one publication added to basket [353047] | Where and how the East Madagascar Current retroflection originates?
Ramanantsoa, J.D.; Penven, P.; Raj, R.P.; Renault, L.; Ponsoni, L.; Ostrowski, M.; Dilmahamod, A.F.; Rouault, M. (2021). Where and how the East Madagascar Current retroflection originates? JGR: Oceans 126(11): e2020JC016203. https://dx.doi.org/10.1029/2020JC016203 In: Journal of Geophysical Research-Oceans. AMER GEOPHYSICAL UNION: Washington. ISSN 2169-9275; e-ISSN 2169-9291, more | |
Keyword | | Author keywords | EMC; retroflection; eddies; SICC; bloom phytoplankton; Indian Ocean |
Authors | | Top | - Ramanantsoa, J.D.
- Penven, P.
- Raj, R.P.
- Renault, L.
| - Ponsoni, L., more
- Ostrowski, M.
- Dilmahamod, A.F.
- Rouault, M.
| |
Abstract | The East Madagascar Current (EMC) is one of the western boundary currents of the South Indian Ocean. As such, it plays an important role in the climate system by transporting water and heat toward the pole and recirculating to the large-scale Indian Ocean through retroflection modes of its southern extension. Five cruise data sets and remote sensing data from different sensors are used to identify three states of the southern extension of the EMC: early retroflection, canonical retroflection, and no retroflection. Retroflections occur 47% of the time. EMC strength regulates the retroflection state, although impinged mesoscale eddies also contribute to retroflection formation. Early retroflection is linked with EMC volume transport. Anticyclonic eddies drifting from the central Indian Ocean to the coast favor early retroflection formation, anticyclonic eddies near the southern tip of Madagascar promote the generation of canonical retroflection, and no retroflection appears to be associated with a lower eddy kinetic energy (EKE). Knowledge of the EMC retroflection state could help predict (a) coastal upwelling south of Madagascar, (b) the southeastern Madagascar phytoplankton bloom, and (c) the formation of the South Indian Ocean Counter Current (SICC). |
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