NTRS - NASA Technical Reports Server

Back to Results
atmospheric effects and potential climatic impact of the 1980 eruptions of mount st. helensMeasurements 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.
Document ID
Document Type
Conference Proceedings
Deepak, A.
(NASA Langley Research Center Hampton, VA, United States)
Date Acquired
September 4, 2013
Publication Date
October 1, 1982
Subject Category
Report/Patent Number
NAS 1.55:2240
Funding Number(s)
PROJECT: RTOP 665-40-40-10
Distribution Limits
Work of the US Gov. Public Use Permitted.

Available Downloads

NameType 19830003264.pdf STI

Related Records

IDRelationTitle19830003265Analytic SubsidiaryThe 18 May 1980 eruption of Mount St. Helens: The nature of the eruption, with an atmospheric perspective19830003266Analytic SubsidiaryVolcanoes and climate19830003267Analytic SubsidiaryImpact of Mount St. Helens eruption on ecosystems19830003268Analytic SubsidiaryImpact of Mount St. Helens eruption on hydrology and water quality19830003269Analytic SubsidiaryPrecursor gases of aerosols in the Mount St. Helens eruption plumes at stratospheric altitudes19830003270Analytic SubsidiaryTime variations of aerosols in the stratosphere following Mount St. Helens eruptions19830003271Analytic SubsidiaryDustsonde measurements of the Mount St. Helens volcanic dust cloud over Wyoming19830003272Analytic SubsidiaryPhysical and chemical characteristics of Mount St. Helens airborne debris19830003273Analytic SubsidiarySAGE measurements of Mount St. Helens volcanic aerosols19830003274Analytic SubsidiaryMeasurements of stratospheric aerosols over Mauna Loa, Hawaii and Boulder, Colorado19830003275Analytic SubsidiaryGround-based and airborne measurements of the Mount St. Helens stratospheric effluents19830003276Analytic SubsidiaryDistribution of Mount St. Helens dust inferred from satellites and meteorological data19830003277Analytic SubsidiaryMount St. Helens plume dispersion based on trajectory analyses19830003278Analytic SubsidiaryA comparison of constituents of Mount St. Helens eruption clouds with those of some other volcanoes19830003279Analytic SubsidiarySimulation studies of the physical and chemical processes occurring in the stratospheric clouds of the Mount St. Helens eruptions of May and June 198019830003280Analytic SubsidiaryThe climatic effect of explosive volcanic activity: Analysis of the historical data19830003281Analytic SubsidiaryProblems in the climatology of the 1980 Mount St. Helens eruptions19830003282Analytic SubsidiaryThe mechanisms of fine particle generation and electrification during Mount St. Helens volcanic eruption19830003283Analytic SubsidiaryMeasurements of SO2 in the Mount St. Helens debris19830003284Analytic SubsidiaryAsh loading and insolation at Hanford, Washington during and after the eruption of Mount St. Helens19830003285Analytic SubsidiaryMount St. Helens dust veil observed at Boulder, Colorado by optical techniques19830003286Analytic SubsidiaryAircraft sampling of the sulfate layer near the tropopause following the eruption of Mount St. Helens19830003287Analytic SubsidiaryAn incursion of dust in the southwestern United States from April 1980 eruptions of Mount St. Helens19830003288Analytic SubsidiaryMount St. Helens related aerosol properties from solar extinction measurements19830003289Analytic SubsidiaryDeposition and dose from the 18 May 1980 eruption of Mount St. Helens19830003290Analytic SubsidiaryAmbient airborne solids concentrations including volcanic ash at Hanford, Washington sampling sites subsequent to the Mount St. Helens eruption19830003291Analytic SubsidiaryThe formulation of Lamb's Dust Veil Index19830003292Analytic SubsidiaryForward scattering and backscattering of solar radiation by the stratospheric limb after Mount St. Helens eruption