Impacts of the Changing Seasonality of Wind-Driven Mixing on the Arctic System

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Website:

http://www.arcus.org/

Summary:

Daily (gray) and 30-day running-mean (black) NCEP wind speed
Daily (gray) and 30-day running-mean (black) NCEP wind speed at the SBI3 mooring site. Red arrows indicate storms, defined as periods when daily wind speed exceeds 10 m/s.

The Arctic is generally considered a very quiet ocean. The sea ice impedes the generation and damps both surface and internal waves - and mixing rates in the water column are consequently generally very small. When we start looking at specific events in more detail, however, we found that when there is no ice the Arctic Ocean is actually a pretty active ocean. Storms generate intense of inertial motions throughout the water column. These motions affect the stratification and the vertical distribution of properties in the water column. We believe that this is a key factor in understanding the present structure and dynamics of the Arctic Ocean - most of the mixing probably happens during the summer on the ice-free shelves. Furthermore, as the sea-ice cover continue to decrease during the summer, wind-driven mixing occurring over the deep basins can have profound consequences for the physical environment, as well as the whole biological and geochemical Arctic system.

Project Duration:

1 August 2009 - 31 July 2012

Supplemental Project File(s):

application/pdf iconAGU Editors Highlight (PDF - 50.3 KB)
application/pdf iconRainville Nature Reports (PDF - 225.4 KB)

Keywords:

Modeling
Ocean
Physical oceanography
Sea ice
System science

Programs:

Arctic System Science Program

Region:

Arctic Ocean

Funding Agency:

National Science Foundation

Funding Solicitation/Announcement:

Changing Seasonality in the Arctic System (CSAS): NSF 08-567

Unique Project Identifier (Grant #, Project #, Other):

0901407
0901650
0901438

Grant/Project Funding Amount:

$518993
$201559
$104337
Luc Rainville
Luc Rainville, PI
Applied Physics Laboratory
University of Washington
1013 NE 40th Street
Seattle , Washington USA
206-685-4058
Amala Mahadevan
Amala Mahadevan, PI
Department of Physical Oceanography
Woods Hole Oceanographic institution
266 Woods Hole Road
MS# 21
Woods Hole , Massachusetts USA
(508) 289-3440
Paty Matrai
Patricia Matrai, PI
Bigelow Laboratory for Ocean Sciences
60 Bigelow Drive
E. Boothbay Harbor , Maine USA
202-747-3255
Rebecca Woodgate
Rebecca Woodgate, Co-PI
1013 NE 40th Street
Seattle , Washington USA
206-221-3268
Muyin Wang
Muyin Wang, Co-PI
University of Washington
7600 Sand Point Way NE, Building #3
Seattle , Washington USA
206-526-4532
James Overland
James Overland, Co-PI
7600 Sand Point Way NE
Seattle , Washington USA
206-526-6795

Journal Publications

Rainville, L., C.M. Lee, and R.A. Woodgate (2011), "Impact of wind-driven mixing in the Arctic Ocean", Oceanography 24(3).

"Arctic Ocean Awakening As Ice Melts" by Larry O'Hanlon, Discovery News: Earth News, January 5, 2010.

Rainville, L., and R. A. Woodgate (2009), "Observations of internal wave generation in the seasonally ice-free Arctic", Geophys. Res. Lett., 36, L23604, doi:10.1029/2009GL041291.

"Melting sea ice will stir up Arctic Waters", AGU: Geophysical Research Letters, Editors Highlight, published online: 2 December 2009. AGU Editors' Highlight - Download PDF (50.3 KB)

"Arctic Mix-up" by Harvey Leifert, Nature Reports: Climate Change, Vol. 4, January 2010, published online: 17 December 2009. Rainville Nature Reports - Download PDF (225.4 KB)

Top: Daily (gray) and 30-day running-mean (black) NCEP wind speed.
Top: Daily (gray) and 30-day running-mean (black) NCEP wind speed.