in insects is a type of phenotypic plasticity where environmental factors trigger the development of a set of discrete wing morphologies. In the water strider Gerris buenoi, photoperiods are the main environmental cue that trigger wing morph determination. The genetic mechanisms connecting environmental cues and the determination of wing morph in G. buenoi are not clear. However, recent experimental work suggests that engagement of the Hippo pathway via ecdysone signalling is a promising model for further investigation. In this study, a reverse-transcription quantitative PCR (RT-qPCR) protocol was developed, aimed at elucidating this potential transduction pathway by quantifying gene expression of Fat, Dachsous, Yorkie, EcR, E75 and E74. This was done using melt curve analysis, gel electrophoresis, sequencing of RT-qPCR products and qPCR standard curves. Additionally, wing morph distribution in extreme and intermediate photoperiods were examined. Wing morph proportions were significantly different between adults emerging in the intermediate photoperiods 15.30:8.30 and 15:9 (hours light : hours dark). An effect of sex was observed, with a higher probability of males becoming long-winged compared to females. This has likely evolved as a result of a dispersal-reproduction trade-off. Taken together, this study provided insight for future investigations of periodically induced wing morph determination and its genetic mechanisms in G. buenoi that will contribute to the understanding of phenotypic plasticity. wing polyphenism polyphenism phenotypic plasticity RT-qPCR water strider Gerris buenoi Natural Sciences Naturvetenskap Biological Sciences Biologiska vetenskaper Biochemistry and Molecular Biology Biokemi och molekylärbiologi Ecology Ekologi Genetics Genetik Evolutionary Biology Evolutionsbiologi Cell Biology Cellbiologi

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