Ngakala R. D., Alory G., Da-Allada C. Y., Dadou I., Cardot C., Morvan Guillaume, Jouanno Julien, Illig Serena, Baloïtcha E. (2025). Seasonal mixed layer temperature in the Congolese upwelling system. Journal of Geophysical Research : Oceans, 130 (1), p. e2023JC020528 [20 p.]. ISSN 2169-9275.
Titre du document
Seasonal mixed layer temperature in the Congolese upwelling system
Année de publication
2025
Auteurs
Ngakala R. D., Alory G., Da-Allada C. Y., Dadou I., Cardot C., Morvan Guillaume, Jouanno Julien, Illig Serena, Baloïtcha E.
Source
Journal of Geophysical Research : Oceans, 2025,
130 (1), p. e2023JC020528 [20 p.] ISSN 2169-9275
The Congolese upwelling system (CoUS), located along the West African coast north of the Congo River, is one of the most productive and least studied systems in the Gulf of Guinea. The minimum sea surface temperature in the CoUS occurs in austral winter, when the winds are weak and not particularly favorable to coastal upwelling. Here, for the first time, we use a high-resolution regional ocean model to identify the key atmospheric and oceanic processes that control the seasonal evolution of the mixed layer temperature in a 1 degrees-wide coastal band from 6 degrees S to 4 degrees S. The model is in good agreement with observations on seasonal timescales, and in particular, it realistically reproduces the signature of the surface upwelling during the austral winter, the shallow mixed layer due to salinity stratification, and the signature of coastal wave propagation. The analysis of the mixed layer heat budget for the year 2016 reveals a competition between warming by air-sea fluxes, dominated by the incoming shortwave radiation throughout the year, and cooling by vertical mixing at the base of the mixed layer, as other tendency terms remain weak. The seasonal cooling is induced by vertical mixing, where local wind-driven dynamics play a secondary role compared to subsurface processes. A subsurface analysis shows that remotely forced coastal-trapped waves raise the thermocline from April to August, which strengthens the vertical temperature gradient at the base of the mixed layer and leads to the mixing-induced seasonal cooling in the Congolese upwelling system.
Plan de classement
Limnologie physique / Océanographie physique [032]
Description Géographique
GOLFE DE GUINEE ; ATLANTIQUE ; AFRIQUE DE L'OUEST ; CONGO COURS D'EAU
Localisation
Fonds IRD [F B010092635]
Identifiant IRD
fdi:010092635
