Abstract: The study of mesoscale eddies provides an understanding of entire systems of interconnected oceanic characteristics. Mesoscale eddies have their own dynamics, which are dominated by nonlinear effects. Unlike waves, they can transfer heat, mass, kinetic energy, and biochemical characteristics from the region of their formation over vast distances, influencing climate fluctuations. “Agulhas leakage” refers to the waters exported from the Indian Ocean to the Atlantic Ocean by the Agulhas system of currents. These waters consist mainly of upper and intermediate waters of Indo-Oceanic origin. Mesoscale eddies formed by the Agulhas Current are the dominant structures that transport the waters of the Indian Ocean to the Atlantic. This work studies the Agulhas leakage via a comprehensive analysis of altimetry maps and Argo float data. Argo floats captured by the flow allow the vertical structure of Agulhas leakage eddies to be studied. It is found that the mesoscale eddies of the Agulhas leakage travel thousands of kilometers across the Atlantic while retaining their structure. It is shown that the mean Agulhas leakage transport by one mesoscale eddy is 8.5 Sv. The transport of heat and salt by an individual Agulhas leakage eddy is 2.25 × 109 W and 5.36 × 105 kg s−1, respectively. The heat and salt anomalies inside the eddy are 2.03 × 1015 J and 4.83 × 1011 kg, respectively.

Original languageEnglish
Pages (from-to)1581-1589
Number of pages9
JournalIzvestiya - Atmospheric and Ocean Physics
Issue number12
StatePublished - Dec 2020

    Research areas

  • altimetry, Argo, Atlantic, Indian, mesoscale eddies, Rossby waves, sea level, sea level anomalies, SLA

    Scopus subject areas

  • Oceanography
  • Atmospheric Science

ID: 75380564