par McGonigle, Andrew;Delmelle, Pierre 
;Oppenheimer, Clive;Tsanev, Vitchko;Delfosse, Thomas;Williams-Jones, Glyn;Horton, Keith;Mather, Tamsin
Référence Geophysical research letters, 31, 13, page (L13201 1-4)
Publication Publié, 2004-07
;Oppenheimer, Clive;Tsanev, Vitchko;Delfosse, Thomas;Williams-Jones, Glyn;Horton, Keith;Mather, TamsinRéférence Geophysical research letters, 31, 13, page (L13201 1-4)
Publication Publié, 2004-07
Article révisé par les pairs
| Résumé : | Ground based remote sensing techniques are used to measure volcanic SO2 fluxes in efforts to characterise volcanic activity. As these measurements are made several km from source there is the potential for in-plume chemical transformation of SO2 to sulphate aerosol (conversion rates are dependent on meteorological conditions), complicating interpretation of observed SO2 flux trends. In contrast to anthropogenic plumes, SO2 lifetimes are poorly constrained for tropospheric volcanic plumes, where the few previous loss rate estimates vary widely (from ≪1 to >99% per hour . We report experiments conducted on the boundary layer plume of Masaya volcano, Nicaragua during the dry season. We found that SO2 fluxes showed negligible variation with plume age or diurnal variations in temperature, relative humidity and insolation, providing confirmation that remote SO2 flux measurements (typically of ≈500-2000 s old plumes) are reliable proxies for source emissions for ash free tropospheric plumes not emitted into cloud or fog. Copyright 2004 by the American Geophysical Union. |
