Annual and interannual variability of Atlantic Water temperatures in the Norwegian and Barents Seas: 1980-1996

Changes in the oceanographic climate of the Arctic Ocean during the 1990s have been linked to anomalous heat and volume transports of Atlantic Water (AW) from the Nordic Seas. This paper focuses on the variability in the AW temperature in the Norwegian Sea and in the Barents Sea Opening (BSO), using...

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Bibliographic Details
Main Author: Tore Furevik
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Published: 2001
Subjects:
Temperature anomalies
Air}sea interaction
Horizontal advection
Climate
North Atlantic
Nordic Seas
Arctic
Arctic Ocean
Barents Sea
Norwegian Sea
Fram Strait
Iceland
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.25.1460
http://www.gfi.uib.no/~tore/OLpub/FullText/dsr2001ft.pdf
Description
Summary:Changes in the oceanographic climate of the Arctic Ocean during the 1990s have been linked to anomalous heat and volume transports of Atlantic Water (AW) from the Nordic Seas. This paper focuses on the variability in the AW temperature in the Norwegian Sea and in the Barents Sea Opening (BSO), using 16 years of data from "ve regular hydrographic sections across the #ow of AW from the Faroe}Shetland in#owing area to the Barents Sea and Fram Strait. In a section across the BSO, data from 102 surveys were analysed. Here time series for mean temperatures and salinities are constructed for 10, 50, 100, 200, 300, and 400 m depths. While seasonal- and shorter-period variability has largest amplitudes in the water masses above 200 m depth, interannual variability in temperature has largest amplitudes near the bottom. At 400 m depth, the amplitudes of the interannual variations are of the order of 13C and exceed the magnitude of the seasonal cycle. Two warm periods, 1983}1984 (W1) and 1990}1992 (W2), and one cold period, 1986}1988 (C1), are discussed. W1 and partly C1 can be traced back to the Iceland}Scotland Gap, from where they were advected with the mean #ow of AW northwards along the eastern #ank of the Nordic Seas. The temperature anomalies decreased in magnitude while they moved towards the north. W2 had a di!erent characteristic, as it can be explained by reduced heat loss to the atmosphere, or by an increased advection speed, within the Nordic Seas. The anomaly was strengthened along the #ow towards the north. The salinity anomalies were advected with the AW and strengthened by fresh-water #uxes along their pathway inside the Nordic Seas. In the BSO the temperature anomalies indicate that the AW in#ow to the Barents Sea occurs in two branches along the southern slope of.

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