Genesis, evolution, and apocalypse of Loop Current rings
Abstract
We carry out assessments of the life cycle of Loop Current vortices, so-called rings, in the Gulf of Mexico by applying three objective (i.e., observer-independent) coherent Lagrangian vortex detection methods on velocities derived from satellite altimetry measurements of sea-surface height (SSH). The methods reveal material vortices with boundaries that withstand stretching or diffusion, or whose fluid elements rotate evenly. This involved a technology advance that enables framing vortex genesis and apocalypse robustly and with precision. We find that the stretching- and diffusion-withstanding assessments produce consistent results, which show large discrepancies with Eulerian assessments that identify vortices with regions instantaneously filled with streamlines of the SSH field. The even-rotation assessment, which is vorticity-based, is found to be quite unstable, suggesting life expectancies much shorter than those produced by all other assessments.
Keywords
Cite
@article{arxiv.2009.09050,
title = {Genesis, evolution, and apocalypse of Loop Current rings},
author = {F Andrade-Cano and D. Karrasch and F. J. Beron-Vera},
journal= {arXiv preprint arXiv:2009.09050},
year = {2020}
}
Comments
Submitted to Physics of Fluids