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9.7: Langmuir Circulation

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    One final type of wind-driven surface current occurs on a smaller scale when the winds blow in a consistent direction at relatively high speeds. Underneath these strong winds, water flows in a series of parallel corkscrew patterns called Langmuir cells (Figure \(\PageIndex{1}\) top). Each of the cells may be several meters wide and several meters deep, and adjacent cells rotate in opposite directions. While the overall direction of the corkscrew motion is in the direction of the wind, the rotation of the cells is roughly perpendicular to the wind direction. A divergence zone is created where the surface of the neighboring cells are rotating away from each other, and there is a degree of upwelling between the cells. Where the surface water of neighboring cells is rotating towards each other, a convergent zone is formed, with a region of downwelling between the cells. These alternating regions of divergence and convergence often take debris, foam, or algae floating at the surface and concentrate them along the convergence zones, creating long slicks running parallel to the wind direction (Figure \(\PageIndex{1}\) bottom).

    Figure \(\PageIndex{1}\) (Top) Langmuir cells created by strong, sustained winds (gray arrows). Dark blue arrows show the movement of surface water as a result of the cells, producing downwelling convergence zones where floating material can accumulate (gray shading), and upwelling divergence zones. (Bottom) Parallel patterns of accumulated foam and debris indicating Langmuir circulation (Top: PW; Bottom: Photo By Mmelugin (Own work) [CC BY-SA 3.0 or GFDL (], via Wikimedia Commons).

    9.7: Langmuir Circulation is shared under a CC BY 4.0 license and was authored, remixed, and/or curated by Paul Webb via source content that was edited to conform to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.