Circulation and Convection in the Irminger Sea

Aspects of the circulation and convection in the Irminger Sea are investigated using a variety of in-situ, satellite, and atmospheric reanalysis products. Westerly Greenland tip jet events are intense, small-scale wind phenomena located east of Cape Farewell, and are important to circulation and con...

Full description

Bibliographic Details
Main Author: Vage, Kjetil
Other Authors: MASSACHUSETTS INST OF TECH CAMBRIDGE
Format: Text
Language:English
Published: 2010
Subjects:
Physical and Dynamic Oceanography
*CONVECTION(ATMOSPHERIC)
*OCEAN CURRENTS
TOPOGRAPHY
LABRADOR SEA
FLOW
CLIMATOLOGY
CYCLONES
THESES
WIND
EVOLUTION(GENERAL)
IRMINGER SEA
GREENLAND TIP JETS
LABRADOR SEA WATER
Greenland
Irminger Basin
Irminger Sea
Cape Farewell
Labrador Sea
Online Access:http://www.dtic.mil/docs/citations/ADA514561
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA514561
Description
Summary:Aspects of the circulation and convection in the Irminger Sea are investigated using a variety of in-situ, satellite, and atmospheric reanalysis products. Westerly Greenland tip jet events are intense, small-scale wind phenomena located east of Cape Farewell, and are important to circulation and convection in the Irminger Sea. A climatology of such events was used to investigate their evolution and mechanism of generation. The air parcels constituting the tip jet are shown to have a continental origin, and to exhibit a characteristic deflection and acceleration around southern Greenland. The events are almost invariably accompanied both by a notable coherence of the lower-level tip jet with an overlying upper-level jet stream, and by a surface cyclone located in the lee (east) of Greenland. It is argued that the tip jet arises from the interplay of the synopticscale flow evolution and the perturbing effects of Greenland's topography upon the flow. The Irminger Gyre is a narrow, cyclonic recirculation confined to the southwest Irminger Sea. While the gyre's existence has been previously documented, relatively little is known about its specific features or variability. The mean strength of the gyre's circulation between 1991 and 2007 was 6.8 +/- 1.8 Sv. It intensified at a rate of 4.3 Sv per decade over the observed period despite declining atmospheric forcing. Examination of the temporal evolution of the LSW layer thickness across the Irminger Basin suggests that local convection formed LSW during the early 1990s within the Irminger Gyre. In contrast, LSW appeared outside of the gyre in the eastern part of the Irminger Sea with a time lag of 2-3 years, consistent with transit from a remote source in the Labrador Sea. The original document contains color images. Prepared in cooperation with Woods Hole Oceanographic Inst., Woods Hole, MA.

Similar Items