Not exact matches
«Using a numerical climate model we found that sulfate reductions over Europe between 1980 and 2005 could explain a significant fraction of the amplified warming in the Arctic region during that period due to changes in long -
range transport,
atmospheric winds and ocean currents.
Predictive accuracies
ranging from 89.4 % to as high as 99.1 % show that trained deep learning neural networks (DNNs) can identify weather fronts, tropical cyclones, and long narrow air flows that
transport water vapor from the tropics called
atmospheric rivers.
GEM, with an
atmospheric lifetime in the
range of 5 — 24 months, can be
transported across long distances to remote locations before conversion to divalent Hg species by
atmospheric oxidation processes (4).