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Water resources and global warming for the Sao Francisco River in BrazilAzevedo, Jose Roberto Goncalves de January 1999 (has links)
No description available.
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The influence of discharge variability on river channel width : a field and laboratory studyKnight, Deborah Ann January 1997 (has links)
No description available.
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Sediment Flux and Salt-wedge Dynamics in a Shallow, Stratified EstuarySimans, Kevin J. January 2018 (has links)
Thesis advisor: Gail C. Kineke / An observational study was conducted from 2013 to 2016 to investigate suspended-sediment transport processes in the stratified Connecticut River estuary. Time-series measurements of velocity and suspended-sediment concentration from the upper estuary were analyzed to determine the relative importance of different processes driving sediment flux under highly-variable river discharge. Results indicate that under high discharge the salt intrusion is forced towards the mouth causing large seaward sediment fluxes throughout the water column. Seaward fluxes are dominated by mean advection, with some contribution due to tidal pumping. Under low discharge the salt intrusion extends to the upper estuary, advancing as a bottom salinity front during each flood tide. Stratification and strong velocity shear during the ebb tide cause the upper and lower water column to become dynamically decoupled. Sediment flux near the bed is landward throughout the tidal cycle despite the net seaward depth-integrated flux, and is almost fully attributed to the mean estuarine circulation. River discharge is the primary factor affecting the magnitude and direction of sediment flux because of its high variability and direct connection to the salt-wedge dynamics. A generalized three-phase conceptual model describes suspended-sediment transport in shallow, stratified estuaries with low trapping efficiencies. First, fine sediment bypasses the estuary during high river flows and exports to the coastal ocean where a portion of this sediment is temporarily deposited outside the mouth. Second, during low discharge offshore mud deposits are reworked by wave- and tidally-driven currents and some sediment is advected back into the estuary with the advancing salt intrusion that transports sediment landward. Third, spatial salinity gradients facilitate sediment transport from the main channel to channel margins, marshes and off-river coves where it is retained and deposited long-term, as demonstrated in prior studies. This re-introduction and trapping of recycled sediment under low-discharge conditions can have important implications for pollutant transport, shoaling of navigation channels and harbors, and salt marsh accretion in the face of rising sea levels. / Thesis (MS) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Earth and Environmental Sciences.
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Production dynamics of the mysid Neomysis awatschensis (Brandt, 1851) in the Yura River estuary, central Sea of Japan / 日本海中部由良川河口におけるイサザアミ Neomysis awatschensis (Brandt, 1851) の生産ダイナミクスOMWERI, Justus Ooga 26 March 2018 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(地球環境学) / 甲第21236号 / 地環博第172号 / 新制||地環||35(附属図書館) / 京都大学大学院地球環境学舎地球環境学専攻 / (主査)教授 山下 洋, 教授 柴田 昌三, 教授 宮下 英明 / 学位規則第4条第1項該当 / Doctor of Global Environmental Studies / Kyoto University / DFAM
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Effects of river discharge and marine environmental factors on the brown shrimp fishery in the northern Gulf of MexicoPollack, Adam George 11 December 2009 (has links)
Regression analyses and delta-lognormal models were used to investigate whether river discharge and environmental variables significantly affected relative abundance of brown shrimp, Farfantepenaeus aztecus, in the northern Gulf of Mexico. Significant negative relationships were found between mean river flow during winter and spring months and catch rates (CPUE) off Texas, Louisiana and Mississippi/Alabama. However, during the same months significant positive relationships between CPUE and the variation in mean river discharge were found for each state. In Texas and Louisiana, delta-lognormal models revealed depth zone was the most significant variable (P≤0.001) in describing distribution, while time of day (P≤0.001) was most significant in describing CPUE and also distribution and CPUE in Mississippi/Alabama. These results suggest that brown shrimp relative abundance is effected by river discharge, while gulf-wide environmental variables exert no influence, except dissolved oxygen concentrations affecting distribution off Louisiana.
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Reconstruction of Ob River, Russia, discharge from ring widths of floodplain treesAgafonov, Leonid I., Meko, David M., Panyushkina, Irina P. 12 1900 (has links)
The Ob is the third largest Eurasian river supplying heat and freshwater to the Arctic Ocean. These inputs influence water salinity, ice coverage, ocean temperatures and ocean circulation, and ultimately the global climate system. Variability of Ob River flow on long time scales is poorly understood, however, because gaged flow records are short. Eleven tree-ring width chronologies of Pinus sibirica and Larix sibirica are developed from the floodplain of the Lower Ob River, analyzed for hydroclimatic signal and applied as predictors in a regression model to reconstruct 8-month average (December-July) discharge of the Ob River at Salekhard over the interval 1705-2012 (308 yrs). Correlation analysis suggests the signal for discharge comes through air temperature: high discharge and floodplain water levels favor cool growing-season air temperature, which limits tree growth for the sampled species at these high latitudes. The reconstruction model (R-2 = 0.31, 1937-2009 calibration period) is strongly supported by cross validation and analysis of residuals. Correlation of observed with reconstructed discharge improves with smoothing. The long-term reconstruction correlates significantly with a previous Ob River reconstruction from ring widths of trees outside the Ob River floodplain and extends that record by another century. Results suggest that large multi-decadal swings in discharge have occurred at irregular intervals, that variations in the 20th and 21st centuries have been within the envelope of natural variability of the past 3 centuries, and that discharge data for 1937-2009 underestimate both the variability and persistence of discharge in the last 3 centuries. The reconstruction gives ecologists, climatologists and water resource planners a long-term context for assessment of climate change impacts.
