Abstract
Abstract. The flow of warm and saline water from the Atlantic Ocean, across the Greenland–Scotland Ridge, into the Nordic Seas – the Atlantic inflow – is split into three separate branches. The most intense of these branches is the inflow between Iceland and the Faroe Islands (Faroes), which is focused into the Faroe Current, north of the Faroes. The Atlantic inflow is an integral part of the North Atlantic thermohaline circulation (THC), which is projected to weaken during the 21st century and might conceivably reduce the oceanic heat and salt transports towards the Arctic. Since the mid-1990s, hydrographic properties and current velocities of the Faroe Current have been monitored along a section extending north from the Faroe shelf. From these in situ observations, time series of volume, heat, and salt transport have previously been reported, but the high variability of the transport has made it difficult to establish whether there are trends. Here, we present results from a new analysis of the Faroe Current where the in situ observations have been combined with satellite altimetry. For the period 1993 to 2013, we find the average volume transport of Atlantic water in the Faroe Current to be 3.8 ± 0.5 Sv (1 Sv = 106 m3 s−1) with a heat transport relative to 0 °C of 124 ± 15 TW (1 TW = 1012 W). Consistent with other results for the Northeast Atlantic component of the THC, we find no indication of weakening. The transports of the Faroe Current, on the contrary, increased. The overall increase over the 2 decades of observation was 9 ± 8 % for volume transport and 18 ± 9 % for heat transport (95 % confidence intervals). During the same period, the salt transport relative to the salinity of the deep Faroe Bank Channel overflow (34.93) more than doubled, potentially strengthening the feedback on thermohaline intensity. The increased heat and salt transports are partly caused by the increased volume transport and partly by increased temperatures and salinities of the Atlantic inflow, which have been claimed mainly to be caused by the weakened subpolar gyre.
Highlights
The flow of warm and saline water from the Atlantic Ocean, across the Greenland–Scotland Ridge, into the Nordic Seas, the Atlantic inflow, occurs in three separate branches
We focus on the Atlantic water component of the Faroe Islands (Faroes) Current as it passes through section N
We focus on the main results from the analysis, which are the time series of volume, heat, and salt transport by the Atlantic water component of the Faroe Current
Summary
The flow of warm and saline water from the Atlantic Ocean, across the Greenland–Scotland Ridge, into the Nordic Seas, the Atlantic inflow, occurs in three separate branches (plus flow over continental shelf areas). This study treats the branch that flows between Iceland and the Faroes, the IF inflow (Fig. 1a), across the Iceland-Faroe Ridge (IFR) and continues in the Faroe Current. This flow carries heat towards the Arctic and is an integral part of the North Atlantic thermohaline circulation (THC), which is projected to weaken due to global warming (Collins et al, 2013). It has long been an ambition to monitor its transport of water (volume, mass), heat, and salt. We focus on the Atlantic water component of the Faroe Current as it passes through section N
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