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Showing 1–5 of 5 results

Advanced filters: Author: Maxim Nikurashin Clear advanced filters

Remote energy sources for mixing in the Indonesian Seas

In addition to locally generated tidal mixing, remotely generated planetary (Kelvin and Rossby) waves and eddies are found to supply energy into the Indonesian Seas, sufficient to drive mixing in the upper ocean at rates inferred from observations.

Chengyuan Pang
Maxim Nikurashin
Bernadette M. Sloyan
ResearchOpen Access01 Nov 2022
Nature Communications

Volume: 13, P: 1-6
Southern Ocean buoyancy forcing of ocean ventilation and glacial atmospheric CO₂

Ocean circulation and dynamics can alter atmospheric CO₂ concentrations. Numerical modelling suggests that shifts in surface buoyancy loss and the location of upwelling can sequester CO₂ in the Southern Ocean during glacial periods.

Andrew J. Watson
Geoffrey K. Vallis
Maxim Nikurashin
Research28 Sept 2015
Nature Geoscience

Volume: 8, P: 861-864
Routes to energy dissipation for geostrophic flows in the Southern Ocean

Wind power inputs at the surface ocean are dissipated through smaller-scale processes in the ocean interior and turbulent boundary layer. Simulations suggest that seafloor topography enhances turbulent mixing and energy dissipation in the ocean interior.

Maxim Nikurashin
Geoffrey K. Vallis
Alistair Adcroft
Research21 Dec 2012
Nature Geoscience

Volume: 6, P: 48-51
Dissipation of mesoscale eddies and its contribution to mixing in the northern South China Sea

Qingxuan Yang
Maxim Nikurashin
Jiwei Tian
ResearchOpen Access24 Jan 2019
Scientific Reports

Volume: 9, P: 1-9
Seafloor roughness reduces melting of East Antarctic ice shelves

Bathymetry-based numerical simulations suggest small-scale seafloor roughness in the continental shelf of East Antarctica slows the circulation of circumpolar deep water and limits heat supply to the ice shelf—a mechanism missing from climate models.

Yuhang Liu
Maxim Nikurashin
Beatriz Peña-Molino
ResearchOpen Access13 Jun 2024
Communications Earth & Environment

Volume: 5, P: 1-10