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Seasonal Cycle of Mesoscale Instability of the West Spitsbergen Current (2016)

Appen, Wilken-Jon von ; Schauer, Ursula ; Hattermann, Tore ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2016; 46(4): 1231-1254. Published 2016 Apr 01. doi: 10.1175/jpo-d-15-0184.1.

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Publication Date: 2016-04-01

Description: The West Spitsbergen Current (WSC) is a topographically steered boundary current that transports warm Atlantic Water northward in Fram Strait. The 16 yr (1997–2012) current and temperature–salinity measurements from moorings in the WSC at 78°50′N reveal the dynamics of mesoscale variability in the WSC and the central Fram Strait. A strong seasonality of the fluctuations and the proposed driving mechanisms is described. In winter, water is advected in the WSC that has been subjected to strong atmospheric cooling in the Nordic Seas, and as a result the stratification in the top 250 m is weak. The current is also stronger than in summer and has a greater vertical shear. This results in an e-folding growth period for baroclinic instabilities of about half a day in winter, indicating that the current has the ability to rapidly grow unstable and form eddies. In summer, the WSC is significantly less unstable with an e-folding growth period of 2 days. Observations of the eddy kinetic energy (EKE) show a peak in the boundary current in January–February when it is most unstable. Eddies are then likely advected westward, and the EKE peak is observed 1–2 months later in the central Fram Strait. Conversely, the EKE in the WSC as well as in the central Fram Strait is reduced by a factor of more than 3 in late summer. Parameterizations for the expected EKE resulting from baroclinic instability can account for the observed EKE values. Hence, mesoscale instability can generate the observed variability, and high-frequency wind forcing is not required to explain the observed EKE.

Print ISSN: 0022-3670

Electronic ISSN: 1520-0485

Topics: Geosciences , Physics

Published by American Meteorological Society

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The Fate of the Southern Weddell Sea Continental Shelf in a Warming Climate (2017)

Hellmer, Hartmut H. ; Kauker, Frank ; Timmermann, Ralph ; [et al.]

American Meteorological Society

In: Journal of Climate. 2017; 30(12): 4337-4350. Published 2017 Feb 13. doi: 10.1175/jcli-d-16-0420.1.

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Publication Date: 2017-02-13

Print ISSN: 0894-8755

Electronic ISSN: 1520-0442

Topics: Geography , Geosciences , Physics

Published by American Meteorological Society

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Antarctic Thermocline Dynamics along a Narrow Shelf with Easterly Winds (2018)

Hattermann, Tore

American Meteorological Society

In: Journal of Physical Oceanography. 2018; 48(10): 2419-2443. Published 2018 Oct 01. doi: 10.1175/jpo-d-18-0064.1.

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Publication Date: 2018-10-01

Print ISSN: 0022-3670

Electronic ISSN: 1520-0485

Topics: Geosciences , Physics

Published by American Meteorological Society

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The fate of the southern Weddell Sea continental shelf in a warming climate (2017)

Hellmer, H. H. ; Kauker, Frank ; Timmermann, Ralph ; [et al.]

American Meteorological Society

In: EPIC3Journal of Climate, American Meteorological Society, 30, pp. 4337-4350, ISSN: 0894-8755

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Publication Date: 2017-12-15

Description: Warm water of open ocean origin on the continental shelf of the Amundsen and Bellingshausen Seas causes the highest basal melt rates reported for Antarctic ice shelves with severe consequences for the ice shelf/ice sheet dynamics. Ice shelves fringing the broad continental shelf in the Weddell and Ross Seas melt at rates orders ofmagnitude smaller. However, simulations using coupled ice–ocean models forced with the atmospheric output of the HadCM3 SRES-A1B scenario run (CO2 concentration in the atmosphere reaches 700 ppmv by the year 2100 and stays at that level for an additional 100 years) show that the circulation in the southern Weddell Sea changes during the twenty-first century. Derivatives of Circumpolar Deep Water are directed southward underneath the Filchner–Ronne Ice Shelf, warming the cavity and dramatically increasing basal melting. To find out whether the open ocean will always continue to power the melting, the authors extend their simulations, applying twentieth-century atmospheric forcing, both alone and together with prescribed basal mass flux at the end of (or during) the SRES-A1B scenario run. The results identify a tipping point in the southern Weddell Sea: once warm water flushes the ice shelf cavity a positive meltwater feedback enhances the shelf circulation and the onshore transport of open ocean heat. The process is irreversible with a recurrence to twentieth-century atmospheric forcing and can only be halted through prescribing a return to twentieth-century basal melt rates. This finding might have strong implications for the stability of the Antarctic ice sheet.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev , info:eu-repo/semantics/article

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Seasonal cycle of mesoscale instability of the West Spitsbergen Current (2016)

von Appen, Wilken-Jon ; Schauer, Ursula ; Hattermann, Tore ; [et al.]

American Meteorological Society

In: EPIC3Journal of Physical Oceanography, American Meteorological Society, 46(4), pp. 1231-1254

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Publication Date: 2016-11-03

Description: The West Spitsbergen Current (WSC) is a topographically steered boundary current that transports warm Atlantic Water northward in Fram Strait. The 16 yr (1997–2012) current and temperature–salinity measurements from moorings in the WSC at 78°50′N reveal the dynamics of mesoscale variability in the WSC and the central Fram Strait. A strong seasonality of the fluctuations and the proposed driving mechanisms is described. In winter, water is advected in the WSC that has been subjected to strong atmospheric cooling in the Nordic Seas, and as a result the stratification in the top 250 m is weak. The current is also stronger than in summer and has a greater vertical shear. This results in an e-folding growth period for baroclinic instabilities of about half a day in winter, indicating that the current has the ability to rapidly grow unstable and form eddies. In summer, the WSC is significantly less unstable with an e-folding growth period of 2 days. Observations of the eddy kinetic energy (EKE) show a peak in the boundary current in January–February when it is most unstable. Eddies are then likely advected westward, and the EKE peak is observed 1–2 months later in the central Fram Strait. Conversely, the EKE in the WSC as well as in the central Fram Strait is reduced by a factor of more than 3 in late summer. Parameterizations for the expected EKE resulting from baroclinic instability can account for the observed EKE values. Hence, mesoscale instability can generate the observed variability, and high-frequency wind forcing is not required to explain the observed EKE.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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