Abstract
In the north Indian Ocean (NIO), maps of sea level anomaly from satellite altimetry were analysed from January-1995 to December-2000. The study attempted to trace the trajectories of the individual mesoscale anomalies manually and to understand seasonal changes in terms of phase speed. Mesoscale anomalies are detected as concentric circular shapes and diameters of ~90 km to 600 km and the minimum 30 days life cycle. Relatively higher eddy kinetic energy was noticed in the northwestern region of the NIO. Individual mesoscale anomalies, namely positive (warm, anticyclonic eddies) and negative (cold, cyclonic eddies) showing travelling direction westward in the NIO basins. In autumn, the number of negative anomalies detected is more than positive anomalies and vice versa during summer. The westward propagating positive (negative) anomalies in the Arabian Sea start appearing in winter (spring) along (away from) the west coast of India and west of 65°E; individual anomalies move to the west in spring/summer/autumn and collide along Somalia’s & Arabian coast. A group of positive (negative) anomalies trajectories appears as a tail at the southern tip of India are located west of the Laccadive ridge in winter (summer to autumn) associated with LH (LL). The Bay of Bengal (BB) trajectories show southwestward in northern BB, westward in central BB and northwestward in southern BB; individual anomalies are appearing along the west coast of Andaman & Nicobar ridge. The zonal phase speed decreases away from the equator, and the magnitude varies longitudinally in each season in the form of a wave-like pattern propagating westward from autumn to summer; the life cycle of the wave is almost 365 days (a year). The theoretical phase speed of the first mode of the baroclinic Rossby waves is quite similar to that of averaged zonal speed. Therefore mesoscale anomalies (eddies) are embedded into the large waves like phenomenon (Rossby waves), responsible for creating high variability and EKE in the region of NIO along the western boundaries.
Highlights
The North Indian Ocean (NIO) is unique as compared with the other major oceans
A group of positive anomalies trajectories observed at the southern tip of India and west of Laccadive Ridge during winter to spring could be associated with Laccadive High (LH)
The group of negative anomalies trajectories appears generating at the southern tip of India during summer, and intensify in autumn could be associated with the LL
Summary
The North Indian Ocean (NIO) is unique as compared with the other major oceans. The seasonal reversing of monsoon winds drives the oceanic currents in the upper ocean. This different atmospheric forcing produces dramatic changes in physical, chemical, and biological characteristics in the top layers of the water column [2] [3] [4]. During transition periods between monsoons (March to May and September to November), an eastward equatorial jet (EJ [7]) develops along the equator.
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