Add to ORKGMeasurements and studies of the 1980 Mount St. Helens volcanic eruptions and their atmospheric effects and climatic impact are addressed. Specific areas discussed include: (1) nature and impact of volcanic eruptions; (2) in situ measurements of effluents; (3) remote sensing measurements; (4) transport and dispersion of volcanic effluents; (5) chemistry of volcanic effluents; and (6) weather and potential climate impact
Research to help develop better understanding of the role of aerosols in the Earth's radiative balan...
The aerosols and gases resulting from the El Chichon volcanic eruption had, and may still have, sign...
The impacts of volcanic eruptions on climate are increasingly well understood, but the mirror questi...
The atmospheric and potential climatic aspects of a volcanic eruption were discussed. Measurements a...
Volcanic eruptions have long been studied for their wide range of climatic effects. Although global-...
The cataclysmic eruption of Mount St. Helens on May 18, 1980, made an enormous impact on the science...
The project Research on Atmospheric Volcanic Emissions is a unique effort by NASA and university s...
The dominant global impact of volcanic activity is likely to be related to the effects of volcanic g...
Two primary goals are identified as focal to NASA's research efforts in volcanology during the 1990s...
The large amount of scientific data collected on the Mount St. Helens eruption has resulted in signi...
"Proceedings of the Symposium on Mount St. Helens: Its Atmospheric Effects and Potential Climatic Im...
Volcanic eruptions which inject large amounts of sulfur-rich gas into the stratosphere produce dust ...
The representation of volcanic eruptions in climate models introduces some of the largest errors whe...
Explosive volcanism can release large amounts of particles and gases into the atmosphere. Sulfuric a...
A study of volcanic activity and its effects on the atmosphere is one of 28 interdisciplinary invest...
Research to help develop better understanding of the role of aerosols in the Earth's radiative balan...
The aerosols and gases resulting from the El Chichon volcanic eruption had, and may still have, sign...
The impacts of volcanic eruptions on climate are increasingly well understood, but the mirror questi...
The atmospheric and potential climatic aspects of a volcanic eruption were discussed. Measurements a...
Volcanic eruptions have long been studied for their wide range of climatic effects. Although global-...
The cataclysmic eruption of Mount St. Helens on May 18, 1980, made an enormous impact on the science...
The project Research on Atmospheric Volcanic Emissions is a unique effort by NASA and university s...
The dominant global impact of volcanic activity is likely to be related to the effects of volcanic g...
Two primary goals are identified as focal to NASA's research efforts in volcanology during the 1990s...
The large amount of scientific data collected on the Mount St. Helens eruption has resulted in signi...
"Proceedings of the Symposium on Mount St. Helens: Its Atmospheric Effects and Potential Climatic Im...
Volcanic eruptions which inject large amounts of sulfur-rich gas into the stratosphere produce dust ...
The representation of volcanic eruptions in climate models introduces some of the largest errors whe...
Explosive volcanism can release large amounts of particles and gases into the atmosphere. Sulfuric a...
A study of volcanic activity and its effects on the atmosphere is one of 28 interdisciplinary invest...
Research to help develop better understanding of the role of aerosols in the Earth's radiative balan...
The aerosols and gases resulting from the El Chichon volcanic eruption had, and may still have, sign...
The impacts of volcanic eruptions on climate are increasingly well understood, but the mirror questi...