1 / 8

The Labrador Current

Jeff Vieser. The Labrador Current. General Information. Part of the North Atlantic Subpolar Gyre. Studies began in the 1930’s. Moves approximately 7.5 Sv of water. Driven by Barotropic and Geostrophic flows. Source: wikipedia.com. Barotropic Flow.

Download Presentation

The Labrador Current

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Jeff Vieser The Labrador Current

  2. General Information • Part of the North Atlantic Subpolar Gyre. • Studies began in the 1930’s. • Moves approximately 7.5 Sv of water. • Driven by Barotropic and Geostrophic flows. Source: wikipedia.com

  3. Barotropic Flow • Complex wind field found along the current. • Wind stress varies greatly over the seasons. • Is responsible for approximately 15% of the flow in the current. Source: Han 2005

  4. Geostrophic Flow • Occurs on either side of the height maximum. • It is responsible for approximately 55% of the current’s water flow. • Does not vary much throughout the year. Source: http://www.o3d.org/abracco/vel_ssh.png

  5. Resulting Flow • Occurs over a stretch of just 1000 Km. • Return flows are larger because of the Arctic Ocean’s drainage. • Deep flows due to an extended mixed layer depth and deep water movement. Source: Deshayes et al. 2007

  6. Deep Water Formation • Deep water formation can occur here because of the extended mixed layer. • Only occurs here and in the Antarctic. • Fuels global ocean circulation. Source: Mercator Operational Oceanography

  7. Significance Location of plentiful fisheries. Interacts with the gulf stream off the Grand Banks and off of the Outer Banks as well. Start of the ocean conveyor belt. Essential in global heat and water transport. Source: http://oceancurrents.rsmas.miami.edu/ocean-gyres.html Source: www.uncover.eu/index.php?id=97

  8. Thank You! • Deshayes, Julie; Frankignoul, Claude; Drange, Helge. 2007. Formation and Export of Deep Water in the Labrador and Irminger Seas in a GCM. • Faure, Vincent; Speer, Kevin. 2004. Labrador Sea Water Circulation in the Northern North Atlantic Ocean. • Han, Guoqi. 2005. Wind Driven Barotropic Circulation off Newfoundland and Labrador. • “Introduction to Ocean Gyres”. The Cooperative institute for Marine and Atmospheric Sciences. http://oceancurrents.rsmas.miami.edu/ocean-gyres.html • Lazier, John; Hendry, Ross; Clarke, Allyn; Yashayaev, Igor; Rhines, Peter. 2002. Convection and Restratification in the Labrador Sea, 1990-2000. • “The Labrador Current”. The Cooperative institute for Marine and Atmospheric Sciences. http://oceancurrents.rsmas.miami.edu/atlantic/labrador.html • Understanding the Mechanisms of Stock Recovery. www.uncover.eu/index.php?id=97 • http://www.o3d.org/abracco/vel_ssh.png • www.Wikipedia.com. “Labrador Current”.

More Related