期刊
JOURNAL OF PHYSICAL OCEANOGRAPHY
卷 44, 期 1, 页码 246-264出版社
AMER METEOROLOGICAL SOC
DOI: 10.1175/JPO-D-13-073.1
关键词
Geographic location; entity; Atlantic Ocean; Circulation; Dynamics; Ocean circulation; Ocean dynamics; Atm; Ocean Structure; Phenomena; Gyres; Variability; Oceanic variability
类别
资金
- European Commission under the Marie Curie Intra-European Fellowship ECLIPS [PIEF-GA-2011-300544]
- National Centre for Excellence in Research: Climate of the Swiss National Science Foundation
The cyclonic circulation of the Atlantic subpolar gyre is a key mechanism for North Atlantic climate variability on a wide range of time scales. It is generally accepted that it is driven by both cyclonic winds and buoyancy forcing, yet the individual importance and dynamical interactions of the two contributions remain unclear. The authors propose a simplified four-box model representing the convective basin of the Labrador Sea and its shallow and deep boundary current system, the western subpolar gyre. Convective heat loss drives a baroclinic flow of relatively light water around the dense center. Eddy salt flux from the boundary current to the center increases with a stronger circulation, favors the formation of dense waters, and thereby sustains a strong baroclinic flow, approximately 10%-25% of the total. In contrast, when the baroclinic flow is not active, surface waters may be too fresh to convect, and a buoyancy-driven circulation cannot develop. This situation corresponds to a second stable circulation mode. A hysteresis is found for variations in surface freshwater flux and the salinity of the near-surface boundary current. An analytical solution is presented and analyzed.
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