Your search keyword '"Souza, Alejandro J."' showing total 12 results

1. Saltwater intrusion in estuaries with different dynamic depths

Author

Guerra-Chanis, Gisselle E., Laurel-Castillo, Jorge Armando, Schettini, Carlos A.F., Kakoulaki, Georgia, Souza, Alejandro J., and Valle-Levinson, Arnoldo

Published

2022

2. Effective energy controls on flocculation under various wave-current regimes

Author

Ramírez-Mendoza, Rafael, Souza, Alejandro J., Amoudry, Laurent O., and Plater, Andrew J.

Published

2016

3. Effects of the deep-water wave breaking dissipation on the wind-wave modelling in the Irish Sea

Author

Osuna, Pedro, Souza, Alejandro J., and Wolf, Judith

Published

2007

4. LISST-100 response to large particles

Author

Davies, Emlyn J., Nimmo-Smith, W. Alex M., Agrawal, Yogesh C., and Souza, Alejandro J.

Published

2012

5. Impact of sediment-induced stratification and turbulence closures on sediment transport and morphological modelling

Author

Amoudry, Laurent O. and Souza, Alejandro J.

Subjects

*SEDIMENT transport, *TURBULENCE, *SEDIMENTS, *MATHEMATICAL models, *OCEAN bottom, *EROSION, *COMPUTER simulation, *SUSPENDED sediments

Abstract

Abstract: Appropriate descriptions of turbulence are important in predicting sediment transport and seabed evolution. We use here a three-dimensional model to investigate the impacts of sediment-induced stratification, erosion parameterization, and turbulence closures on sediment transport and morphological simulations. The model is implemented in the Proudman Oceanographic Laboratory Coastal Ocean Modelling System (POLCOMS), which couples a hydrodynamic model to the General Ocean Turbulence Model (GOTM) and to a sediment transport model. This sediment transport model calculates both suspended sediment concentrations and bed evolution. A large number of turbulence closures can be tested and we focus on the methods used to calculate the turbulent length scale and the stability functions. Different modelling scenarios are assessed against experimental data of velocity profiles, suspended sediment concentrations, and trench migration in a laboratory flume. Numerical results show that the processes investigated have little impact on the flow velocity profiles, in spite of some differences on the bed shear stress. The only exception is the one-equation turbulence closure, which cannot reproduce velocity profiles appropriately. Sediment-induced stratification, erosion parameterization, and turbulence closures can all have significant impacts on the suspended sediment concentration and the bed evolution. Model-data comparisons are found to be particularly sensitive to the method used to calculate the turbulent length scale. [Copyright &y& Elsevier]

Published

2011

6. An 11-year validation of wave-surge modelling in the Irish Sea, using a nested POLCOMS–WAM modelling system

Author

Brown, Jennifer M., Souza, Alejandro J., and Wolf, Judith

Subjects

*OCEAN waves, *OCEAN currents, *SIMULATION methods & models, *CLIMATE change, *ABSOLUTE sea level change, *OCEANOGRAPHY experiments

Abstract

Abstract: In the future it is believed that extreme coastal flooding events will increase (in frequency and intensity) as a result of climate change. We are investigating the flood risks in the eastern Irish Sea posed by extreme storm events. Here, an 11-year simulation (01/01/1996–01/01/2007) including wave–current interaction has been validated. These data can then be used to investigate the potential for coastal flooding in the study area. To accurately model a storm event in the eastern Irish Sea both wave effects and the influence of the external surge need to be considered. To simulate the waves, we have set up a one-way nested approach from a 1° North Atlantic model, to a 1.85km Irish Sea model, using the state-of-the-art 3rd-generation spectral WAve Model (WAM). This allows the influence of swell to be correctly represented. The Proudman Oceanographic Laboratory Coastal-Ocean Modelling System (POLCOMS) has been used to model the tide–surge interaction. To include the external surge we have set up a one-way nested approach from the 1/9° by 1/6° operational Continental Shelf surge model, to a 1.85km Irish Sea model. For the high resolution Irish Sea model we use a POLCOMS–WAM coupled model, to allow for the effects of wave–current interaction on the prediction of surges at the coast. Using two classification schemes the coupled model is shown to be good and often very good at predicting the surge, total water elevation and wave conditions. We also find the number of low level surge events has increased in the study area over the past decade. However, this time period is too short to determine any long-term trends in the wave and surge levels. [Copyright &y& Elsevier]

Published

2010

7. Controls on stratification in the Rhine ROFI system

Author

Souza, Alejandro J. and Simpson, John H.

