Latest Articles for Oceanography

Study showcases how waves influence collisions between ice floes in the Marginal Ice Zone.

Studying ocean tides reveals insights into the Earth's magnetic fields.

New method boosts ocean bottom pressure data using artificial intelligence.

Examining past climate changes using oxygen isotope ratios in ocean sediments.

Study of how turbulent flows interact with landscapes, influencing energy transfer in water bodies.

New methods enhance analysis of ocean currents and energy distribution.

Examining wave dynamics influenced by Earth's rotation and curvature.

A new approach predicts underwater noise using advanced AI techniques.

Examining how melting ice changes ocean temperature and salinity.

This article examines how fluids mix and behave over time in various environments.

Exploring filtering methods to improve ocean flow simulations using two-layer quasi-geostrophic equations.

Study of edge-waves and slopes in baroclinic instability enhances weather and climate models.

New methods improve accuracy in challenging underwater navigation.

A look into Stokes waves, their stability, and importance in science.

Internal tides affect marine life and coastal ecosystems significantly.

A look into modulational instability and its significance in wave science.

Examining how ocean circulation influences climate and the potential impacts of climate change.

A new method for studying energy movements in fluid systems.

An overview of Lagrangian averaging and its role in fluid analysis.

Examining how oceans store carbon and their impact on climate change.

A new method improves accuracy in calculating ocean wave properties.

Exploring how sound moves through ocean floor materials for research and communication.

Exploring the implications of nonuniqueness in fluid dynamics through the 2D Euler equation.

Exploring new methods for accurate positioning in underwater neutrino detection.

Examining how different waves interact with Burgers bores in fluid dynamics.

Introducing FB-LTS, a method improving efficiency in shallow water simulations.

This article investigates how salinity and temperature affect the AMOC's stability.

A mathematical model improves the study of waves over swirling fluid flows.

A novel approach improves tracking of ocean eddies by addressing data uncertainties.

Exploring the stability of Stokes waves and the role of modulation instability.

A new model aims to improve medium-range weather predictions.

Examining how mixing affects ocean oscillations and climate dynamics.

New radar antennas aim to improve surface current predictions in coastal waters.

WV-Net model improves analysis of SAR images for ocean monitoring.

A look into shallow water systems and their importance in marine science.

This article explores how small-scale dynamics impact particle transport in turbulent ocean waters.

Ice sheets' data analysis is vital in fighting climate change and rising sea levels.

This article examines changes in Rayleigh-Jeans equilibrium states over time.

A deep look into the behavior and significance of surface waves.

Research explores how carbohydrates behave in the ocean's carbon cycle.