Impact of local and remote winds on the shelf circulation off the central west coast of India

A linear coastal-trapped-wave (CTW) model is used to examine the effects of large-scale winds, with time scale ranging from a few days to a few weeks, on the West India Coastal Current (WICC), particularly on the shelf off the central west coast of India. We show that unlike the seasonal cycle of WI...

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Bibliographic Details
Published in:Ocean dynamics 2018-12, Vol.68 (12), p.1607-1623
Main Authors: Amol, Prakash, Vijith, Vijayakumaran, Fernando, Vijayan, Pednakar, Premanand, Singh, Jai
Format: Article
Language:English
Subjects:
Amplitude
Amplitudes
Atmospheric Sciences
Coastal currents
Coasts
Earth and Environmental Science
Earth Sciences
Fluid- and Aerodynamics
Geophysics/Geodesy
Local winds
Mathematical models
Monitoring/Environmental Analysis
Numerical experiments
Oceanography
Sea level
Seasonal variation
Shelf dynamics
Superposition (mathematics)
Wind effects
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Description
Summary:A linear coastal-trapped-wave (CTW) model is used to examine the effects of large-scale winds, with time scale ranging from a few days to a few weeks, on the West India Coastal Current (WICC), particularly on the shelf off the central west coast of India. We show that unlike the seasonal cycle of WICC, which is primarily forced by the winds along the east coast of India, the high-frequency WICC is mostly driven by the west-coast winds. Nevertheless, the influence of winds as far as Sri Lanka and east coast of India cannot be neglected. Simple numerical experiments with the CTW model show that the strong current observed at Goa (15° N) compared to Bhatkal (13° N) and Jaigarh (17° N) is due to two factors: (1) the superposition of local and remote CTWs and (2) the widening of shelf width north of Goa, which decreases the amplitude of the currents poleward of Goa. If the local winds are weak, the amplitude of current decreases poleward due to friction, and the current at the south leads the north. We also note that the observed phase difference between sea level and alongshore current at Goa could be attributed to the propagation of remotely forced higher-order modes of CTWs.
ISSN:1616-7341
1616-7228
DOI:10.1007/s10236-018-1211-3