A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa

The West African seaboard is one of the upwelling sectors that has received the least attention, and in situ observations relevant to its dynamics are particularly scarce. The current system in this sector is not well known and understood, e.g., in terms of seasonal variability, across-shore structu...

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Main Authors: Kounta, L., Capet, X., /Jouanno, Julien, Kolodziejczyk, N., Sow, B., Gaye, A. T.
Format: Text
Language:English
Published: 2018
Subjects:
North Atlantic
Online Access:https://www.documentation.ird.fr/hor/fdi:010074013
id ftird:oai:ird.fr:fdi:010074013
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010074013 2024-09-15T18:24:23+00:00 A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa Kounta, L. Capet, X. /Jouanno, Julien Kolodziejczyk, N. Sow, B. Gaye, A. T. ATLANTIQUE NORD ZONE TROPICALE AFRIQUE DE L'OUEST 2018 https://www.documentation.ird.fr/hor/fdi:010074013 EN eng https://www.documentation.ird.fr/hor/fdi:010074013 oai:ird.fr:fdi:010074013 Kounta L., Capet X., Jouanno Julien, Kolodziejczyk N., Sow B., Gaye A. T. A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa. 2018, 14 (5), p. 971-997 text 2018 ftird 2024-08-15T05:57:41Z The West African seaboard is one of the upwelling sectors that has received the least attention, and in situ observations relevant to its dynamics are particularly scarce. The current system in this sector is not well known and understood, e.g., in terms of seasonal variability, across-shore structure, and forcing processes. This knowledge gap is addressed in two studies that analyze the mean seasonal cycle of an eddy-permitting numerical simulation of the tropical Atlantic. Part 1 is concerned with the circulation over the West African continental slope at the southernmost reach of the Canary Current system, between similar to 8 and 20 degrees N. The focus is on the depth range most directly implicated in the wind-driven circulation (offshore and coastal upwellings and Sverdrup transport) located above the potential density sigma(t) = 26.7 kg M-3 in the model (approx. above 250 m of depth). In this sector and for this depth range, the flow is predominantly poleward as a direct consequence of positive wind stress curl forcing, but the degree to which the magnitude of the upper ocean poleward transport reflects Sverdrup theory varies with latitude. The model poleward flow also exhibits a marked semiannual cycle with transport maxima in spring and fall. Dynamical rationalizations of these characteristics are offered in terms of wind forcing of coastal trapped waves and Rossby wave dynamics. Remote forcing by seasonal fluctuations of coastal winds in the Gulf of Guinea plays an instrumental role in the fall intensification of the poleward flow. The spring intensification appears to be related to wind fluctuations taking place at shorter distances north of the Gulf of Guinea entrance and also locally. Rossby wave activity accompanying the semiannual fluctuations of the poleward flow in the coastal waveguide varies greatly with latitude, which in turn exerts a major influence on the vertical structure of the poleward flow. Although the realism of the model West African boundary currents is difficult to determine ... Text North Atlantic IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description The West African seaboard is one of the upwelling sectors that has received the least attention, and in situ observations relevant to its dynamics are particularly scarce. The current system in this sector is not well known and understood, e.g., in terms of seasonal variability, across-shore structure, and forcing processes. This knowledge gap is addressed in two studies that analyze the mean seasonal cycle of an eddy-permitting numerical simulation of the tropical Atlantic. Part 1 is concerned with the circulation over the West African continental slope at the southernmost reach of the Canary Current system, between similar to 8 and 20 degrees N. The focus is on the depth range most directly implicated in the wind-driven circulation (offshore and coastal upwellings and Sverdrup transport) located above the potential density sigma(t) = 26.7 kg M-3 in the model (approx. above 250 m of depth). In this sector and for this depth range, the flow is predominantly poleward as a direct consequence of positive wind stress curl forcing, but the degree to which the magnitude of the upper ocean poleward transport reflects Sverdrup theory varies with latitude. The model poleward flow also exhibits a marked semiannual cycle with transport maxima in spring and fall. Dynamical rationalizations of these characteristics are offered in terms of wind forcing of coastal trapped waves and Rossby wave dynamics. Remote forcing by seasonal fluctuations of coastal winds in the Gulf of Guinea plays an instrumental role in the fall intensification of the poleward flow. The spring intensification appears to be related to wind fluctuations taking place at shorter distances north of the Gulf of Guinea entrance and also locally. Rossby wave activity accompanying the semiannual fluctuations of the poleward flow in the coastal waveguide varies greatly with latitude, which in turn exerts a major influence on the vertical structure of the poleward flow. Although the realism of the model West African boundary currents is difficult to determine ...
format Text
author Kounta, L.
Capet, X.
/Jouanno, Julien
Kolodziejczyk, N.
Sow, B.
Gaye, A. T.
spellingShingle Kounta, L.
Capet, X.
/Jouanno, Julien
Kolodziejczyk, N.
Sow, B.
Gaye, A. T.
A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
author_facet Kounta, L.
Capet, X.
/Jouanno, Julien
Kolodziejczyk, N.
Sow, B.
Gaye, A. T.
author_sort Kounta, L.
title A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
title_short A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
title_full A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
title_fullStr A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
title_full_unstemmed A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa
title_sort model perspective on the dynamics of the shadow zone of the eastern tropical north atlantic. part 1 : the poleward slope currents along west africa
publishDate 2018
url https://www.documentation.ird.fr/hor/fdi:010074013
op_coverage ATLANTIQUE NORD
ZONE TROPICALE
AFRIQUE DE L'OUEST
genre North Atlantic
genre_facet North Atlantic
op_relation https://www.documentation.ird.fr/hor/fdi:010074013
oai:ird.fr:fdi:010074013
Kounta L., Capet X., Jouanno Julien, Kolodziejczyk N., Sow B., Gaye A. T. A model perspective on the dynamics of the shadow zone of the eastern tropical North Atlantic. Part 1 : the poleward slope currents along West Africa. 2018, 14 (5), p. 971-997
_version_ 1810464717006700544

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