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Título
The recovery and re-calibration of a 13-month aerosol extinction profiles dataset from searchlight observations from New Mexico, after the 1963 Agung eruption
Autor
Año del Documento
2024
Editorial
MDPI
Descripción
Producción Científica
Documento Fuente
Atmosphere, 2024, Vol. 15, Nº. 6, 635
Abstract
The recovery and re-calibration of a dataset of vertical aerosol extinction profiles of the 1963/64 stratospheric aerosol layer measured by a searchlight at 32°N in New Mexico, US, is reported. The recovered dataset consists of 105 aerosol extinction profiles at 550 nm that cover the period from December 1963 to December 1964. It is a unique record of the portion of the aerosol cloud from the March 1963 Agung volcanic eruption that was transported into the Northern Hemisphere subtropics. The data-recovery methodology involved re-digitizing the 105 original aerosol extinction profiles from individual Figures within a research report, followed by the re-calibration. It involves inverting the original equation used to compute the aerosol extinction profile to retrieve the corresponding normalized detector response profile. The re-calibration of the original aerosol extinction profiles used Rayleigh extinction profiles calculated from local soundings. Rayleigh and aerosol slant transmission corrections are applied using the MODTRAN code in transmission mode. Also, a best-estimate aerosol phase function was calculated from observations and applied to the entire column. The tropospheric aerosol phase function from an AERONET station in the vicinity of the searchlight location was applied between 2.76 to 11.7 km. The stratospheric phase function, applied for a 12.2 to 35.2 km altitude range, is calculated from particle-size distributions measured by a high-altitude aircraft in the vicinity of the searchlight in early 1964. The original error estimate was updated considering unaccounted errors. Both the re-calibrated aerosol extinction profiles and the re-calibrated stratospheric aerosol optical depth magnitudes showed higher magnitudes than the original aerosol extinction profiles and the original stratospheric aerosol optical depth, respectively. However, the magnitudes of the re-calibrated variables show a reasonable agreement with other contemporary observations. The re-calibrated stratospheric aerosol optical depth demonstrated its consistency with the tropics-to-pole decreasing trend, associated with the major volcanic eruption stratospheric aerosol pattern when compared to the time-coincident stratospheric aerosol optical depth lidar observations at Lexington at 42° N.
Materias (normalizadas)
Atmospheric sciences
Atmósfera
Aerosols
Aerosoles
Atmospheric aerosols - Remote sensing
Aerosoles atmosféricos
Atmosphere - Laser observations
Optical radar
Volcanic eruptions
Volcanes
Meteorological optics
Óptica atmosférica
Air - Pollution
Aire - Contaminación
Materias Unesco
2501 Ciencias de la Atmósfera
2509.02 Contaminación Atmosférica
ISSN
2073-4433
Revisión por pares
SI
Patrocinador
Centro Nacional de Ciencias Atmosféricas (NCAS) de Reino Unido, Consejo de Investigación del Medio Ambiente Natural (NERC) - (grant ACSIS: NERC NE/ N018001/1 and NE/R011222/1)
Union Europea, Servicio de Vigilancia Atmosférica de Copernicus (CAMS) - (grant CAMS43)
Union Europea, Servicio de Vigilancia Atmosférica de Copernicus (CAMS) - (grant CAMS43)
Version del Editor
Propietario de los Derechos
© 2024 The authors
Idioma
eng
Tipo de versión
info:eu-repo/semantics/publishedVersion
Derechos
openAccess
Collections
Files in this item
Except where otherwise noted, this item's license is described as Atribución 4.0 Internacional
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