What question did this study set out to answer?

The aim is to investigate the spatial transfer of kinetic energy in the global ocean and its nonlocal characteristics.

April 10, 2026Open Access

Satellite altimetry reveals spatially nonlocal kinetic energy cascade in the global ocean

Key Points

The aim is to investigate the spatial transfer of kinetic energy in the global ocean and its nonlocal characteristics.
Utilized satellite altimetry for data collection
Employed a coarse-graining framework to analyze kinetic energy
Examined eddy-rich regions like the Kuroshio Extension and Southern Ocean
Identified that kinetic energy transfer is spatially nonlocal rather than local
Observed significant residual kinetic energy in eddy-rich regions
Confirmed that nonlocal KE transfer is a robust characteristic of global ocean dynamics

Abstract

The transfer of kinetic energy (KE) across spatial scales has traditionally been viewed as a process where KE lost or gained by larger-scale motions is balanced by smaller-scale motions within the same region. Using satellite altimetry and a coarse-graining framework, we show that the global surface KE cascade is predominantly spatially nonlocal: Energy lost or gained by larger scales can be redistributed and transported to or from other regions rather than solely feeding local smaller scales. In eddy-rich regions, such as the Kuroshio Extension and Southern Ocean, this nonlocality is pronounced and associated with non-negligible residual KE. This nonlocal behavior is also evident in ocean models, revealing that spatially nonlocal KE transfer is a fundamental and robust feature of global ocean dynamics.

Satellite altimetry reveals spatially nonlocal kinetic energy cascade in the global ocean

Key Points

Abstract

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