Atmospheric evolution of sulfur emissions from Kı̅lauea: real-time measurements of oxidation, dilution, and neutralization within a volcanic plume.

@article{Kroll2015AtmosphericEO,
  title={Atmospheric evolution of sulfur emissions from Kı̅lauea: real-time measurements of oxidation, dilution, and neutralization within a volcanic plume.},
  author={Jesse H. Kroll and Eben S. Cross and J. F. Hunter and Sidhant J. Pai and Lisa M. M. Wallace and Philip L. Croteau and John T. Jayne and Douglas R. Worsnop and Colette L. Heald and Jennifer Grace Murphy and Sheila L. Frankel},
  journal={Environmental science \& technology},
  year={2015},
  volume={49 7},
  pages={
          4129-37
        }
}
The high atmospheric concentrations of toxic gases, particulate matter, and acids in the areas immediately surrounding volcanoes can have negative impacts on human and ecological health. To better understand the atmospheric fate of volcanogenic emissions in the near field (in the first few hours after emission), we have carried out real-time measurements of key chemical components of the volcanic plume from Kı̅lauea on the Island of Hawai'i. Measurements were made at two locations, one ∼ 3 km… 
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