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Effect of volcanic eruptions on the hydrological cycleIles, Carley Elizabeth January 2014 (has links)
Large explosive volcanic eruptions inject SO2 into the stratosphere where it is oxidised to sulphate aerosols which reflect sunlight. This causes a reduction in global temperature and precipitation lasting a few years. Here the robust features of this precipitation response are investigated, using superposed epoch analysis that combines results from multiple eruptions. The precipitation response is first analysed using the climate model HadCM3 compared to two gauge based land precipitation datasets. The analysis is then extended to a large suite of state-of-the art climate models participating in the Coupled Model Intercomparison Project Phase 5 (CMIP5). This is the first multi-model study focusing on the precipitation response to volcanoes. The large ensemble allows analysis of a short satellite based dataset which includes ocean coverage. Finally the response of major world rivers to eruptions is examined using historical records. Whilst previous studies focus on the response of just a few rivers or global discharge to single eruptions, here the response of 50 major world rivers is averaged across multiple eruptions. Results are applicable in predicting the precipitation response to future eruptions and to geoengineering schemes that seek to counteract global warming through reducing incoming solar radiation. The main model-simulated features of the precipitation response include a significant global drying over both land and ocean, which is dominated by the wet tropical regions, whilst the dry tropical ocean regions get significantly wetter following eruptions. Monsoon rainfall decreases, whilst in response to individual eruptions the Intertropical Convergence Zone shifts away from the hemisphere with the greater concentration of volcanic aerosols. The ocean precipitation response is longer lived than that over land and correlates with near surface air temperature, whilst the land response correlates with aerosol optical depth and a reduction in land-ocean temperature gradient Many of these modelled features are also seen in observational data, including the decrease in global mean and wet tropical regions precipitation over land and the increase of precipitation over dry tropical ocean regions, all of which are significant in the boreal cold season. The land precipitation response features were robust to choice of dataset. Removing the influence of the El Nino Southern Oscillation (ENSO) reduces the magnitude of the volcanic response, as several recent eruptions coincided with El Nino events. However, results generally remain significant after subtraction of ENSO, at least in the cold season. Over ocean, observed results only match model expectations in the cold season, whilst data are noisy in the warm season. Results are too noisy in both seasons to confirm whether a long ocean precipitation response occurs. Spatial patterns of precipitation response agree well between observational datasets, including a decrease in precipitation over most monsoon regions. A positive North Atlantic Oscillation-like precipitation response can be seen in all datasets in boreal winter, but this is not captured by the models. A detection analysis is performed that builds on previous detection studies by focusing specifically on the influence of volcanoes. The influence of volcanism on precipitation is detectable using all three observational datasets in boreal winter, including for the first time in a dataset with ocean coverage, and marginally detectable in summer. However, the models underestimate the size of the winter response, with the discrepancy originating in the wet tropics. Finally, the number of major rivers that undergo a significant change in discharge following eruptions is slightly higher than expected by chance, including decreased flow in the Amazon, Congo, Nile, Orange, Ob and Yenisey. This proportion increases when only large or less humanly influenced basins are considered. Results are clearer when neighbouring basins are combined that undergo the same sign of CMIP5 simulated precipitation response. In this way a significant reduction in flow is detected for northern South American, central African and less robustly for high-latitude Asian rivers, along with a significant increase for southern South American and SW North American rivers, as expected from the model simulated precipitation response.
