Litcius/Paper detail

Signature of Ocean Warming at the Mixed Layer Base

Louis Clément, Elaine L. McDonagh, Alice Marzocchi, A. J. George Nurser

2020Geophysical Research Letters24 citationsDOIOpen Access PDF

Abstract

Abstract The warming climate influences the ocean by changing its wind‐driven dynamics and by inputting extra heat. This study analyzes the warming where temperature anomalies penetrate the ocean interior, that is, by focusing on the winter mixed layer base. This allows to distinguish regions where ocean circulation contributes to warm anomalies from locations where density‐compensated temperature anomalies locally enter the ocean along isopycnals. Multidecadal (1980–2018) local temperature trends from a hydrographic data set are examined at the winter mixed layer base and partitioned into components relating to isopycnal movement (heave) and change along isopycnals (spice). Subtropical gyres and western boundary currents show warming larger than the global average that mostly projects onto heave. This is the result of the strengthening of the circulation in the Southern Hemisphere subtropical gyres and is related to both wind‐driven changes and Southern Ocean warming. Subtropical regions of surface salinity maxima are influenced by warm anomalies along isopycnals.

Topics & Concepts

Ocean gyreIsopycnalClimatologyMixed layerHydrographySubtropicsGeologyOceanographyTemperature salinity diagramsSouthern HemisphereOcean currentEnvironmental scienceOcean heat contentSea surface temperatureSalinityBiologyFisheryOceanographic and Atmospheric ProcessesClimate variability and modelsGeology and Paleoclimatology Research