Contribution of Atmospheric Forcing to Cooling of the Arabian Sea during Onset of the Southwest Monsoon.

Abstract

Rapid cooling of the mixed layer in the Arabian Sea during the southwest monsoon onset is examined. The atmospheric forcing fieldss over the Arabian Sea during the onsets in 1979, 1984 and 1985 are analyzed. Realistic wind speed and evaporative heat flux increases occur soon after onset. The solar radiation flux analyses suggest that both the Navy Operational Global Atmospheric Prediction (NOGAP) System and the NASA four-dimensional data assimilation models are too simplistic for accurate solar radiation flux calculations in the tropics. The solar radiation fluxes appear to be too low during the pre-onset periods and too high during the post-onset periods. The atmospheric forcing fields are then applied to a one-dimensional, ocean mixed layer model at four locations. The magnitude of the predicted sea-surface temperature decrease is 0.5 to 1.0 C during the 1984 and 1985 monsoon onsets. Results suggest that local atmospheric forcing accounts for most of the mixed layer cooling on a time scale of less than ten days and away from any major ocean current regions. The direct heat loss to the atmosphere contributes more to cooling of the mixed layer than does entrainment mixing at the base of the layer. Keywords: Mixed layer(Marine); Mixed layer cooling; Garwood ocean mixed layer model; Southwest monsoon onset.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1986

Accession Number

ADA173590

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