Precipitation variability of streamflow fraction in West Central Florida

Scott, Michael H

01 June 2006

There is a strong interest to develop a method to estimate mean annual ungaged streamflow with varying precipitation. A method was developed utilizing GIS and other statistical analysis to estimate ungaged mean annual streamflow. This method utilizes a normalized streamflow fraction (NSF) method previously developed which relies on drainage basin area, coupled with mean annual local precipitation, to estimate the ungaged streamflow variability. This method has been applied to west central Florida.The test of the method yielded an R squared value of 0.9894, proceeded by a verification that yielded an R squared value of 0.998. This method is believed to be generally applicable to other areas and the particular results should be useful in and around west central Florida and perhaps, other coastal plain environments.

Coastal

GIS

Ungaged

Tidal effects

Estuaries

American Studies

Arts and Humanities

Study on Assessment and Adaptation to Saltwater Intrusion under the Impacts of Tide, Sea-Level Rise, Flow and Morphological Changes in the Vietnamese Mekong Delta / ベトナム・メコンデルタにおける塩水遡上に及ぼす潮汐・海面上昇および流況・河道地形変化の影響評価および適応策に関する研究

Nguyen, Thi Phuong Mai

23 May 2022

京都大学 / 新制・論文博士 / 博士(工学) / 乙第13491号 / 論工博第4200号 / 新制||工||1785(附属図書館) / (主査)教授 角 哲也, 准教授 Kantoush Sameh, 准教授 竹門 康弘 / 学位規則第4条第2項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Saltwater Intrusion

Mekong River

Mekong Delta

Dam Impacts

Sea Level Rise

Tidal Effects

500

Saltwater-freshwater mixing fluctuation in shallow beach aquifers

Han, Q., Chen, D., Guo, Yakun, Hu, W.

03 April 2018

Yes / Field measurements and numerical simulations demonstrate the existence of an upper saline plume in tidally dominated beaches. The effect of tides on the saltwater-freshwater mixing occurring at both the upper saline plume and lower salt wedge is well understood. However, it is poorly understood whether the tidal driven force acts equally on the mixing behaviours of above two regions and what factors control the mixing fluctuation features. In this study, variable-density, saturated-unsaturated, transient groundwater flow and solute transport numerical models are proposed and performed for saltwater-freshwater mixing subject to tidal forcing on a sloping beach. A range of tidal amplitude, fresh groundwater flux, hydraulic conductivity, beach slope and dispersivity anisotropy are simulated. Based on time sequential salinity data, the gross mixing features are quantified by computing the spatial moments in three different aspects, namely, the centre point, length and width, and the volume (or area in a two-dimensional case). Simulated salinity distribution varies significantly at saltwater-freshwater interfaces. Mixing characteristics of the upper saline plume greatly differ from those in the salt wedge for both the transient and quasi-steady state. The mixing of the upper saline plume largely inherits the fluctuation characteristics of the sea tide in both the transverse and longitudinal directions when the quasi-steady state is reached. On the other hand, the mixing in the salt wedge is relatively steady and shows little fluctuation. The normalized mixing width and length, mixing volume and the fluctuation amplitude of the mass centre in the upper saline plume are, in general, one-magnitude-order larger than those in the salt wedge region. In the longitudinal direction, tidal amplitude, fresh groundwater flux, hydraulic conductivity and beach slope are significant control factors of fluctuation amplitude. In the transverse direction, tidal amplitude and beach slope are the main control parameters. Very small dispersivity anisotropy (e.g., α_L⁄α_T <5) could greatly suppress mixing fluctuation in the longitudinal direction. This work underlines the close connection between the sea tides and the upper saline plume in the aspect of mixing, thereby enhancing understanding of the interplay between tidal oscillations and mixing mechanisms in tidally dominated sloping beach systems. / Shenzhen Key Laboratory for Coastal Ocean Dynamics and Environment (No. ZDSY20130402163735964), National High Technology Research & Development Program of China (No. 2012AA09A409).

