The Extended Ellett Line is a project to measure and understand the ocean west of the UK. We are looking at how and why the currents, temperature and salinity have changed over the past few decades.  We also investigate the impact those changes have on ecosystems and local climate.

Map of the Extended Ellett Line.

Each year UK marine scientists cross the deep ocean between Scotland and Iceland on a research ship. Along the way the scientists measure the velocity, temperature and salinity of the ocean; at points 30 km apart, the ship stops and instruments are lowered though the water all the way to the seafloor. Water samples are also collected and analysed for a range of chemicals (including iron, nutrients and carbon) and biological content (including phytoplankton). The project is one of a small number of high-quality, long-term marine data sets in the North Atlantic Ocean and helps us to understand changes in ocean climate. It is relevant to the UK and northwest Europe because the warm water flowing past the Extended Ellett Line keeps winters warmer than expected for this latitude.

The history of the Extended Ellett Line began in 1948, when Jack R. Lumby of the Fisheries Laboratory in Lowestoft, UK, realised that use could be made of the regular passage of ships to the Ocean Weather Stations of the North Atlantic. These ships of opportunity collected underway measurements of sea surface temperature and salinity until 1996. From 1975 to 1996, scientists concentrated on the Rockall Trough, measuring the warm salty subtropical water flowing northwards west of the UK and Ireland. Since 1996 the annual expeditions travel as far Iceland in order to measure all the warm water that flows into the Nordics Seas from the eastern North Atlantic. We also measure cold northern water flowing southwards at the bottom of the sea.

Why is it important?

A key part of the global climate system is the Meridional Overturning Circulation (MOC), which carries heat and salt northwards in the upper layers of the Atlantic Ocean and cooler, fresher water southwards in the deep layers. In the subpolar region of the North Atlantic the northward transport takes places largely in the North Atlantic Current which travels through the Iceland Basin and Rockall Trough in a series of jets and eddy trains, continuing into the Nordic Seas and Arctic Ocean. The returning deep branches are made up of water cooled and freshened in the Arctic, the Nordic Seas and the subpolar North Atlantic itself. By making measurements on the Extended Ellett Line we can investigate the dynamics and variability of the northward-flowing warm saline water, including the interaction between the wind-driven cyclonic circulation of the subpolar gyre and the MOC. Around half of the returning dense water flows through the Iceland Basin, so by combining measurements from this region with partner programmes that capture the remaining dense flows, we can understand the key processes driving them.

Surface currents of the North Atlantic overlying sea surface temperature.

Conditions in the subpolar gyre are important for skillful decadal climate predictions, including the location of the Atlantic Inter-Tropical Convergence Zone and the number of tropical storms. Important climate impacts including rainfall in the African Sahel, Amazon, western Europe and parts of the US, are associated with subpolar gyre and North Atlantic variability. Present-day ocean and climate models are still unable to accurately represent the MOC in the subpolar region; only by understanding the physics of the system can we hope to improve the models.

Changes in the physical conditions also profoundly affect the ecosystem of the region, from plankton to whales and birds. With changing conditions, key species change their feeding and breeding ranges, with subsequent impact on the health and exploitation of our seas.

What do we do?

The overall aim of the Extended Ellett Line programme is to improve our understanding of the character, causes and effects of interannual to multi-decadal variability of the eastern subpolar North Atlantic. The specific objectives are to

  1. provide a long-term multidisciplinary ocean observation programme.
  2. provide a platform for national and international scientific collaboration
  3. lead international research in the region
  4. be part of integrated global ocean observing programmes
  5. provide training for the next generation of marine scientists and engineers
  6. develop the transition from long-term ship-based observation programmes to autonomous surveying by gliders
  7. deliver advice to government and other stakeholders

Why Ellett?

The section was named after the man who started the hydrographic time series in the Rockall Trough in 1975.

David Ellett.

David James Ellett (born 22 July 1934) began his career in ocean science when he moved to the Lowestoft Fisheries Laboratory in January 1954 . Over the next decade he learned Atlantic hydrography by participation in wide-ranging cruises to the Barents Sea, North Sea, Irish Sea and Atlantic, including, notably, the ICES Faroe-Iceland Overflow Experiment of 1958. With long spells on both Irish and UK Weather Ships, this period also saw the beginnings of his life-long involvement with Ocean Weather Ships and their data.

The Rockall Trough was to be David's main working area and interest to the end of his career, bringing a succession of new insights to what had so long been a data desert; the so-called "shadow of Europe". His collaboration with Dunstaffnage Marine Laboratory (Oban) began when he sailed with them aboard RRV "Challenger for the second ICES Overflow Survey in 1973. This led to his secondment in 1975 and ultimately to his transfer to Oban. Until his official retirement in 1994, he thoroughly explored these waters, deploying the first long-term current-meter moorings in the Trough from 1975, planning then participating in the JASIN Air-Sea Interaction Experiment in 1978, recovering the first unequivocal evidence of a slope current west of Scotland in 1979, and making the first direct measurement of overflow crossing the Wyville-Thomson Ridge in 1987/1988.

