Computer model provides a new portrait of carbon dioxide Date: November 17, 2014 Source: NASA/Goddard Space Flight Center Summary: An ultra-high-resolution computer model has given scientists a ...

Current models do not account for nitrogen processing, and probably exaggerate the terrestrial ecosystem's potential to slow atmospheric carbon dioxide rise, the researchers say. Researchers at ...

According to the model, admissible carbon dioxide emissions will increase from approximately seven billion tonnes of carbon in the year 2000 to a maximum value of around ten billion tonnes in 2015.

New research from the University of California, Davis, the Chinese Academy of Sciences and Texas A&M University reveals that ...

The model better accounts for the contributions of Earth’s terrestrial ecosystems to atmospheric concentrations of the greenhouse gas carbon dioxide, a major source of uncertainty for scientists ...

Carbon dioxide’s powerful heat-trapping effect has been traced to a quirk of its quantum structure. The finding may explain climate change better than any computer model.

While that may seem like a lot for one model—50 metric tons of carbon dioxide emissions is the equivalent of around 60 flights between London and New York—it's significantly less than the ...

In this work, carbon dioxide adsorption behavior is demonstrated and accurately predicted under a wide range of temperature and pressure using the dual-site Langmuir model. This model sufficiently ...

Single-atom-kernelled nanocluster catalyst obtained in 'anti-galvanic reaction' for carbon dioxide conversion. by Zhang Nannan, Chinese Academy of Sciences ...

Big Number. Up to 6,000 tons. That’s how much carbon dioxide the average carbon-capture train could remove from the atmosphere per year, according to researchers, making up a small fraction of ...

Inorganic carbon—mostly in the form of solid carbonate minerals like limestone, marble, or chalk—is different from organic carbon like plant litter, bacteria, and animal waste.

The carbon dioxide visualization was produced by a computer model called GEOS-5, created by scientists at NASA Goddard’s Global Modeling and Assimilation Office.