Evolution et habitabilité de systèmes planétaires autour d’étoiles de faible masse et de naines brunes / Evolution and habitability of planetary systems orbiting low mass stars and brown dwarfs

Bolmont, Emeline

13 November 2013

La découverte de plus de 900 planètes autour d’autres étoiles que le Soleil rend notre époque excitante. Ces systèmes planétaires nous ont fait changer notre perception du monde qui était jusqu’alors basée sur nos connaissances du système solaire. Certains systèmes détectés sont beaucoup plus compacts que notre système solaire et les planètes se trouvent extrêmement proches de leur étoile. Pour comprendre la structure de ces systèmes et leur évolution, il est important d’étudier les effets de marée.Les missions d’observations des exoplanètes commencent à détecter des planètes de moins en moins massives dans la zone autour d’une étoile appelée zone habitable. La zone habitable est définie comme la plage de distances orbitales pour laquelle une planète ayant une atmosphère peut avoir de l’eau liquide à sa surface. L’étude du climat des exoplanètes, étant donné un flux et un spectre stellaire, est importante pour la caractérisation de l’atmosphère de ces exoplanètes (que JWST sera en mesure de faire).Dans cette thèse, ces problématiques d’évolution dynamique de systèmes planétaires et de climats de planètes sont développées pour le cas de systèmes planétaires orbitant des naines brunes et des étoiles de faible masse dans le but futur de contraindre des paramètres des modèles de marée ou des observations. Dans un premier temps, j’ai traité le cas de l’évolution par effet de marée d’une planète orbitant une naine brune, une naine M ou une étoile de type solaire dont l’évolution du rayon est prise en compte. L’objectif était d’étudier l’influence de la contraction de l’étoile (ou naine brune) sur l’évolution orbitale des planètes. Dans un deuxième temps, j’ai cherché à étudier l’influence des effets de marée sur l’évolution dynamique d’un système multiplanétaire orbitant une naine brune, une naine M ou une étoile de type solaire dont l’évolution du rayon est aussi prise en compte.Ces deux projets permettent d’aborder le problème de l’habitabilité des planètes au- tour de ces objets, en particulier autour des naines brunes qui refroidissent avec le temps. En effet, une planète se trouvant dans la zone habitable d’une naine brune se situe suffisamment proche de la naine brune pour ressentir l’influence des effets de marée. Ainsi, des paramètres importants pour l’étude des climats sont en partie déterminés par les effets de marée – paramètres comme l’excentricité et l’obliquité entre autres. Dans cette thèse, cette problématique est succinctement abordée en vue d’une poursuite en post-doctorat. / The discovery of more than 900 planets orbiting other stars than our Sun makes this period very exciting. Our knowledge which was based on the Solar System has been challenged by new planetary systems which are very different from our system. Some of them are much more compact than the Solar System. Some planets are located extremely close-in from their star, within the orbital distance of Mercury, in a region where tidal effects are important. Understanding the structure of the known exoplanetary systems and the future ones requires to take into account the physics of tidal evolution.The missions dedicated to the finding of exoplanets are beginning to detect less massive planets in the habitable zone of their host star. The habitable zone is here defined as the range of orbital distances where a planet with an atmosphere can sustain liquid water at its surface. The study of the climate of exoplanets, given a stellar flux and spectra, is important for the characterization of planetary atmosphere – which JWST will make possible.This thesis provides a study of the dynamical and tidal evolution of planetary systems orbiting evolving brown dwarfs and low mass stars in order to constrain some tidal parameters and in the case of planets around brown dwarfs put some constrains on observability. First, I studied the tidal evolution of single-planet systems orbiting a brown dwarf, a M-dwarf or a Sun-like star whose radius evolution is taken into account. The aim of this study was to study the influence of the contraction of the brown dwarf or star on the orbital evolution of the planets. Second, I endeavored to study the tidal evolution of multiple-planet systems orbiting a brown dwarf, a M-dwarf or a Sun-like star whose radius evolution is also taken into account.These two projects allow me to study the question of the habitability of planets orbiting those objects, in particular orbiting brown dwarfs which are known to cool down with time. A planet orbiting a brown dwarf in its habitable zone is sufficiently close to the brown dwarf to feel tidal effects. So parameters such as the eccentricity or obliquity, which are important for the climate are partially determined by tides. In this thesis, this question is briefly addressed but will be deepened in a future post-doc.

Exoplanètes

Effets de marée

Naines brunes

Evolution dynamique et stabilité

Dissipation

Etoiles : rotation

Astrobiologie

Exoplanets

Tidal effects

Brown dwarfs

Dynamical evolution and stability

Dissipation

Stars : rotation

Astrobiology