Open all Close all

Details of the individual sections that make up the Extended Ellett Line time series are given in this table. The cruise numbers provide links to the BODC cruise inventory pages where you can find details of the data collected, cruise tracks and cruise reports. The icons in the right hand column provide links to plots of the data (n/a denotes cruises for which data are not shown due to poor data quality).

CruiseCruise DatesChief ScientistInstituteShipSection Plot
DY0786–28 May 2017N. P. HollidayNOCDiscovery
DY0527 - 24 Jun 2016S. GarySAMSDiscovery
DY03129 May - 17 June 2015N.P. HollidayNOCDiscovery 
JR3026 Jun – 22 Jul 2014B. King and N. P. HollidayNOCJames Clark Ross
JC0866–26 May 2013C. GriffithsSAMSJames Cook
D3791230 Jul – 17 Aug 2012C. GriffithsSAMSDiscovery
D3651111 May – 2 Jun 2011J. ReadNOCSDiscovery
D3511010–28 May 2010J. ReadNOCSDiscovery
D3400910–25 Jun 2009T. SherwinSAMSDiscovery
SC0805*6–25 May 2008T. SherwinSAMSScotia
D321b0724 Aug – 9 Sep 2007T. SherwinSAMSDiscovery
D321a0724 Jul – 23 Aug 2007J. AllenNOCSDiscovery
D3120611–31 Oct 2006J. AllenNOCSDiscovery
CD1766–28 Oct 2005T. SherwinSAMSCharles Darwin
P31411 Jul – 23 Jul 2004J. ReadSOCPoseidon
P300*19 Jul – 6 Aug 2003C. GriffithsSAMSPoseidon
SC0703*15 Apr – 5 May 2003W. TurrellMarLabScotia
DI253014 May – 20 Jun 2001J. AllenSOCDiscovery
SC0700*15 Apr – 5 May 2000W. TurrellMarLabScotia
DI24500*27 Jan – 20 Feb 2000N.P. Holliday and C. GriffithsSOC and DMLDiscovery
DI242997 Sep – 6 Oct 1999S. CunninghamSOCDiscovery
DI233982 Apr – 1 Jun 1998D. Smythe-WrightSOCDiscovery
DI230977 Aug – 17 Sep 1997S. BaconSOCDiscovery
DI2239628 Sep –21 Oct 1996H. Leach and R. PollardUniv. Liverpool and SOCDiscovery
C1249621–25 Jan 1996A. EdwardsDMLChallengern/a
C1209518 Jul – 6 Aug 1995A. EdwardsDMLChallenger
CD929513 Apr –2 May 1995A. EdwardsDMLCharles Darwinn/a
C1169417–29 Aug 1994C. GriffithsDMLChallenger
C1149415–29 Aug 1994J. GrahamDMLChallenger
C1129428 Apr –13 May 1994D.J. EllettDMLChallenger
C1109410–20 Mar 1994D.J. EllettDMLChallenger
C105933–16 Sep 1993A. EdwardsDMLChallenger
C1039312–24 May 1993D.J. EllettDMLChallenger
C1019313–20 Mar 1993A. EdwardsDMLChallengern/a
C979225 Sep – 6 Oct 1992A. EdwardsDMLChallenger
C81911–8 Jul 1991D.J. EllettDMLChallengern/a
C759123 Feb – 3 Mar 1991J. Gordon and D.J. EllettDMLChallengern/a
C719029 Aug – 5 Sep 1990D.J. Ellett and J. GordonDMLChallenger
C679021 Jun – 29 Jul 1990D.J. EllettDMLChallenger
CD448924 Nov – 2 DecA. EdwardsDMLCharles Darwin
LF2894–10 AugD.J. EllettDMLLough Foyle
LF1895–11 May 1989D.J. EllettDMLLough Foyle
D1808920 Jan – 4 Feb 1989D.J. EllettDMLDiscovery
C30886–23 Jun 1988D.J. EllettSMBAChallenger
C258824 Feb – 7 Mar 1988D.J. EllettSMBAChallengern/a
C228723 Nov – 5 Dec 1987D.J. EllettSMBAChallengern/a
C148724 Apr – 7 May 1987D.J. EllettSMBAChallenger
C9878–22 Jan 1987A. EdwardsSMBAChallenger
C88514–28 Aug 1985D.J. EllettSMBAChallenger
C4852–16 May 1985D.J. EllettSMBAChallenger
C18520 Jan – 5 Feb 1985D.J. EllettSMBAChallenger
C108416 Nov–6 Dec 1984A. EdwardsSMBAChallenger
C28423 Jun – 8 Jul 1984D.J. EllettSMBAChallengern/a
C118310–24 Aug 1983D.J. EllettSMBAChallengern/a
C78323 May – 2 Jun 1983R. BowersSMBAChallenger
C158216–30 Oct 1982D.J. EllettSMBAChallengern/a
C78226 Apr – 16 May 1982R. BowersSMBAChallengern/a
C15816–20 Oct 1981A. EdwardsSMBAChallenger
C10814–14 July 1981D. MeldrumSMBAChallenger
C6816–25 Apr 1981D.J. EllettSMBAChallenger
C28126 Jan – 4 Feb 1981D.J. EllettSMBAChallenger
C78021 Apr – 6 May 1980D.J. EllettSMBAChallenger
C48026 Feb – 7 Mar 1980D. Meldrum and J. GageSMBAChallengern/a
C167928 Oct – 11 Nov 1979D.J. EllettSMBAChallenger
C137911–16 Sep 1979D.J. EllettSMBAChallenger
S57919 Jun – 2 Jul 1979D.J. EllettSMBAShackletonn/a
C77910–23 May 1979D.J. EllettSMBAChallenger
C14784–11 Nov 1978D.J. EllettSMBAChallenger
C11D783–17 Sep 1978A. EdwardsSMBAChallenger
C11B7829 Jul – 2 Aug 1978D.J. EllettSMBAChallenger
C97831 May – 10 Jun 1978D.J. EllettSMBAChallenger
C67811–21 Apr 1978D.J. EllettSMBAChallenger
C27830 Jan – 13 Feb 1978D.J. EllettSMBAChallenger
C137720 Aug – 3 Sep 1977D.J. EllettSMBAChallenger
C117712–26 Jul 1977D.J. EllettSMBAChallengern/a
C67714–19 Apr 1977D.J. EllettSMBAChallenger
C47725 Feb – 11 Mar 1977D.J. EllettSMBAChallenger
C17767–20 Dec 1976D.J. EllettSMBAChallengern/a
C15767–16 Oct 1976R. BowersSMBAChallengern/a
C12764–15 Aug 1976D.J. EllettSMBAChallengern/a
C87619 May – 1 Jun 1976D.J. EllettSMBAChallenger
C5a7629 Mar – 5 Apr 1976D.J. EllettSMBAChallenger
C14757–12 Nov 1975D.J. EllettSMBAChallenger
C127526 Aug – 2 Sep 1975D.J. EllettSMBAChallengern/a
C10754–10 July 1975D.J. EllettSMBAChallenger
C7751–6 May 1975D.J. EllettSMBAChallenger 
C3754–13 Mar 1975D.J. EllettSMBAChallengern/a