Published

1997

8. Wave–current interactions in a tide dominated estuary.

Author

Bolaños, Rodolfo, Brown, Jennifer M., and Souza, Alejandro J.

Subjects

*WAVE-current interaction, *TIDES, *OCEAN circulation, *ESTUARIES, *TIME-varying systems

Abstract

There is a need to understand the interactions of waves and currents in the nearshore and estuarine areas. By using observational data and an advanced model an assessment of the wave–current interactions was performed in a hypertidal estuary. The circulation model includes both barotropic and baroclinic processes arising from tides, rivers and atmospheric forcing. It is coupled to a spectral wave model and a turbulence model. Waves within the estuary are strongly modulated by the tide. Significant wave height and period are mainly controlled by time-varying water depth, but wave periods are also affected by a Doppler shift produced by the current. The major-axis depth-averaged current component is tidally dominated and wave-induced processes do not have a significant effect on it. However, the inclusion of wave effects, in particular 3D radiation stress, improves the depth-averaged minor-axis (transverse) current component. The residual currents show a clear two-layer system, indicating that the baroclinic river influence is the dominant process. The wave effects are second order, but their consideration improves the long-term modelled residual circulation profile, specially the along estuary component. The main improvement appears when a 3-dimensional radiation stress coupling is considered. The 3D version of radiation stress produced better results than the 2D version. Within the estuary, wave setup has little effect on the storm surge, while 2-way wave–current interaction improved the wave simulation. Using a 3D Doppler shift further improved the model compared with using a 2D version. [ABSTRACT FROM AUTHOR]

Published

2014

9. Hydrodynamic timescales in a hyper-tidal region of freshwater influence.

Author

Phelps, Jack J.C., Polton, Jeff A., Souza, Alejandro J., and Robinson, Leonie A.

Subjects

*TIDES & the environment, *HYDRODYNAMICS, *THREE-dimensional imaging, *BAROCLINIC models, *OFFSHORE structures

Abstract

Abstract: This study uses a three-dimensional hydrodynamic model to investigate transport timescales in Liverpool Bay, a shallow hyper-tidal Region of Freshwater Influence (ROFI) with a density-driven baroclinic residual circulation. Flushing time, residence time and age are evaluated, providing rigorously defined parameters to describe the rate of offshore freshwater transport and basin replenishment. Additional challenges encountered when assessing these timescales in a tidally mixed regime are highlighted by idealised models. Climatological river gauge data reveals that the numerous local rivers contribute an average of 203m3 s−1 of freshwater to Liverpool Bay. Based upon the mean salinity distribution, this would suggest a flushing time of approximately 136days. The mean residence time of the region is approximately 103days although small concentrations of water are retained over several years due to vigorous tidal mixing. Age in the region is highly variable with regular oscillations caused by tidal advection, whilst long term fluctuations are governed by river flow rates. The mean age gradient is directed offshore, approximately parallel to both the salinity gradient and the major axis of the tidal ellipse, with basin wide average magnitude of 6dayskm−1. It is shown that salinity may be used to estimate the age of freshwater, which is not directly observable in practice. [Copyright &y& Elsevier]

Published

2013

10. Morphological evolution of the Dee Estuary, Eastern Irish Sea, UK: A tidal asymmetry approach

Author

Moore, Rowena D., Wolf, Judith, Souza, Alejandro J., and Flint, Stephen S.

