Near-surface trajectories off central and southern California

Citation
Cd. Winant et al., Near-surface trajectories off central and southern California, J GEO RES-O, 104(C7), 1999, pp. 15713-15726
Citations number
26
Categorie Soggetti
Earth Sciences
Journal title
JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS
ISSN journal
21699275 → ACNP
Volume
104
Issue
C7
Year of publication
1999
Pages
15713 - 15726
Database
ISI
SICI code
0148-0227(19990715)104:C7<15713:NTOCAS>2.0.ZU;2-9
Abstract
The near-surface circulation in the Santa Barbara Channel and off the coast of central and southern California is described based on 20 releases of dr ifters drogued 1 m beneath the surface from 12 sites within the channel at bimonthly intervals. This description includes small-scale features of the circulation which are not part of descriptions based on moored observations or of the statistics of the drifter releases. The eventual fate of drifter s at long time intervals compared to the residence time in the channel (abo ut 7 days) is also included. In the channel the trajectories document a per sistent cyclonic circulation with a typical recirculation period between 3 and 5 days. In the spring, currents near the mainland are weaker than near the Channel Islands, and the overall flow is toward the southeast. Trajecto ries document the possibility for water parcels to leave the channel throug h the interisland passes. In the late fall and winter a poleward flow with velocities often exceeding 0.5 m s(-1) is confined within 20 km of the main land. Between these two seasons the cyclonic tendency is enhanced, although most of the drifters eventually migrate westward. The trajectories of drif ters released at the same time from sites only 20 km apart can be remarkabl y different. Once the drifters migrate out of the channel, their trajectori es can be grouped into a few patterns. In spring and summer, drifters tend to remain in the Southern California Eight. Their trajectories often remain close over extended periods, as if they were caught in convergence zones. In fall the drifters often are caught in a poleward current.