W.R. Turrell scite author profile

The overflow and descent of cold, dense water from the sills of the Denmark Strait and the Faroe Shetland channel into the North Atlantic Ocean is the principal means of ventilating the deep oceans, and is therefore a key element of the global thermohaline circulation. Most computer simulations of the ocean system in a climate with increasing atmospheric greenhouse-gas concentrations predict a weakening thermohaline circulation in the North Atlantic as the subpolar seas become fresher and warmer, and it is assumed that this signal will be transferred to the deep ocean by the two overflows. From observations it has not been possible to detect whether the ocean's overturning circulation is changing, but recent evidence suggests that the transport over the sills may be slackening. Here we show, through the analysis of long hydrographic records, that the system of overflow and entrainment that ventilates the deep Atlantic has steadily changed over the past four decades. We find that these changes have already led to sustained and widespread freshening of the deep ocean.

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Upper layer cooling and freshening in the Norwegian Sea in relation to atmospheric forcing

Blindheim

Borovkov

Hansen

et al. 2000

Deep Sea Research Part I: Oceanographic Research Papers

195

176

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Decreasing overflow from the Nordic seas into the Atlantic Ocean through the Faroe Bank channel since 1950

Hansen

Turrell

Østerhus

2001

Nature

228

136

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The overflow of cold, dense water from the Nordic seas, across the Greenland-Scotland ridge and into the Atlantic Ocean is the main source for the deep water of the North Atlantic Ocean. This flow also helps drive the inflow of warm, saline surface water into the Nordic seas. The Faroe Bank channel is the deepest path across the ridge, and the deep flow through this channel accounts for about one-third of the total overflow. Previous work has demonstrated that the overflow has become warmer and less saline over time. Here we show, using direct measurements and historical hydrographic data, that the volume flux of the Faroe Bank channel overflow has also decreased. Estimating the volume flux conservatively, we find a decrease by at least 20 per cent relative to 1950. If this reduction in deep flow from the Nordic seas is not compensated by increased flow from other sources, it implies a weakened global thermohaline circulation and reduced inflow of Atlantic water to the Nordic seas.

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Decadal variability in the composition of Faroe Shetland Channel bottom water

Turrell

Slesser

Adams

et al. 1999

Deep Sea Research Part I: Oceanographic Research Papers

151

129

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Thermohaline circulation of shallow tidal seas

Hill

Brown

Fernand

et al. 2008

Geophysical Research Letters

102

100

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The mechanisms controlling the temperature and salinity structure of shallow continental shelf seas have been understood for over thirty years, yet knowledge of what drives their large‐scale circulation has remained relatively unknown. Here we describe a decade long programme of measurements, using satellite‐tracked drifting buoys on the northwest European shelf, to draw attention to a striking picture of highly organised thermohaline circulation consisting of narrow, near surface, fast flowing jets. These are ubiquitous above sharp horizontal gradients in bottom temperatures and/or salinities. The circulation phenomena we describe are likely to be prevalent on all similar, wide, tidally energetic continental shelves including those off north‐eastern China, Argentina and parts of the Arctic. The robust, repeatable observation of the key role of jets above bottom fronts results in a fundamental reassessment of how we view the dynamics of shelf seas.

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W.R. Turrell

Rapid freshening of the deep North Atlantic Ocean over the past four decades

Upper layer cooling and freshening in the Norwegian Sea in relation to atmospheric forcing

Decreasing overflow from the Nordic seas into the Atlantic Ocean through the Faroe Bank channel since 1950

Decadal variability in the composition of Faroe Shetland Channel bottom water

Thermohaline circulation of shallow tidal seas

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