Chung-Chieng Lai scite author profile

Multiple equilibria as well as periodic and aperiodic solution regimes are obtained in a barotropic model of the midlatitude oceann s double-gyre circulation. The model circulation is driven by a zonal wind profile that is symmetric with respect to the square basin's zonal axis of North-South symmetry, and dissipated by lateral friction. As the intensity of the wind forcing increases, an antisymmetric double-gyre flow evolves through a pitchfork bifurcation into a pair of mirror-symmetric solutions in which either the subtropical or the subpolar gyre dominates. In either one of the two asymmetric solutions, a pair of intense recirculation vortices forms close to and on either side of the point where the two western boundary currents merge to form the eastward jet. To the east of this dipole, a spatially damped stationary wave arises, and an increase in the forcing amplifies the meander immediately to the east of the recirculating vortices. During this process, the transport of the weaker gyre remains nearly constant while the transport of the stronger gyre increases. For even stronger forcing, the two steady solution branches undergo Hopf bifurcation, and each asymmetric solution gives rise to an oscillatory mode, whose subannual period is of 3.5-6 months. These two modes are also mirror-symmetric in space. The time-average difference in transport between the stronger and the weaker gyre is reduced as the forcing increases further, while the weaker gyre tends to oscillate with larger amplitude than the stronger gyre. Once the average strength of the weaker gyre on each branch equals the stronger gyree s, the solution becomes aperiodic. The subannual oscillations persist and stay fairly regular in the aperiodic solution regime, but they alternate now with a new and highly energetic, interannual oscillation. The physical causes of these two oscillations-as well as of a third, 19-day oscillation-are discussed. During episodes of the high-amplitude, interannual oscillation, the solution exhibits phases of either the subtropical or subpolar gyree s being dominant. Even lower-frequency, interdecadal variability arises due to an irregular alternation between subannual and interannual modes of oscillation. 3

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Motorization of China implies changes in Pacific air chemistry and primary production

Elliott¹,

Blake²,

Duce³

et al. 1997

Geophysical Research Letters

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A Technique for Diagnosing Three-Dimensional Ageostrophic Circulations in Baroclinic Disturbances on Limited-Area Domains

1995

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The Synoptic and Subsynoptic Structure of a Long-Lived Severe Convective System

Branick¹,

Vitale²,

Lai³

et al. 1988

Mon. Wea. Rev.

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A Case Study of Trough Merger In Split Westerly Flow

Lai¹,

Bosart²

1988

Mon. Wea. Rev.

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Chung-Chieng Lai

Transition to Aperiodic Variability in a Wind-Driven Double-Gyre Circulation Model

Motorization of China implies changes in Pacific air chemistry and primary production

A Technique for Diagnosing Three-Dimensional Ageostrophic Circulations in Baroclinic Disturbances on Limited-Area Domains

The Synoptic and Subsynoptic Structure of a Long-Lived Severe Convective System

A Case Study of Trough Merger In Split Westerly Flow

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