FN Archimer Export Format PT J TI A Model Investigation of the Influences of the South‐East Madagascar Current on the South‐East Madagascar Bloom BT AF Dilmahamod, A. F. Penven, Pierrick Aguiar‐González, B. Reason, C. J. C. Hermes, J. C. AS 1:1,2,3;2:2;3:3,4;4:1;5:1,3,5; FF 1:;2:;3:;4:;5:; C1 Department of Oceanography University of Cape Town Cape Town, South Africa Université de Bretagne Occidentale, CNRS, IRD,IfremerLaboratoire d'Océanographie Physique et Spatiale (LOPS), IUEM Brest ,France Egagasini Node South African Environmental Observation Network Cape Town, South Africa Departamento de Fisica, Facultad de Ciencias del Mar , Universidad de Las Palmas de Gran ,Canaria Las Palmas Spain Ocean Sciences Department Nelson Mandela University (NMU) Port Elizabeth, South Africa C2 UNIV CAPE TOWN, SOUTH AFRICA IRD, FRANCE SAEON, SOUTH AFRICA UNIV LAS PALMAS GRAN CANARIA, SPAIN UNIV NELSON MANDELA, SOUTH AFRICA UM LOPS IN WOS Cotutelle UMR copubli-europe copubli-int-hors-europe copubli-sud IF 3.405 TC 3 UR https://archimer.ifremer.fr/doc/00631/74325/73965.pdf LA English DT Article DE ;South-East Madagascar Bloom;South-West Indian Ocean;Phytoplankton Bloom;Biogeochemical Modeling;South-East Madagascar Current AB The South‐East Madagascar Bloom, one of the most compelling biogeochemical features of the Indian Ocean, occurs sporadically during austral summer in the oligotrophic waters south‐east of Madagascar, where it can cover up to 1% of the global ocean surface area. Its spatial extension and its timing are highly variable. A high‐resolution biophysical model is used to investigate a previous hypothesis that the onset of a particular circulation of the South‐East Madagascar Current advects fresher and nutrient‐rich waters eastward, feeding the bloom. The model is able to reproduce an intermittent phytoplankton bloom with large spatial variability but in the subsurface layers, as well as the presence of an irregular retroflection of the South‐East Madagascar Current. The simulated bloom occurs within a shallow stratified mixed layer, with fresher waters at the surface, parallel to the water mass in an observed bloom. The model results suggest, from a nutrient flux analysis, that horizontal advection of low‐salinity nutrient‐rich Madagascan coastal waters can indeed trigger a phytoplankton bloom. The coupled model is also able to resolve a bloom that is atmospherically forced by cyclonic activity. PY 2020 PD JUL SO Journal Of Geophysical Research-oceans SN 2169-9275 PU American Geophysical Union (AGU) VL 125 IS 6 UT 000549832900007 DI 10.1029/2019JC015761 ID 74325 ER EF