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UMass Dartmouth MAR 110 - Ocean Circulation Dynamics

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15 October 2007 Lecture 16 Ocean Dynamics 1MAR 110 LECTURE #16 Ocean Circulation Dynamics Figure 16.2 Ekman Transport It is due to the Coriolis force, that the surface current caused by the drag of the wind on the water flows 45 degrees to the right of the wind (in the northern hemisphere). The surface current drags the deeper currents along, but they also are deflected to the right in an Ekman Spiral Flow. The net transport of water –the Ekman Transport - n this upper layer due to the wind is perpendicular to the right to the direction of the wind. (ItO) TheTheCORIOLISCORIOLISFORCEFORCEexplainsexplainsthe the curvaturecurvature Figure 16.1 Earth’s Rotation Effects To an Earth observer in the northern hemisphere, the Coriolis “force” (due the rotation of the earth) causes the trajectory of an “freely-moving” object to curve to the right of its direction.15 October 2007 Lecture 16 Ocean Dynamics 2 Ekman Transport Ekman Transport & & Coastal UpwellingCoastal UpwellingSHSHNHNHFigure 16.3 Ekman transport & Coastal Upwelling Depending on which direction the wind blows along a coast, the associated Ekman transport will be either offshore onshore or pulled offshore. When the wind is blowing with the coast to its left in the Northern Hemisphere (NH), the offshore Ekman Transport (ET) is replaced by upwelling waters from below. When the NH wind has the coast to its right, the ET is onshore and downwelling results. Upwelling brings deeper and generally more nutrient rich water up to the surface along the coast, while downwelling pushes the nutrient poor warm surface water down.(ItO, LEiO)15 October 2007 Lecture 16 Ocean Dynamics 3 North AtlanticNorth AtlanticSubtropical Subtropical Ocean BasinOcean BasinSubtropical Subtropical WindsWindsNortheastNortheastwardwardSouthwestSouthwestwardwardFigure 16.4 Global Wind Patterns. In the North Atlantic subtropical ocean basin (box), the dominant surface wind forcing is a combination of the northeastward moving Prevailing Westerlies and the southwestward moving Northeast trades. The Coriolis Effect on these Hadley and Ferrel cell surface winds are illustrated. (ItO)15 October 2007 Lecture 16 Ocean Dynamics 4 NHNHSubtropicalSubtropicalOcean BasinOcean BasinZonal Winds Zonal Winds & & Ekman TransportEkman TransportGeostrophicGeostrophicOceanOceanFlowFlowSame Physics as Geostrophic WindsSame Physics as Geostrophic WindsFigure 16.5 Subtropical Ocean Basin Gyre Circulation The Ekman Transport associated with the Westerlies and Trade Winds push surface water towards the center of the ocean basin –forming a mound of water about 1 m high. The slope of the mound produces a horizontal pressure gradient force G that initiates the downhill motion of a water parcel . Once moving the Coriolis force C acts to the right of its motion causing the trajectory of the water parcel to curve to the right until the C and G are in opposite directions and in balance. The resulting flow is a geostrophic current flows around the mound following the elevation contours of the mound. (LEiO)15 October 2007 Lecture 16 Ocean Dynamics 5 Figure 16.7 Atlantic Ocean Basin Gyre Circulation The North Atlantic Gyre, with the Sargasso Sea at its center, is defined on the west by a narrow, swift northeastward-flowing geostrophic current called the Gulf Stream; and on the east by broad, slow southwestward-flowing Canary Current. Because of the Earth rotation effects, the ridge of the Ekman-Transport generated mound is shifted towards the west , thus forming a Western Boundary Current (WBC)– in this case the Gulf Stream). (LEiO) GEOSTROPHIC FLOWGEOSTROPHIC FLOWLowLowPressurePressurePressure PGF Pressure PGF Gradient Gradient ForceForceCF CoriolisCF CoriolisForceForcePGFPGF= = CFCFGEOSTROPHIC FLOW GEOSTROPHIC FLOW --Force BalanceForce BalanceHighHighPressurePressure Figure 16.6 Principles of Geostrophic Ocean Flow Geostrophic Ocean Flow is straight-line flow due to a balance of the Coriolis force to the right (NH) and a pressure gradient force (PGF - usually due to sea surface slopes).15 October 2007 Lecture 16 Ocean Dynamics 6 Figure 16.9 The Gulf Stream - A Western Boundary Current The Gulf Stream is a western boundary current characterized as a narrow concentrated current bring warm water from the tropics towards the north. (ItO) Figure 16.8 Subtropical Ocean Gyres The global winds produce geostrophic flow gyres in the principal subtropical ocean basins. The gyres are defined by western boundary currents (Gulf Stream, Brazil Current, Kuroshio), eastward flowing currents on the polar sides, broad equatorward currents (Canary & California currents) on the eastern side, and east and west zonal currents in the tropics. (LEiO)15 October 2007 Lecture 16 Ocean Dynamics 7 Figure 16.10 Gulf Stream Dynamic Topography The sea level distortion – “the Mound” - is actually consistent with the underlying temperature distribution in the water column. Note that the warmer water column is taller (or thicker) because of thermal expansion and thus rises higher – relative to the colder (and thinner) water column. The sea surface slope produces the pressure gradient force (PGF) to the left that balances the Coriolis force to the right of the Gulf Stream which is flowing into the page. (VA)15 October 2007 Lecture 16 Ocean Dynamics 8 Figure 16.11 Dynamic Topography of the California Current - an Eastern Boundary Current The California Current is a broad, slow eastern boundary current, much like the Canary Current in the North Atlantic. (LEiO)15 October 2007 Lecture 16 Ocean Dynamics 9 Figure 16.12 Equatorial – Tropical Current System (Below) The North and South Trade Winds force westward-flowing North and South Equatorial currents. Because of continental blockage, Equatorial Countercurrents and Undercurrents flow back in the doldrums region. (Above) The Ekman Transports for the Trades produce upwelling alonf gthe


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