Subjects

*SEDIMENT transport, *ESTUARIES, *ALTITUDE measurements, *HYDRODYNAMICS

Abstract

Abstract: Asymmetry in the tide (unequal ebb and flood duration) is a dominant factor in causing residual sediment transport and morphological changes in estuaries. The evolution of estuarine morphology is a process of dynamic equilibrium in the short-term, while these features are ephemeral in the long-term. In this study we investigate the spatial distribution of tidal distortion and asymmetry in the Dee estuary, UK, by 3-dimensional numerical modelling methods. High resolution LIDAR surveys are used to underpin and explain our numerical modelling results in terms of basin hypsometry and areas of recent erosion and deposition. Harmonic analysis of the numerical modelling results showed that the shallower intertidal areas (sand and mud banks) were the most tidally asymmetric, showing flood dominance. The main navigation channels showed some ebb dominance but the tides here were relatively undistorted. This overall flood dominance is likely to induce net sediment import to the Dee, which explains known historical morphological changes (large scale accretion over the last two centuries) and also recent morphological changes as seen from the LIDAR surveys (which show predominantly net accretion between 2003 and 2006). Hypsometrical analysis suggests the Dee may be approaching equilibrium, and that the flood dominance and sedimentation rate may therefore decrease in the future. In an infilling estuary, an increase in the area and elevation of tidal flats can eventually shift an estuary towards ebb dominance, as shown by previous research and by ‘idealised estuary’ modelling results presented in this study. The large tidal amplitude to hydraulic depth ratio of the Dee, however, suggests that the tidal flats would have to be very extensive indeed for this to occur. [Copyright &y& Elsevier]

Published

2009

11. Modelling Zostera marina and Ulva spp. in a coastal lagoon

Author

Aveytua-Alcázar, Leslie, Camacho-Ibar, Victor F., Souza, Alejandro J., Allen, J.I., and Torres, Ricardo

Subjects

*ZOSTERACEAE, *HELOBIAE, *ZOSTERA, *ZOSTERA japonica

Abstract

Abstract: We have implemented new modules of seagrass and macroalgae in the European Regional Seas Ecosystem Model (ERSEM). The modules were tested using a version of ERSEM coupled with the General Ocean Turbulence Model (GOTM) in San Quintin Bay (SQB), a coastal lagoon in Baja California, Mexico. As we are working in a region where horizontal advective transport of nutrients is important, we have included the horizontal nutrient gradients which result in nutrient advection when combined with the local currents. The addition of the Zostera marina and Ulva spp. modules to ERSEM, and the inclusion of advection results in a better simulation of the seasonal and interannual trends in nutrient concentrations and macrophyte biomasses in SQB. The differences between the simulations with and without advection are particularly apparent during the upwelling periods. Therefore, by increasing the horizontal gradients of nitrate in the model during the strong upwelling seasons a stronger advection results in higher nitrate concentrations from May to July in 2004 and 2005. The difference in the seasonal trend in biomasses between both macrophytes, with Ulva spp. reaching its seasonal maximum in June–July and Z. marina reaching it in September–October reflects the different response to the various factors controlling their primary production. Z. marina is particularly sensitive to variations in the photosynthetically active radiation (PAR) and the light limitation factor, while Ulva spp. is more sensitive to changes in the maximum uptake rates of nitrate. The model was forced using field data from the lagoon collected in 2004 and 2005. [Copyright &y& Elsevier]

Published

2008

12. Impact of operational model nesting approaches and inherent errors for coastal simulations.

Author

Brown, Jennifer M., Norman, Danielle L., Amoudry, Laurent O., and Souza, Alejandro J.

Subjects

*REGIONS of freshwater influence, *ESTUARIES, *STRATIGRAPHIC geology, *BIOGEOCHEMICAL cycles

Abstract

A region of freshwater influence (ROFI) under hypertidal conditions is used to demonstrate inherent problems for nested operational modelling systems. Such problems can impact the accurate simulation of freshwater export within shelf seas, so must be considered in coastal ocean modelling studies. In Liverpool Bay (our UK study site), freshwater inflow from 3 large estuaries forms a coastal front that moves in response to tides and winds. The cyclic occurrence of stratification and remixing is important for the biogeochemical cycles, as nutrient and pollutant loaded freshwater is introduced into the coastal system. Validation methods, using coastal observations from fixed moorings and cruise transects, are used to assess the simulation of the ROFI, through improved spatial structure and temporal variability of the front, as guidance for best practise model setup. A structured modelling system using a 180 m grid nested within a 1.8 km grid demonstrates how compensation for error at the coarser resolution can have an adverse impact on the nested, high resolution application. Using 2008, a year of typical calm and stormy periods with variable river influence, the sensitivities of the ROFI dynamics to initial and boundary conditions are investigated. It is shown that accurate representation of the initial water column structure is important at the regional scale and that the boundary conditions are most important at the coastal scale. Although increased grid resolution captures the frontal structure, the accuracy in frontal position is determined by the offshore boundary conditions and therefore the accuracy of the coarser regional model. [ABSTRACT FROM AUTHOR]

Published

2016