This table gives the standard positions for Extended Ellett Line stations. The positions are nominal and not all cruises will manage to occupy all stations.

StationLatitudeLongitudeNominal Depth (m)
1G56.667-6.133190
2G56.683-6.28330
3G56.708-6.36770
4G56.733-6.450115
5G56.733-6.60080
6G56.733-6.75040
7G56.733-7.000140
8G56.733-7.167170
9G56.733-7.333160
10G56.733-7.500215
11G56.733-7.667110
12G56.758-7.83350
13G56.783-8.000110
14G56.808-8.167120
T56.837-8.333130
15G56.883-8.500125
S56.950-8.783125
R57.000-9.000300
Q57.050-9.217500
Q157.075-9.317800
P57.100-9.4171400
O57.150-9.7001900
N57.233-10.0502100
M57.300-10.3832300
L57.367-10.6672000
K57.400-10.867800
J57.450-11.083550
I57.467-11.317750
H57.483-11.5332020
G57.492-11.8501800
F57.508-12.2501800
E57.533-12.6331650
D57.542-12.8671000
C57.550-13.000330
B57.567-13.333200
A57.583-13.633100
IB157.667-13.900150
IB1A57.801-14.250220
IB257.950-14.583440
IB2A58.072-14.960600
IB358.250-15.333660
IB3A58.343-15.6661060
IB458.500-16.0001190
IB4A58.566-16.2491120
IB4B58.661-16.5011170
IB4C58.757-16.7501140
IB558.883-17.0001160
IB658.950-17.183890
IB759.117-17.667970
IB859.200-17.8831570
IB959.333-18.2331870
IB1059.400-18.4172420
IB1159.667-19.1172690
IB11A59.809-19.5002700
IB1260.000-20.0002730
IB12A60.250-20.0002600
IB1360.500-20.0002530
IB13A60.750-20.0002500
IB1461.000-20.0002409
IB1561.250-20.0002380
IB1661.500-20.0002230
IB16A61.750-20.0001800
IB1762.000-20.0001800
IB18S62.333-19.8341790
IB19S62.667-19.6681670
IB20S62.917-19.5511400
IB21S63.133-19.9161030
IB22S63.216-20.067670
IB23S63.317-20.215120