M.P. Subeesh scite author profile

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  E, 16  N), which is about 450 km away from their generation sites. SSH signals found in the north-central BoB (~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 concaveshaped 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.Periodic flow of tidal currents over steep topography generates vertical oscillations of isopycnal surfaces in the stratified ocean. These internal oscillations propagate away as gravity waves, known as internal tides. Continental margins and submarine ridges are the main sources of this tidally-generated internal gravity waves in the ocean. Previous studies suggest that about 30% of the energy associated with internal tides, especially with high vertical modes, dissipates locally near the generation sites themselves and the remaining 70% of the energy radiates from the source, propagates long distances (O (1000 km)) and ultimately dissipates in deep ocean or in remote continental margins 1-3 . Dissipation of internal tides is one of the important sources of mechanical energy for the vertical mixing in the interior ocean 4 . Several mechanisms have been suggested for the dissipation of long-range propagating internal tides such as interactions with rough topography 5 , interactions with mean flows and eddies 6 , cascade to smaller scales via wave-wave interactions 7 etc. However, the pathways of internal tide energy in the ocean and regions of their energy dissipation are not completely understood.Generally, strong baroclinic currents and large isopycnal displacements at tidal frequencies are observed near their generation sites and their amplitude decreases away from the sources 8,9 . However, spatial variation of internal tides and associated energy dissipation in the ocean can be more complicated due to the interaction of waves from multiple sources 10 . For example, Wang et al. 11 reported that interference of internal tides from different sources results in large spatial inhomogeneity in the energy flu...

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Temperature and precipitation during winter in NyÅlesund, Svalbard and possible tropical linkages

Murukesh

Chatterjee

Satheesan

et al. 2020

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Combined influence of oceanic and atmospheric circulations on Greenland sea ice concentration

et al. 2021

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Abstract. The amount and spatial extent of Greenland Sea (GS) ice are primarily controlled by the sea ice export across the Fram Strait (FS) and by local seasonal sea ice formation, melting, and sea ice dynamics. In this study, using satellite passive microwave sea ice observations, atmospheric and a coupled ocean-sea ice reanalysis system, TOPAZ4, we show that both the atmospheric and oceanic circulation in the Nordic Seas (NS) act in tandem to explain the SIC variability in the south-western GS. Northerly wind anomalies associated with anomalously low sea level pressure (SLP) over the NS reduce the sea ice export in the south-western GS due to westward Ekman drift of sea ice. On the other hand, the positive wind stress curl strengthens the cyclonic Greenland Sea Gyre (GSG) circulation in the central GS. An intensified GSG circulation may result in stronger Ekman divergence of surface cold and fresh waters away from the south-western GS. Both of these processes can reduce the freshwater content and weaken the upper-ocean stratification in the south-western GS. At the same time, warm and saline Atlantic Water (AW) anomalies are recirculated from the FS region to the south-western GS by a stronger GSG circulation. Under weakly stratified conditions, enhanced vertical mixing of these subsurface AW anomalies can warm the surface waters and inhibit new sea ice formation, further reducing the SIC in the south-western GS.

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Observed tidal currents on the continental shelf off the west coast of India

Subeesh

Unnikrishnan

Fernando

et al. 2013

Continental Shelf Research

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M.P. Subeesh

Observed tidal currents on the continental shelf off the east coast of India

Intensification of tidally generated internal waves in the north-central Bay of Bengal

Temperature and precipitation during winter in NyÅlesund, Svalbard and possible tropical linkages

Combined influence of oceanic and atmospheric circulations on Greenland sea ice concentration

Observed tidal currents on the continental shelf off the west coast of India

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