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Main Authors: Geng, Qianqian, Chen, Ru, Qiu, Bo, Jing, Zhao, Su, Xin, Huang, Gang, Liu, Qinyu, Chen, Yang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.06327
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author Geng, Qianqian
Chen, Ru
Qiu, Bo
Jing, Zhao
Su, Xin
Huang, Gang
Liu, Qinyu
Chen, Yang
author_facet Geng, Qianqian
Chen, Ru
Qiu, Bo
Jing, Zhao
Su, Xin
Huang, Gang
Liu, Qinyu
Chen, Yang
contents Kinetic energy (KE) cascade in the turbulent ocean is pivotal in connecting diverse scales of oceanic motions, redistributing energy, and influencing ocean circulation and climate variability. However, its response to global warming remains poorly understood. Using a 24-year satellite altimetry dataset, we identify a pronounced intensification of inverse geostrophic kinetic energy cascade at the sea surface across most ocean regions during 1994-2017, with cascade amplitude increasing by 1% to 2% per decade. This intensification occurs not only in energetic regions but also in expansive quiescent areas. Contributing factors to this intensification of geostrophic KE cascade include enhanced vertical shear of horizontal velocity, deepened mixed layer, strengthened stratification, weakened eddy killing as well as changes in the KE budget. The dominant factors vary across regions. Our findings offer new insights into the ocean's response to global warming and improve understanding of feedback mechanisms for ocean circulation changes.
format Preprint
id arxiv_https___arxiv_org_abs_2505_06327
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Intensification of Oceanic Inverse Energy Cascade Under Global Warming
Geng, Qianqian
Chen, Ru
Qiu, Bo
Jing, Zhao
Su, Xin
Huang, Gang
Liu, Qinyu
Chen, Yang
Geophysics
Fluid Dynamics
Kinetic energy (KE) cascade in the turbulent ocean is pivotal in connecting diverse scales of oceanic motions, redistributing energy, and influencing ocean circulation and climate variability. However, its response to global warming remains poorly understood. Using a 24-year satellite altimetry dataset, we identify a pronounced intensification of inverse geostrophic kinetic energy cascade at the sea surface across most ocean regions during 1994-2017, with cascade amplitude increasing by 1% to 2% per decade. This intensification occurs not only in energetic regions but also in expansive quiescent areas. Contributing factors to this intensification of geostrophic KE cascade include enhanced vertical shear of horizontal velocity, deepened mixed layer, strengthened stratification, weakened eddy killing as well as changes in the KE budget. The dominant factors vary across regions. Our findings offer new insights into the ocean's response to global warming and improve understanding of feedback mechanisms for ocean circulation changes.
title Intensification of Oceanic Inverse Energy Cascade Under Global Warming
topic Geophysics
Fluid Dynamics
url https://arxiv.org/abs/2505.06327