North Atlantic Current and European Slope Current Circulation in the Rockall Trough Observed Using Moorings and Gliders

TitleNorth Atlantic Current and European Slope Current Circulation in the Rockall Trough Observed Using Moorings and Gliders
Publication TypeJournal Article
Year of Publication2022
AuthorsFraser, NJ, Cunningham, SA, Drysdale, LA, Inall, ME, Johnson, C, Jones, SC, Burmeister, K, Fox, AD, Dumont, E, Porter, M, N. Holliday, P
JournalJournal of Geophysical Research: Oceans
KeywordsAMOC, Atlantic, climate, glider, OSNAP

The Rockall Trough (RT) accommodates the warmest and saltiest branch of the North Atlantic Current, which delivers water from the Gulf Stream into the marine environment around western Europe. In addition, the European Slope Current (ESC) carries warm water northward along the eastern boundary of the RT, and exchange between the ESC and the continental shelf is a dominant factor in determining the oceanographic conditions around the British Isles. However, the picture of the mean circulation and variability in the RT is still emerging, with a continuous observational campaign still in its relative infancy. The ESC, in particular, is poorly constrained by ship-based, mooring, and satellite observations. In this paper, we examine the RT circulation and volume transport using a temporally extended and spatially expanded observing network. Six years of continuous mooring occupation reveal that a large-amplitude, basin-scale freshening event, previously detected south of Iceland around 2015, impacted the RT around 2017. Geostrophic transport was greatly reduced during this period, driven by a concurrent subsurface temperature increase at the western boundary. The circulation regained strength during the latter part of the record. We gathered 110 glider transects over 22 months which capture the ESC velocity field in unprecedented detail. The data are sufficient to characterize both the mean state and the emergent seasonal variability of the ESC, and reveal the year-round presence of a southward countercurrent at depth. Variability in the strength and structure of this previously unstudied feature modulates net northward transport in the eastern boundary current system.