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Frontiers Circulation Driven by Multihump Turbulent Mixing Over

Frontiers Circulation Driven by Multihump Turbulent Mixing Over

Frontiers Three-dimensional numerical study of the deep western boundary current in the South China Sea

Turbulent mixing mechanisms across various length scales [7]

Turbulent characteristics in complex coastal areas assessed using BSWO observations and WRF-LES simulation results - ScienceDirect

How vegetation in flows modifies the turbulent mixing and spreading of jets

Deep Circulation in the South Atlantic Induced by Bottom-Intensified Mixing over the Midocean Ridge in: Journal of Physical Oceanography Volume 32 Issue 4 (2002)

Turning Ocean Mixing Upside Down in: Journal of Physical Oceanography Volume 46 Issue 7 (2016)

Turbulent characteristics in complex coastal areas assessed using BSWO observations and WRF-LES simulation results - ScienceDirect

Frontiers Circulation Driven by Multihump Turbulent Mixing Over a Seamount in the South China Sea

Deep Circulation in the South Atlantic Induced by Bottom-Intensified Mixing over the Midocean Ridge in: Journal of Physical Oceanography Volume 32 Issue 4 (2002)

Stratification and flow characteristics from a typical glider section

Deep-sea turbulence evolution observed by multiple closely spaced instruments

New Data on Deep Sea Turbulence Shed Light on Vertical Mixing – Woods Hole Oceanographic Institution

Circulations - List of Frontiers' open access articles

seamount - List of Frontiers' open access articles