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Seasonal variability of the mixed layer depth in the Mediterranean Sea as derived from in situ profiles (2005)

D'Ortenzio, Fabrizio

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In: Geophysical research letters, Hoboken, NJ : Wiley, 1974, 32(2005), 1944-8007

In: volume:32

In: year:2005

In: extent:4

Description / Table of Contents: A new 0.5° resolution Mediterranean climatology of the mixed layer depth based on individual profiles of temperature and salinity has been constructed. The criterion selected is a threshold value of temperature from a near-surface value at 10 m depth, mainly derived by a method applied on the global (de Boyer Montégut et al., 2004 dBM04). With respect to dBM04, the main differences reside in the absence of spatial interpolation of the final fields and in the improved spatial resolution. These changes to the method are necessary to reproduce the Mediterranean mixed layer's behavior. In the derived climatological maps, the most relevant features of the basin surface circulation are reproduced, as well as the areas prone of the deep water formation are clearly identified. Finally, the role of density in the definition of the mixed layer's differing behaviors between the oriental and the occidental regions of the basin is presented.

Type of Medium: Online Resource

Pages: 4 , graph. Darst

ISSN: 1944-8007

DOI: 10.1029/2005GL022463

Language: English

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Causes of InterannualDecadal Variability in the Meridional Overturning Circulation of the Midlatitude North Atlantic Ocean (2008)

Biastoch, Arne

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In: Journal of climate, Boston, Mass. [u.a.] : AMS, 1988, 21(2008), 24, Seite 6599-6615, 1520-0442

In: volume:21

In: year:2008

In: number:24

In: pages:6599-6615

Description / Table of Contents: The causes and characteristics of interannualdecadal variability of the meridional overturning circulation (MOC) in the North Atlantic are investigated with a suite of basin-scale ocean models [the Family of Linked Atlantic Model Experiments (FLAME)] and global oceanice models (ORCA), varying in resolution from medium to eddy resolving (1/2ʿ1/12ʿ), using various forcing configurations built on bulk formulations invoking atmospheric reanalysis products. Comparison of the model hindcasts indicates similar MOC variability characteristics on time scales up to a decade; both model architectures also simulate an upward trend in MOC strength between the early 1970s and mid-1990s. The causes of the MOC changes are examined by perturbation experiments aimed selectively at the response to individual forcing components. The solutions emphasize an inherently linear character of the midlatitude MOC variability by demonstrating that the anomalies of a (noneddy resolving) hindcast simulation can be understood as a superposition of decadal and longer-term signals originating from thermohaline forcing variability, and a higher-frequency wind-driven variability. The thermohaline MOC signal is linked to the variability in subarctic deep-water formation, and rapidly progressing to the tropical Atlantic. However, throughout the subtropical and midlatitude North Atlantic, this signal is effectively masked by stronger MOC variability related to wind forcing and, especially north of 30ʿ-35ʿN, by internally induced (eddy) fluctuations.