Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/72507
Title: Two Modes of Gulf Stream Variability Revealed in the Last Two Decades of Satellite Altimeter Data
Authors: Pérez Hernández, María Dolores 
Joyce, Terrence M.
Keywords: North-Atlantic Oscillation
Western Boundary Current
Cape-Hatteras
Circulation Models
Propagation, et al
Issue Date: 2014
Journal: Journal of Physical Oceanography 
Abstract: Monthly mapped sea level anomalies (MSLAs) of the NW Atlantic in the region immediately downstream of the Gulf Stream (GS) separation point reveal a leading mode in which the path shifts approximately 100 km meridionally about a nominal latitude of 39 degrees N, producing coherent sea level anomaly (SLA) variability from 72 degrees to 50 degrees W. This mode can be captured by use of a simple 16-point index based on SLA data taken along the maximum of the observed variability in the region 33 degrees-46 degrees N and 45 degrees-75 degrees W. The GS shifts between 2010 and 2012 are the largest of the last decade and equal to the largest of the entire record. The second group of EOF modes of variability describes GS meanders, which propagate mainly westward interrupted by brief periods of eastward or stationary meanders. These meanders have wavelengths of approximately 400 km and can be seen in standard EOFs by spatial phase shifting of a standing meander pattern in the SLA data. The spectral properties of these modes indicate strong variability at interannual and longer periods for the first mode and periods of a few to several months for the meanders. While the former is quite similar to a previous use of the altimeter for GS path, the simple index is a useful measure of the large-scale shifts in the GS path that is quickly estimated and updated without changes in previous estimates. The time-scale separation allows a low-pass filtered 16-point index to be reflective of large-scale, coherent shifts in the GS path.
URI: http://hdl.handle.net/10553/72507
ISSN: 0022-3670
DOI: 10.1175/JPO-D-13-0136.1
Source: Journal Of Physical Oceanography [ISSN 0022-3670], v. 44 (1), p. 149-163, (Enero 2014)
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