BER launches Environmental System Science Program. Visit our new website under construction!

U.S. Department of Energy Office of Biological and Environmental Research

BER Research Highlights

ARM Develops an Affordable, Flexible, and More Accurate Method for Computing Atmospheric Radiative Transfer
Published: September 24, 2003
Posted: October 02, 2003

A team of international researchers led by DOE's Atmospheric Radiation Measurement Program (ARM) has developed an improved way to mathematically describe the transfer of the sun's rays (radiative transfer) through the atmosphere. This new method will improve the ability of models to simulate and predict changes in the Earth's weather and climate. Current methods used to simulate radiative transfer through the atmosphere require large amounts of computer resources and include assumptions regarding the nature and properties of clouds that are subject to bias and error. The new method (named McICA) uses a complex statistical technique to more efficiently incorporate the complexity of cloud properties and their effects on the sun's rays into radiation transfer calculations. The code is more accurate because it does many radiative transfer calculations using the actual cloud distributions as opposed to doing one radiative transfer calculation with average cloud distributions. Previously, the long computation times rendered the statistical approach impracticable. However, the investigators' ingenious scheme dramatically reduces the computational time and makes the approach affordable. The inclusion of the new code into climate models will help reduce uncertainty in global climate and weather predictions. The code has been released for use by modelers in their models. The McICA technique is now being tested for the European Centre for Medium Range Weather Forecasting model.

Contact: Wanda Ferrell, SC-74, (301) 903-0043
Topic Areas:

  • Research Area: Earth and Environmental Systems Modeling
  • Research Area: Atmospheric System Research

Division: SC-33.1 Earth and Environmental Sciences Division, BER
      (formerly SC-74 Environmental Sciences Division, OBER)


BER supports basic research and scientific user facilities to advance DOE missions in energy and environment. More about BER

Recent Highlights

Mar 23, 2021
Molecular Connections from Plants to Fungi to Ants
Lipids transfer energy and serve as an inter-kingdom communication tool in leaf-cutter ants&rsqu [more...]

Mar 19, 2021
Microbes Use Ancient Metabolism to Cycle Phosphorus
Microbial cycling of phosphorus through reduction-oxidation reactions is older and more widespre [more...]

Feb 22, 2021
Warming Soil Means Stronger Microbe Networks
Soil warming leads to more complex, larger, and more connected networks of microbes in those soi [more...]

Jan 27, 2021
Labeling the Thale Cress Metabolites
New data pipeline identifies metabolites following heavy isotope labeling.

Analysis [more...]

Aug 31, 2020
Novel Bacterial Clade Reveals Origin of Form I Rubisco

  • All plant biomass is sourced from the carbon-fixing enzyme Rub [more...]

List all highlights (possible long download time)