The warm and saline Subtropical Water carried by the North Atlantic Current undergoes substantialtransformation on its way to higher latitudes as heat is released from ocean to atmosphere.The geographical distribution of the surface-forced water mass transformation is assessedin multi-century climate simulations in three different climate models, with a particularfocus on the eastern subpolar North Atlantic Ocean. The models of the study are BCM, IPSLCM4,and MPI-M ESM. The diagnosis, originally introduced byWalin (1982), estimates thetransformation in water mass outcrop areas from heat and freshwater fluxes. The integrated heatflux in the eastern subpolar region has a larger contribution than the freshwater flux to the watermass transformation in all three models. While the pattern of the Atlantic Meridional OverturningCiculation (AMOC) is similar in all models, the fluxes are very different. The differentpathways of the North Atlantic Current, and upper ocean low salinity water, as well as sea icecover have strong influence on the water mass transformation. The water mass transformationin the eastern subpolar region shows pronounced variability on decadal time scale in all models,and is found to reflect the variability in the overturning circulation in two of the models with atime lag of 7-8 years.
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