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Estudo do aporte sedimentar em suspensão na Baía da Babitonga sob a ótica da geomorfologia / Study of suspended sediment yield into the Babitonga Bay under the perspective of the GeomorphologyOliveira, Fabiano Antônio de 07 March 2007 (has links)
A pesquisa teve como objetivo principal estimar o aporte sedimentar em suspensão na baía da Babitonga a partir de um setor de sua área de contribuição hidrográfica, com base em uma análise geomorfológica da relação entre precipitação, relevo e uso da terra. Adotou-se como referências teórico-metodológicas principais os trabalhos de Ab?Saber, sobre os níveis de tratamento para pesquisas em geomorfologia, e de Tricart, que propõe a classificação dos ambientes segundo seu funcionamento ecodinâmico. Efetuou-se em campo monitoramento mensal das vazões dos dez rios que compõem a área da pesquisa e coletas de amostras de água para quantificação de sedimentos em suspensão em laboratório. Os resultados obtidos indicaram um nítido diferencial no comportamento hidrológico e hidrossedimentológico entre as bacias hidrográficas, que se reflete em distintas parcelas de contribuição de cada bacia no aporte sedimentar em suspensão na baía. Estimou-se que são lançadas na Baía da Babitonga, a partir da área da pesquisa, cerca de 7.624 toneladas/ano de sedimentos em suspensão, estando 77,8% deste volume concentrado na foz do Rio Cubatão. / The research had as main goal to estimate the suspended sediment yield into the Babitonga Bay from a sector of its hydrographic contribution area and was based on a geomorphological approach of the relationship among precipitation, relief and land use. The theorical methodological references were the works from Ab?Saber, about treatment levels for geomorphological research, and from Tricart, which proposes environmental classification based on its ecodynamic behavior. Field monitoring of discharge values was accomplished once a month for all ten rivers of the research área, as well as water sample collecting for laboratory suspended sediment quantification. Results indicate a clear distinct hydrological and hydrossedimentological behavior of the watersheds, which reflect the distinguished suspended sediment yield of each individual watershed into the bay. It was estimated that ca. 7,624 year/tons of suspended sediment are introduced into the Babitonga Bay, with 77.8% of that volume concentrated at the Cubatão river estuary.
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Quantifying Dominant Heat Fluxes in an Arctic Alaskan River with Mechanistic River Temperature ModelingKing, Tyler V. 01 August 2018 (has links)
Temperatures strongly affect physical, chemical, and biological processes in rivers and streams. The processes that influence river temperatures are known across most geographic regions, but the relative importance varies significantly. Little is known about what controls water temperature Arctic rivers, limiting our ability to understand the impacts of climate change. This dissertation addresses this knowledge gap by incorporating field measurements with river temperature modeling to estimate the relative importance of key factors that affect Arctic river temperatures. Results indicate that shortwave radiation (e.g., sunlight) and net longwave radiation are significant throughout an Arctic watershed in all flow conditions. In areas where the river is smaller, however, exchange of water with the riverbed and inputs of water from the landscape become significant under low-flow and high-flow conditions, respectively. Additional field observations and modeling were used to quantify the water and heat exchanges between the river and the riverbed. These heat exchanges were found to cool the river and reduce the daily range of temperatures. To better estimate the flow of water from the landscape to the river, a new method for estimating river flow was developed using high-resolution aerial imagery. This method allows us to estimate river flow without depending on field measurements, and presents a potential solution to barriers in performing river temperature modeling in other parts of the Arctic.
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Compréhension et analyse des processus hydro-sédimentaires de la Baie de Toulon. : Apport à la modélisation de la dispersion des radionucléides. / Understanding and analyzing the hydro-sedimentary processes in the Bay of Toulon. : Contribution for modelling the dispersion of radionuclides.Dufresne, Christiane 24 November 2014 (has links)
Le travail de recherche doctorale développé ici vise à améliorer les connaissances et la représentation desprocessus hydro-sédimentaires dans la Rade de Toulon, afin de mettre en place un modèle de dispersion desradionucléides comme outil de gestion post-accidentelle. L’intérêt de cette étude pluridisciplinaire repose surune stratégie qui unit la modélisation et les observations in situ et aborde la problématique complexe descontaminants en milieu marin.Les résultats obtenus permettent de rendre compte de la circulation hydrodynamique dans la Rade de Toulon etde sa forte dépendance au forçage par le vent. Ainsi, les temps d’échange des masses d’eau de la Petite Radesont estimés entre deux et six jours selon les conditions météorologiques. Les mesures en continu réaliséesdans les fleuves Las et Eygoutier ont permis de décrire et de quantifier les apports liquides et solides desbassins versants de la Rade, très peu étudiés jusqu’ici. La Petite Rade représente une zone de sédimentationprivilégiée vis à vis du millier de tonnes par an de matières particulaires apportées par le Las, et apparaît à cetitre comme une zone de piégeage des radionucléides en cas de rejet accidentel. / This doctoral research aims to enhance knowledge of the hydro-sedimentary processes in the Bay of Toulonand to represent these processes through a post accidental managing tool, developed to simulate the dispersionof radionuclides. This work is based on a multidisciplinary strategy, using numerical modelling and in situmeasurements to study the complex problem of contaminants in the marine environment.Hydrodynamic of the Bay and water mass exchanges through the channel have been studied. Results are highlylinked to the atmospheric conditions and the water exchange times of the Little Bay range from two to sixdays, depending on wind conditions. Recorded data in the Las and Eygoutier Rivers led to the description andthe estimation of the catchment yields to the Bay, poorly studied before. With one ton of particulate matterannually discharged by the Las River, the Little Bay seems to be a sedimentation area. In case of accidentalrelease of radionuclides, this area appears to be a trapping zone.
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