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Series showing how sub-fjord glacial melting adds to sea level rise.
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Series showing how sub-fjord glacial melting adds to sea level rise.
Series showing how sub-fjord glacial melting adds to sea level rise.
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265057
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Cook, John E.
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Series showing how sub-fjord glacial melting adds to sea level rise.
Series showing how sub-fjord glacial melting adds to sea level rise.
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01/12/2016
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fjords-glaciers.jpg
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Caption from Oceanus magazine, Vol. 51, No. 2, pg. 18: 1) The researchers are investigating fjords as links between glaciers and the open ocean, and in particular, the role of warming ocean waters and underwater glacial melting in accelerating the flow of glacial ice into the ocean. If more ice melts into the ocean than accumulates on the ice sheet via snowfall, global sea levels rise. Sermilik Fjord links the terminus of the Helheim Glacier to the open ocean off Greenland's continental shelf. Cooler, fresher water lies atop denser, warmer, saltier water below. 2) The moorings instruments showed that fast currents shot up and down the fjord, driven by winds and ocean currents outside the fjord. Winds blowing along the coast drove the top layer in through the fjord toward the glacier, displacing bottom-layer waters outward. 3) When winds died down, the currents reversed direction. The process constantly flooded the fjord with new water, transmitting ocean water temperature changes on the continental shelf through the fjord toward the glacier. Understanding this phenomenon might be important for predicting how changing ocean conditions could affect the acceleration of glacial ice into the ocean and the rise in global ocean sea level.
Caption from Oceanus magazine, Vol. 51, No. 2, pg. 18:
1) The researchers are investigating fjords as links between glaciers and the open ocean, and in particular, the role of warming ocean waters and underwater glacial melting in accelerating the flow of glacial ice into the ocean. If more ice melts into the ocean than accumulates on the ice sheet via snowfall, global sea levels rise. Sermilik Fjord links the terminus of the Helheim Glacier to the open ocean off Greenland's continental shelf. Cooler, fresher water lies atop denser, warmer, saltier water below.
2) The moorings instruments showed that fast currents shot up and down the fjord, driven by winds and ocean currents outside the fjord. Winds blowing along the coast drove the top layer in through the fjord toward the glacier, displacing bottom-layer waters outward.
3) When winds died down, the currents reversed direction. The process constantly flooded the fjord with new water, transmitting ocean water temperature changes on the continental shelf through the fjord toward the glacier. Understanding this phenomenon might be important for predicting how changing ocean conditions could affect the acceleration of glacial ice into the ocean and the rise in global ocean sea level.
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© Woods Hole Oceanographic Institution
©Shane Gross/Greenpeace
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Getty Images/iStockphoto
Illustration by Eric S. Taylor, WHOI Creative
Illustration by Jack Cook
Illustration by Jayne Doucette
Illustration by Natalie Renier, WHOI Creative
Marine Imaging Technologies, LLC © Woods Hole Oceanographic Institution
Photo by Amy Apprill
Photo by Craig LaPlante
Photo by Daniel Hentz
Photo by Danielle Fino
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photo by Jeff Yonover
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Video by Craig LaPlante
Video by Danielle Fino
Video by Hannah Piecuch
Video by Jayne Doucette
Video by Ken Kostel
Video by Matthew Barton
-- Other --
Illustration by Jack Cook
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efitzpatrick: climate change images for whoi movie screening etaylor: Oceanus magazine, Vol. 51, No. 2, pg. 18
efitzpatrick: climate change images for whoi movie screening
etaylor: Oceanus magazine, Vol. 51, No. 2, pg. 18
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