Biological and Environmental Research - Earth and Environmental System Sciences
Energy Exascale Earth System Model

Energy Exascale Earth System Model Research Highlights

Submission Datesort ascending Title Author Institution
07/20/2020 Understanding the Simulated Phase Partitioning of Arctic Single-Layer Mixed-Phase Clouds in E3SM Liu, Xiaohong Texas A&M University
06/11/2020 Analytical Framework and Machine Learning Techniques Used to Quantify and Predict Seasonal Variation in African Fire Mao, Jiafu Oak Ridge National Laboratory
02/11/2020 Urban warming advances spring phenology but reduces the response of phenology to temperature in the conterminous United States Mao, Jiafu Oak Ridge National Laboratory
01/22/2020 Mathematical Reconstruction of Radiocarbon From 12C: Application in the E3SM Land Model Riley, William J. Lawrence Berkeley National Laboratory
10/18/2019 The Effects of Phosphorus Cycle Dynamics on Carbon Sources and Sinks in the Amazon Region: A Modeling Study Using ELM v1 Yang, Xiaojuan Oak Ridge National Lab
09/09/2019 Improving Representation of Deforestation Effects on Evapotranspiration in the E3SM Land Model Riley, William J. Lawrence Berkeley National Laboratory
08/26/2019 Representing Nitrogen, Phosphorus, and Carbon Interactions in the E3SM Land Model: Development and Global Benchmarking Riley, William J. Lawrence Berkeley National Laboratory
08/26/2019 Streamflow in the Columbia River Basin: Quantifying Changes Over the Period 1951‐2008 and Determining the Drivers of Those Changes Mao, Jiafu Oak Ridge National Laboratory
04/18/2019 Comparison with Global Soil Radiocarbon Observations Indicates Needed Carbon Cycle Improvements in the E3SM Land Model Riley, William J. Lawrence Berkeley National Laboratory
04/15/2019 Preconditioning and Formation of Maud Rise Polynyas in a High-Resolution Earth System Model Veneziani, Milena Los Alamos National Laboratory
02/11/2019 Soil Moisture Variability Intensifies and Prolongs Eastern Amazon Temperature and Carbon Cycle Response to El Niño–Southern Oscillation Randerson, James T. University of California at Irvine
07/25/2018 Quality Control for Community Based Sea Ice Model Development Hunke, Elizabeth Los Alamos National Laboratory (LANL)
05/18/2018 Contribution of Environmental Forcings to US Runoff Changes for the Period 1950–2010 Mao, Jiafu Oak Ridge National Laboratory (ORNL)
05/07/2018 Strong Dependence of Simulated Carbon-Nitrogen Dynamics on Numerical Coupling Between Nitrogen Uptake and Mineralization Processes Riley, William J. Lawrence Berkeley National Laboratory (LBNL)
08/14/2017 Climate Mitigation from Vegetation Biophysical Feedbacks during the Past Three Decades Shi, Xiaoying Oak Ridge National Laboratory (ORNL)
05/24/2017 Isopycnal Eddy Mixing across the Kuroshio Extension: Stable versus unstable states in an eddying model McClean, Julie L. Scripps Institution of Oceanography (SIO)
05/15/2017 Hope for Constraining Atmospheric Particles’ Effects on Clouds Ghan, Steven J Pacific Northwest National Laboratory (PNNL)
03/10/2017 Gone with the Wind: The Trans-Pacific Journey of Atmospheric Particles Kassianov, Evgueni Pacific Northwest National Laboratory (PNNL)
09/21/2016 Phosphorus Feedbacks Constraining Tropical Ecosystem Responses to Changes in Atmospheric CO2 and Climate Yang, Xiaojuan Climate Change Science Institute
09/21/2016 Human-Induced Greening of the Northern Extratropical Land Surface Mao, Jiafu Oak Ridge National Laboratory (ORNL)
03/10/2016 Aerosol Effects on Different Types of Clouds Ghan, Steven J. Nanjing University - Institute for Climate and Global Change
11/24/2015 Marine Macromolecules: Planetary Scale 2D Chemistry Elliott, Scott Pacific Northwest National Laboratory (PNNL)
11/24/2015 Marine Macromolecules: Planetary Scale 2D Chemistry Elliott, Scott Los Alamos National Laboratory (LANL)
11/24/2015 Marine Macromolecules: Planetary Scale 2D Chemistry Elliott, Scott
11/24/2015 Global Ocean Organosulfur Cycling: DMS in ACME Elliott, Scott
11/12/2015 Diagnosing Ocean Mixing via Lagrangian Particle Tracking (LIGHT) Wolfram, Phillip J.