Characteristics of Internal Tides from ECCO Salinity Estimates and Observations in the Bay of Bengal

Subrahmanyam, Bulusu; Murty, V. S. N.; Hall, Sarah B.

doi:10.3390/rs15143474

Remote Sensing

2023

DOI: 10.3390/rs15143474

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Characteristics of Internal Tides from ECCO Salinity Estimates and Observations in the Bay of Bengal

Bulusu Subrahmanyam

V. S. N. Murty

Sarah B. Hall

Abstract: Internal waves (IWs) are generated in all the oceans, and their amplitudes are large, especially in regions that receive a large amount of freshwater from nearby rivers, which promote highly stratified waters. When barotropic tides encounter regions of shallow bottom-topography, internal tides (known as IWs of the tidal period) are generated and propagated along the pycnocline due to halocline or thermocline. In the North Indian Ocean, the Bay of Bengal (BoB) and the Andaman Sea receive a large volume of fresh… Show more

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2024

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Cited by 1 publication

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Identification of Internal Tides in ECCO Estimates of Sea Surface Salinity in the Andaman Sea

Subrahmanyam,

Murty,

Hall

et al. 2024

Remote Sensing

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We used NASA’s high-resolution (1/48° or 2.3 km, hourly) Estimating the Circulation and Climate of the Ocean (ECCO) estimates of salinity at a 1 m depth from November 2011 to October 2012 to detect semi-diurnal and diurnal internal tides (ITs) in the Andaman Sea and determine their characteristics in three 2° × 2° boxes off the Myanmar coast (box A), central Andaman Sea (box B), and off the Thailand coast (box C). We also used observed salinity and temperature data for the above period at the BD12-moored buoy in the central Andaman Sea. ECCO salinity data were bandpass-filtered with 11–14 h and 22–26 h periods. Large variations in filtered ECCO salinity (~0.1 psu) in the boxes corresponded with near-surface imprints of propagating ITs. Observed data from the box B domain reveals strong salinity stratification (halocline) in the upper 40 m. Our analyses reveal that the shallow halocline affects the signatures of propagating semi-diurnal ITs reaching the surface, but diurnal ITs propagating in the halocline reach up to the surface and bring variability in ECCO salinity. In box A, the semi-diurnal IT characteristics are higher speeds (0.96 m/s) with larger wavelengths (45 km), that are closer to theoretical mode 2 estimates, but the diurnal ITs propagating in the box A domain, with a possible source over the shelf of Gulf of Martaban, attain lower values (0.45 m/s, 38 km). In box B, the propagation speed is lower (higher) for semi-diurnal (diurnal) ITs. Estimates for box C are closer to those for box A.

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Identification of Internal Tides in ECCO Estimates of Sea Surface Salinity in the Andaman Sea

Subrahmanyam,

Murty,

Hall

et al. 2024

Remote Sensing

View full text Add to dashboard Cite

show abstract

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Characteristics of Internal Tides from ECCO Salinity Estimates and Observations in the Bay of Bengal

Cited by 1 publication

References 60 publications

Identification of Internal Tides in ECCO Estimates of Sea Surface Salinity in the Andaman Sea

Identification of Internal Tides in ECCO Estimates of Sea Surface Salinity in the Andaman Sea

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