Basinwide Integrated Volume Transports in an Eddy-Filled Ocean
The temporal evolution of the strength of the Atlantic Meridional Overturning Circulation (AMOC) in the subtropical North Atlantic is affected by both remotely forced, basin-scale meridionally coherent, climaterelevant transport anomalies, such as changes in high-latitude deep water formation rate...
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American Meteorological Society
2009
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my.unimas.ir.115412016-04-21T01:47:46Z http://ir.unimas.my/id/eprint/11541/ Basinwide Integrated Volume Transports in an Eddy-Filled Ocean Kanzow, T. Johnson, H.L. Marshall, D.P. Johns, W.E. Cunningham, S.A. Bryden, H.I Mujahid, A. Hirschi, J.J-M. GC Oceanography The temporal evolution of the strength of the Atlantic Meridional Overturning Circulation (AMOC) in the subtropical North Atlantic is affected by both remotely forced, basin-scale meridionally coherent, climaterelevant transport anomalies, such as changes in high-latitude deep water formation rates, and locally forced transport anomalies, such as eddies or Rossby waves, possibly associated with small meridional coherence scales, which can be considered as noise. The focus of this paper is on the extent to which local eddies and Rossby waves when impinging on the western boundary of the Atlantic affect the temporal variability of the AMOC at 26.58N. Continuous estimates of the AMOC at this latitude have been made since April 2004 by combining the Florida Current, Ekman, and midocean transports with the latter obtained from continuous density measurements between the coasts of the Bahamas and Morocco, representing, respectively, the western and eastern boundaries of the Atlantic at this latitude. Within 100 km of the western boundary there is a threefold decrease in sea surface height variability toward the boundary, observed in both dynamic heights from in situ density measurements and altimetric heights. As a consequence, the basinwide zonally integrated upper midocean transport shallower than 1000 m—as observed continuously between April 2004 and October 2006—varies by only 3.0 Sv (1 Sv [ 106 m3 s21) RMS. Instead, upper midocean transports integrated from western boundary stations 16, 40, and 500 km offshore to the eastern boundary vary by 3.6, 6.0, and 10.7 Sv RMS, respectively. The reduction in eddy energy toward the western boundary is reproduced in a nonlinear reduced-gravity model suggesting that boundary-trappedwavesmay account for the observed decline in variability in the coastal zone because they provide a mechanism for the fast equatorward export of transport anomalies associated with eddies impinging on the western boundary.An analyticalmodel of linearRossbywaves suggests a simple scaling for the reduction in thermocline thickness variability toward the boundary. Physically, the reduction in amplitude is understood as along-boundary pressure gradients accelerating the fluid and rapidly propagating pressure anomalies along the boundary. The results suggest that the local eddy field does not dominate upper midocean transport or AMOC variability at 26.58N on interannual to decadal time scales. American Meteorological Society 2009 E-Article PeerReviewed text en http://ir.unimas.my/id/eprint/11541/1/Basinwide%20Integrated%20Volume%20Transports%20%28abstract%29.pdf Kanzow, T. and Johnson, H.L. and Marshall, D.P. and Johns, W.E. and Cunningham, S.A. and Bryden, H.I and Mujahid, A. and Hirschi, J.J-M. (2009) Basinwide Integrated Volume Transports in an Eddy-Filled Ocean. Journal of Physical Oceanography, 39 (12). ISSN 1520-0485 http://dx.doi.org/10.1175/2009JPO4185.1 |
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GC Oceanography Kanzow, T. Johnson, H.L. Marshall, D.P. Johns, W.E. Cunningham, S.A. Bryden, H.I Mujahid, A. Hirschi, J.J-M. Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| description |
The temporal evolution of the strength of the Atlantic Meridional Overturning Circulation (AMOC) in the
subtropical North Atlantic is affected by both remotely forced, basin-scale meridionally coherent, climaterelevant
transport anomalies, such as changes in high-latitude deep water formation rates, and locally forced
transport anomalies, such as eddies or Rossby waves, possibly associated with small meridional coherence
scales, which can be considered as noise. The focus of this paper is on the extent to which local eddies and
Rossby waves when impinging on the western boundary of the Atlantic affect the temporal variability of the
AMOC at 26.58N. Continuous estimates of the AMOC at this latitude have been made since April 2004 by
combining the Florida Current, Ekman, and midocean transports with the latter obtained from continuous
density measurements between the coasts of the Bahamas and Morocco, representing, respectively, the
western and eastern boundaries of the Atlantic at this latitude.
Within 100 km of the western boundary there is a threefold decrease in sea surface height variability toward
the boundary, observed in both dynamic heights from in situ density measurements and altimetric heights. As
a consequence, the basinwide zonally integrated upper midocean transport shallower than 1000 m—as observed
continuously between April 2004 and October 2006—varies by only 3.0 Sv (1 Sv [ 106 m3 s21) RMS.
Instead, upper midocean transports integrated from western boundary stations 16, 40, and 500 km offshore to
the eastern boundary vary by 3.6, 6.0, and 10.7 Sv RMS, respectively.
The reduction in eddy energy toward the western boundary is reproduced in a nonlinear reduced-gravity
model suggesting that boundary-trappedwavesmay account for the observed decline in variability in the coastal
zone because they provide a mechanism for the fast equatorward export of transport anomalies associated with
eddies impinging on the western boundary.An analyticalmodel of linearRossbywaves suggests a simple scaling
for the reduction in thermocline thickness variability toward the boundary. Physically, the reduction in amplitude
is understood as along-boundary pressure gradients accelerating the fluid and rapidly propagating
pressure anomalies along the boundary. The results suggest that the local eddy field does not dominate upper
midocean transport or AMOC variability at 26.58N on interannual to decadal time scales. |
| format |
E-Article |
| author |
Kanzow, T. Johnson, H.L. Marshall, D.P. Johns, W.E. Cunningham, S.A. Bryden, H.I Mujahid, A. Hirschi, J.J-M. |
| author_facet |
Kanzow, T. Johnson, H.L. Marshall, D.P. Johns, W.E. Cunningham, S.A. Bryden, H.I Mujahid, A. Hirschi, J.J-M. |
| author_sort |
Kanzow, T. |
| title |
Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| title_short |
Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| title_full |
Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| title_fullStr |
Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| title_full_unstemmed |
Basinwide Integrated Volume Transports in an Eddy-Filled Ocean |
| title_sort |
basinwide integrated volume transports in an eddy-filled ocean |
| publisher |
American Meteorological Society |
| publishDate |
2009 |
| url |
http://ir.unimas.my/id/eprint/11541/1/Basinwide%20Integrated%20Volume%20Transports%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/11541/ http://dx.doi.org/10.1175/2009JPO4185.1 |
| _version_ |
1644511240127512576 |
| score |
13.209306 |