Gulf Stream Mean and Eddy Kinetic Energy: Three-Dimensional Estimates From Underwater Glider Observations

The strong, meandering, and eddy-shedding Gulf Stream is a large oceanic reservoir of both mean and eddy kinetic energy in the northwestern Atlantic. Since 2015, underwater gliders equipped with Doppler current profilers have collected over 20,000 absolute velocity profiles in and near the Gulf Stream along the US East Coast. Those observations are used to make three-dimensional estimates of mean and eddy kinetic energy, substantially expanding the geographic coverage of prior estimates of subsurface kinetic energy in the Gulf Stream. Glider observations are combined via weighted least squares fitting with anisotropic and inhomogeneous length scales to reflect both circulation and sampling density; this averaging technique can be applied to other quantities measured by the gliders. Mean and eddy kinetic energy decay approximately exponentially away from the surface. Vertical decay scales are longest within the high-speed core of the Gulf Stream and somewhat shorter on the flanks of the Gulf Stream.

Automated summary

A study of the Gulf Stream along the US East Coast using underwater gliders shows that kinetic energy decays exponentially away from the surface, with the longest vertical decay scales within the high-speed core of the Gulf Stream and somewhat shorter on the flanks.