E3SM Ecosystem Projects Summary
The E3SM project does not exist in isolation, but rather as part of an international effort in Earth system science research. The connections primarily are through complementary, and in many cases coordinated, efforts funded by the DOE Office of Science.
The E3SM.org staff have recently updated the following two pages with the latest Ecosystem Projects and Closely Related Projects pages.
The list of current Ecosystem Projects includes:
- Probabilistic Sea-Level Projections from Ice Sheet and Earth System Models (SciDAC) – Steve Price (LANL) and Esmond Ng (LBNL)
- Coupling Approaches for Next-Generation Architectures (SciDAC) – Phil Jones (LANL)
- A New Discrete Element Sea-Ice Model for Earth System Modeling (SciDAC) – Adrian Turner (LANL)
- Non-Hydrostatic Dynamics with Multi-Moment Characteristic Discontinuous Galerkin Methods (SciDAC) – Pete Bosler (SNL)
- Assessing and Improving the Numerical Solution of Atmospheric Physics in E3SM (SciDAC) – Hui Wan (PNNL)
- Development of Terrestrial Dynamical Cores for the ACME to Simulate Water Cycle (SciDAC) – Gautam Bisht (PNNL)
- Cloud-Resolving Climate Modeling of the Earth’s Water Cycle (ECP) – Mark Taylor (SNL)
- Adaptive Vertical Grid Enhancement for E3SM (SciDAC) – Tak Yamaguchi, University of Colorado/NOAA
- Efficient and Scalable Time-Stepping Algorithms and Reduced-Order Modeling for Ocean System Simulations (SciDAC) – Max Gunzburger (Florida State University) and Phil Jones (LANL)
- InteRFACE: Interdisciplinary Research for Arctic Coastal Environments – Joel Rowland (LANL)
- Integrated Coastal Modeling (ICoM) – Ian Kraucunas (PNNL)
- Enabling Aerosol-cloud interactions at GLobal convection-permitting scalES (EAGLES) – Po-Lun Ma (PNNL)
- E3SM Visualizations: Science, Realism, and Scale – Erika Roesler (SNL)
- Scientific Visualization in support of the E3SM Cryosphere Simulation Campaign – John Patchett (LANL)
The Closely Related Projects include:
- Parameterizing the Impact of Mesoscale Eddies on Earth System Process in the Energy Exascale Earth System Model – Anand Gnanadesikan (Johns Hopkins University) and Mark Petersen (LANL)
- Incorporate more realistic surface-atmosphere radiative coupling in E3SM – Xianglei Huang (University of Michigan) and Wuyin Lin (BNL)
- Enhancing Convection Parameterization for Next Generation E3SM – Guang Zhang (University of California-SIO) and Shaocheng Xie (LLNL)
- The Multi-Plume Eddy-Diffusivity/Mass-Flux (EDMF) Unified Parameterization: Stratocumulus and the Transition to Cumulus Boundary Layers – Joao Teixeira (University of California, Los Angeles)
- Improving Momentum Transport Processes in E3SM – Jadwiga Richter (University Corporation for Atmospheric Research) with Phil Rasch (LBNL) and Shaocheng Xie (LLNL)
- Collaborative Project: Developing Coupled Data Assimilation Strategy – Zhengyu Liu (Ohio State University) with Luke Van Roekel (LANL) and Balwinder Singh (PNNL)