info:eu-repo/semantics/article
Meridional Overturning Circulation Transport Variability at 34.5°S During 2009–2017: Baroclinic and Barotropic Flows and the Dueling Influence of the Boundaries
Fecha
2018-05Registro en:
Meinen, Christopher S.; Speich, Sabrina; Piola, Alberto Ricardo; Ansorge, Isabelle; Campos, Edmo; et al.; Meridional Overturning Circulation Transport Variability at 34.5°S During 2009–2017: Baroclinic and Barotropic Flows and the Dueling Influence of the Boundaries; American Geophysical Union; Geophysical Research Letters; 45; 9; 5-2018; 4180-4188
0094-8276
CONICET Digital
CONICET
Autor
Meinen, Christopher S.
Speich, Sabrina
Piola, Alberto Ricardo
Ansorge, Isabelle
Campos, Edmo
Kersalé, Marion
Terre, Thierry
Chidichimo, María Paz
Lamont, Tarron
Sato, Olga T.
Perez, Renellys C.
Valla, Daniel
van den Berg, Marcel
Le Hénaff, Matthieu
Dong, Shenfu
Garzoli, Silvia L.
Resumen
Six years of simultaneous moored observations near the western and eastern boundaries of the South Atlantic are combined with satellite winds to produce a daily time series of the basin-wide meridional overturning circulation (MOC) volume transport at 34.5°S. The results demonstrate that barotropic and baroclinic signals at both boundaries cause significant transport variations, and as such must be concurrently observed. The data, spanning ~20 months during 2009–2010 and ~4 years during 2013–2017, reveal a highly energetic MOC record with a temporal standard deviation of 8.3 Sv, and strong variations at time scales ranging from a few days to years (peak-to-peak range = 54.6 Sv). Seasonal transport variations are found to have both semiannual (baroclinic) and annual (Ekman and barotropic) timescales. Interannual MOC variations result from both barotropic and baroclinic changes, with density profile changes at the eastern boundary having the largest impact on the year-to-year variations.