Particles and gases in the emissions from the 1980–1981 volcanic eruptions of Mt. St. Helens

Abstract

Detailed airborne measurements of particles and gases were made in the volcanic effluents from Mt. St. Helens from March 1980 through August 1981. The results of these measurements are summarized and are used to deduce emission fluxes of particles and gases from the volcano. Measurements on the periphery of the plume of effluents produced by the violent paroxysmal eruption of May 18, 1980, showed number concentrations of particles 2 μm in diameter up to 1500 and 20,000 times greater, respectively, than in the ambient air. Mass concentrations of particles in the periphery of the plume on May 18 were ∼7000 μg m⁻³ with particles >2 μm making the dominant contribution. However, the percentage of the total mass in particles 20 s⁻¹ during the May 18 eruption to 2×10¹⁵ s⁻¹ in phreatic emissions. The particulate mass fluxes ranged from 6×10⁴ to 10⁻² kg s⁻¹. The total input to the atmosphere of particulate mass from Mt. St. Helens from March 28, 1980, to March 28, 1981, is estimated to be ∼2 Tg. A sometimes substantial, but highly variable, percentage (0–91) of the mass of material in the plume of effluents consisted of soluble halides and sulfates. Fluxes of cloud condensation nuclei (active at 1% supersaturation) in the plume from the volcano ranged from 10¹⁶ to 2×10¹⁷ s⁻¹. Gases in the effluents included H₂O, SO₂, H₂S, CO₂, N₂, NO, CO, CH₃, Cl, COS, and CS₂. An unusually high percentage (35–100) of the sulfur was H₂S, particularly during the paroxysmal and intraeruptive periods. Ozone was depressed below ambient values in the plume. SO₂‐to‐SO₄ = and NO₂‐to‐NO₃⁻ conversions were observed in the plume at rates of ∼0.1–1% h⁻¹. About 1% of the total material in the tropopause plume from Mt. St. Helens on May 18, 1980, was estimated to have reached the stratosphere. This yields estimates for the stratospheric injections on May 18, 1980, of 3×10⁹ (and 1.5×10⁸) kg of H₂0, 1.3×10⁵ (and 6×10⁴) kg of particles 18 (and 1×10¹⁸) Aitken nuclei, 6×10⁴ (and 3×10⁴) kg of SO₂, 3×10⁴ (and 3×10⁴) kg of H₂S, 4×10⁹ (and 1×10⁹) kg of CO₂ and 3×10⁷ (and 3×10⁷) kg of CO where, in each case, the first number is the total injection (i.e., volcanic plus entrained tropospheric material) and the number in parentheses is the material that derived from the volcano itself.