Fluid dynamics
; Temperature
; Arabian Gulf
; Computational domains
; Hydrodynamic model
; Hydrographic conditions
; Long-term
; Salinity
; Spatial distribution map
; Temperature boundary
; Hydrodynamics
; baroclinic motion
; boundary condition
; hydrodynamics
; salinity
; spatiotemporal analysis
; stratification
; temperature effect
; 3D hydrodynamic model
; Arabian Gulf
; Article
; autumn
; bottom water exchange
; controlled study
; current
; evaporation
; Gulf of Oman
; heat exchange
; hydrodynamics
; hydrography
; model
; oceanic regions
; physical parameters
; salinity
; simulation
; spring
; Strait of Hormuz
; summer
; surface density
; tide
; validation process
; water temperature
; winter
; chemical model
; chemistry
; environmental monitoring
; Oman
; temperature
; water flow
; Arabian Sea
; Gulf of Oman
; Indian Ocean
; Persian Gulf
; sea water
; Environmental Monitoring
; Hydrodynamics
; Models, Chemical
; Oman
; Salinity
; Seawater
; Temperature
; Water Movements
Scopus学科分类:
Agricultural and Biological Sciences: Aquatic Science
; Earth and Planetary Sciences: Oceanography
; Environmental Science: Pollution
Water Resources Graduate Program, United Arab Emirates University, United Arab Emirates; Civil and Environmental Engineering Dept., United Arab Emirates University, United Arab Emirates; Federal University of Paraná, Brazil
Recommended Citation:
Elhakeem A.,Elshorbagy W.,Bleninger T.. Long-term hydrodynamic modeling of the Arabian Gulf[J]. Marine Pollution Bulletin,2015-01-01,94(2018-01-02)