Add to ORKGWe employ a three-dimensional hydrodynamic model (COHERENS) in a fully prognostic mode to study the circulation and water mass properties of the Persian Gulf – a large inverse estuary. Our findings, which are in good agreement with observational evidence, suggest that the Persian Gulf experiences a distinct seasonal cycle in which a gulf-wide cyclonic overturning circulation establishes in spring and summer, but this disintegrates into mesoscale eddies in autumn and winter. Establishment of the gulf-wide circulation coincides with establishment of thermal stratification and strengthening of the baroclinic exchange circulation through the Strait of Hormuz. Winter cooling of extreme saline (>45) water in shallow regions along the coast ...
The Persian Gulf and Oman Sea, situated over the northwestern extremity of the tropical Indian Ocean...
International audienceHydrological, ADCP, and drifting buoy data obtained during the GOGP99 Experime...
The Total Exchange Flow analysis framework computes consistent bulk values quantifying the estuarine...
International audienceWe employ a three-dimensional hydrodynamic model (COHERENS) in a fully prognos...
International audienceA shallow-water model, coupled with a three dimensional, hydrostatic ocean mod...
Excess evaporation within the Persian (also referred as the Arabian) Gulf induces an inverse-estuary...
International audienceA homogeneous shallow-water model with free surface is used to model the tidal...
The results from a~1 km resolution Hybrid Coordinate Ocean Model (HYCOM),forced by 1/2° Navy Operati...
A three-dimensional hydrodynamic model has been developed to investigate thermohaline processes, oce...
Because of the scarcity of observational data, existing estimates of the heat and water budgets of t...
The presence of different water masses in the North Arabian Sea continues to remain of interest to s...
In this study the dynamical characteristics of the salinity front between the Persian Gulf inflow an...
The exchange between the Persian (Arabian) Gulf and the Indian Ocean is investigated using hydrograp...
The Persian Gulf and Oman Sea, situated over the northwestern extremity of the tropical Indian Ocean...
International audienceHydrological, ADCP, and drifting buoy data obtained during the GOGP99 Experime...
The Total Exchange Flow analysis framework computes consistent bulk values quantifying the estuarine...
International audienceWe employ a three-dimensional hydrodynamic model (COHERENS) in a fully prognos...
International audienceA shallow-water model, coupled with a three dimensional, hydrostatic ocean mod...
Excess evaporation within the Persian (also referred as the Arabian) Gulf induces an inverse-estuary...
International audienceA homogeneous shallow-water model with free surface is used to model the tidal...
The results from a~1 km resolution Hybrid Coordinate Ocean Model (HYCOM),forced by 1/2° Navy Operati...
A three-dimensional hydrodynamic model has been developed to investigate thermohaline processes, oce...
Because of the scarcity of observational data, existing estimates of the heat and water budgets of t...
The presence of different water masses in the North Arabian Sea continues to remain of interest to s...
In this study the dynamical characteristics of the salinity front between the Persian Gulf inflow an...
The exchange between the Persian (Arabian) Gulf and the Indian Ocean is investigated using hydrograp...
The Persian Gulf and Oman Sea, situated over the northwestern extremity of the tropical Indian Ocean...
International audienceHydrological, ADCP, and drifting buoy data obtained during the GOGP99 Experime...
The Total Exchange Flow analysis framework computes consistent bulk values quantifying the estuarine...