Abstract
Flow of barotropic tidal currents over topographic features, such as continental slopes and submarine ridges, generates internal gravity waves at tidal periods known as internal tides. Amplitude of these waves are generally large near the generation regions. Analysis of Sea Surface Height (SSH) data, derived from satellite altimeter revealed the amplification of internal tides in the semidiurnal period in the north-central Bay of Bengal (BoB) (around 89{}^{circ }E, 16{}^{circ }N), which is about 450 km away from their generation sites. SSH signals found in the north-central BoB ( sim 3 cm) were comparable to the maximum amplitudes (2.5 to 3.5 cm) observed near their potential generation sites in the BoB such as continental slopes in the head of the bay and Andaman-Nicobar (AN) Ridge. Simulations from a high-resolution regional ocean model also confirmed the presence of large internal tide amplitude in the north-central BoB. Our study revealed that convergence of internal tides, which were generated along the concave-shaped source (continental slopes in the head of the bay and the northern parts of AN Ridge), into its focal region caused their amplification in the north-central BoB. It was also found that internal tide energy dissipation rates in this focal region were about 10 times larger than those in other open ocean regions.
Highlights
Tidal currents and elevations from the model simulations are extracted by harmonic analysis using TUGOm Tidal ToolBox[39]
Spatially filtered SSH signals obtained from the harmonic analysis of one-year sea level simulation are used for comparison with observed SSH signals from the satellite altimeter
Barotropic tidal currents are defined as depth-averaged velocity fields and baroclinic currents are defined as the difference between total and depth-averaged currents
Summary
The initial and boundary conditions required for integrating the model are obtained from the simulations of a basin scale ROMS configuration for the Indian Ocean at ~9 km resolution[36]. Barotropic tidal elevation and velocities in the model are forced at the open boundaries using 10 tidal www.nature.com/scientificreports constituents (M2, S2, N2, K2, K1, O1, P1, Q1, Mf and Mm) derived from the TPXO7.0 global tidal model[37]. Tidal currents and elevations from the model simulations are extracted by harmonic analysis using TUGOm Tidal ToolBox[39].
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