FN Archimer Export Format
PT J
TI Experimental study of the Alboran Sea gyres
BT 
AF GLEIZON, P
   DHIERES, GC
   RENOUARD, D
AS 1:;2:;3:;
FF 1:;2:;3:;
IF 0.662
TC 17
UR https://archimer.ifremer.fr/doc/00096/20720/18357.pdf
LA English
DT Article
DE ;Alboran Sea;gyre;jet;strait;physical modelling
AB In order to examine the response of the surface flow to the regime in the Gibraltar Strait, the Alboran Sea is modelled in a large rotating channel mounted on the 14 m ''Coriolis'' rotating platform. The channel is divided into two basins connected by a strait. The currents are initialized and maintained constant in time by pumps. When flowing out of the strait, the Atlantic current forms an anticyclonic gyre in the Mediterranean basin. This gyre is related to the Western Alboran Sea Gyre and can develop until its diameter is as large as the width of the basin. Depending on the parameters, the flow exhibits different configurations, which we are able to characterize with the use of tracers (food dye, floats). A very consistent result is that the flow seems to be deterministic, i.e. for the same initial and upstream conditions of stratification, rotation and flow rate, it shows the same pattern and the gyre evolves in the same manner. A parametric study shows that the characteristics of the gyre (shape, size, stability) are highly dependent on the ratio of the internal radius of deformation over the width of the strait, r/w, but not on the Rossby number, Ro, based on the flow rate of the currents. A meander, related to the Eastern Alboran Sea Gyre, can form downstream of the gyre. Its presence depends on r/w and also on Ro. A row of cyclonic vortices can develop along the frontal limit of the Atlantic jet. The growth rate of the Gyre is determined by a flux budget analysis. The mechanism involved in this process was analysed by Whitehead (1985) and the experimental data supports his conclusions. We conclude that, whereas the internal radius of deformation plays a role in the structure and the stability of the Western Gyre, the flow rate of the Atlantic current influences the growth rate of the Gyre but does not change the flow drastically. Finally, a comparison with the numerical simulation of Speich (1992) shows a fairly good agreement in spite of some minor differences.
PY 1996
SO Oceanologica Acta
SN 0399-1784
PU Gauthier-Villars
VL 19
IS 5
UT A1996VM79400004
BP 499
EP 511
ID 20720
ER

EF