Litcius/Paper detail

The Increased Eddy Kinetic Energy in the California Current System From High‐Resolution Climate Models' Projections

Shengpeng Wang, Yang Chen, Zhao Jing, Lixin Wu

2025Geophysical Research Letters5 citationsDOIOpen Access PDF

Abstract

Abstract Mesoscale eddies pervade entire ocean and exert a profound influence on regional and global climate, meaning that their response to climate change is of critical importance. However, our understanding of climate change impacts on mesoscale eddies is largely limited to eddy‐rich regions, such as western boundary currents or Southern Ocean. Here, by employing an ensemble of high‐resolution global climate simulations, we assess the response of eddy kinetic energy (EKE) to greenhouse warming in California Current System (CalCS), a prominent eastern boundary current system. We demonstrate that the EKE in CalCS is projected to increase significantly under global warming. The increasing trend is majorly attributed to enhanced baroclinic instability associated with the projected increase in vertical velocity shear, primarily resulting from the accelerated California Current in the North Pacific. Our study suggests that future changes in oceanic motions in CalCS could be complex, potentially causing significant impacts on regional marine ecosystems.

Topics & Concepts

Kinetic energyEnvironmental scienceCurrent (fluid)ClimatologyClimate modelEnergy (signal processing)Atmospheric sciencesClimate changeMeteorologyGeologyPhysicsOceanographyClassical mechanicsQuantum mechanicsMeteorological Phenomena and SimulationsClimate variability and modelsOceanographic and Atmospheric Processes