Observed Diurnal Cycles of Near-Surface Shear and Stratification in the Equatorial Atlantic and Their Wind Dependence - Equipe TIM du laboratoire LEGOS
Article Dans Une Revue Journal of Geophysical Research. Oceans Année : 2024

Observed Diurnal Cycles of Near-Surface Shear and Stratification in the Equatorial Atlantic and Their Wind Dependence

Résumé

The diurnal cycles of near-surface velocity and temperature, also known as diurnal jet and diurnal warm layer (DWL), are ubiquitous in the tropical oceans, affecting the heat and momentum budget of the ocean surface layer, air-sea interactions, and vertical mixing. Here, we analyze the presence and descent of near-surface diurnal shear and stratification in the upper 20 m of the equatorial Atlantic as a function of wind speed using ocean current velocity and hydrographic data taken during two trans-Atlantic cruises along the equator in October 2019 and May 2022, data from three types of surface drifters, and data from Prediction and Research Moored Array in the Tropical Atlantic (PIRATA) moorings along the equator. The observations during two seasons with similar mean wind speeds but varying surface heat fluxes reveal similar diurnal jets with an amplitude of about 0.11 m s−1 and similar DWLs when averaging along the equator. We find that higher wind speeds lead to earlier diurnal peaks, deeper penetration depths, and faster descent rates of DWL and diurnal jet. While the diurnal amplitude of stratification is maximum for minimal wind speeds, the diurnal amplitude of shear is maximum at 6 m depth for moderate wind speeds of about 5 m s−1. The inferred wind dependence of the descent rates of DWL and diurnal jet is consistent with the earlier onset of deep-cycle turbulence for higher wind speeds. The DWL and the diurnal jet not only trigger deep-cycle turbulence but are also observed to modify the wind power input and thus the amount of energy available for mixing.
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insu-04721357 , version 1 (04-10-2024)

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A. C. Hans, P. Brandt, F. Gasparin, M. Claus, Sophie Cravatte, et al.. Observed Diurnal Cycles of Near-Surface Shear and Stratification in the Equatorial Atlantic and Their Wind Dependence. Journal of Geophysical Research. Oceans, 2024, 129, ⟨10.1029/2023JC020870⟩. ⟨insu-04721357⟩
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