Abstract
The Bay of Bengal (BoB) is a distinct oceanic region for mesoscale oceanic eddies. The sea level anomaly from the Archiving, Validation, and Interpretation of Satellite Oceanographic (AVISO) help to identify an unusual anti-cyclonic eddy (ACE) over head BoB during May-July 2014. Two Indian moored buoys (BD08 and BD09) located over this region aided to study the subsurface thermohaline structures of the ACE. Compared to no-eddy environment, the temperature and salinity showed an increment of similar to 3-4 degrees C and similar to 1-2 PSU, respectively, during the ACE life period. The temperature and depth of the isothermal layer at genesis (peak) stages are increased to similar to 30 degrees C (similar to 30.7 degrees C) and similar to 20m (30m) when compared with no-eddy conditions (28.2 degrees C and 10m). The thermocline depth is deepened to 75m at the peak stage, while it is 50m in no-eddy condition. A temperature difference of 3 degrees C between no-eddy and peak stages of ACE is observed up to 50m. The ocean heat content (OHC) at BD08 (BD09) during genesis and peak stages has increased by similar to 72% (similar to 50%) and similar to 247% (similar to 181%), respectively, when compared with no-eddy conditions. Moreover, the MOHC also shows a similar increment of similar to 125% (similar to 123%) and similar to 258% (similar to 284%), respectively. A noticeable influence is seen in turbulent fluxes and lower atmospheric variables during eddy life. This study highlights the capability of moored buoys in understanding the subsurface thermohaline features of the eddies over northern BoB.