Lagrangian analysis is a powerful way to analyse the output of ocean circulation models and
other ocean velocity data such as from altimetry. In the Lagrangian approach, large sets of …

Supported by the US Department of Energy (DOE), the Energy Exascale Earth System
Model (E3SM) project aims to optimize the use of DOE resources to address the grand …

Abstract The Energy Exascale Earth System Model (E3SM) is a new coupled Earth system
model sponsored by the US Department of Energy. Here we present E3SM global …

Mesoscale eddy mixing profoundly modulates the ocean tracer budgets, and is typically
parameterized via the isopycnal eddy diffusivity in ocean climate models. However …

Isopycnal mixing of tracers is important for ocean dynamics and biogeochemistry. Previous
studies have primarily focused on the horizontal structure of mixing, but what controls its …

The Lagrangian analysis of sets of particles advected with the flow fields of ocean models is
used to study connectivity, that is, exchange pathways, time scales, and volume transports …

Oceanic mesoscale eddy mixing plays a crucial role in Earth's climate system by
redistributing heat, salt, and carbon. For many ocean and climate models, mesoscale eddies …

Mixing Nonlocality and Mixing Anisotropy in an Idealized Western Boundary Current Jet in:
Journal of Physical Oceanography Volume 47 Issue 12 (2017) Jump to Content Jump to Main …

To resolve nonlinear internal wave motions in regional domains, we propose a one-way
ocean model nesting framework in which a nonhydrostatic model is nested within a regional …

Color provides the primary conduit through which we extract insight from data visualizations.
As the dynamic range of data grows, extracting salient features from surrounding context …