Beyond the Ångström Exponent : Probing Additional Information in Spectral Curvature and Variability of In Situ Aerosol Hyperspectral (0.3-0.7 μm) Optical Properties

Détails bibliographiques
Publié dans:	Journal of geophysical research. Atmospheres : JGR. - 1998. - 127(2022), 21 vom: 16. Nov., Seite e2022JD037201
Auteur principal:	Jordan, Carolyn E (Auteur)
Autres auteurs:	Anderson, Bruce E, Barrick, John D, Blum, Dani, Brunke, Kathleen, Chai, Jiajue, Chen, Gao, Crosbie, Ewan C, Dibb, Jack E, Dillner, Ann M, Gargulinski, Emily, Hudgins, Charles H, Joyce, Emily, Kaspari, Jackson, Martin, Robert F, Moore, Richard H, O'Brien, Rachel, Robinson, Claire E, Schuster, Gregory L, Shingler, Taylor J, Shook, Michael A, Soja, Amber J, Thornhill, Kenneth L, Weakley, Andrew T, Wiggins, Elizabeth B, Winstead, Edward L, Ziemba, Luke D
Format:	Article en ligne
Langue:	English
Publié:	2022
Accès à la collection:	Journal of geophysical research. Atmospheres : JGR
Sujets:	Journal Article FIREX‐AQ biomass burning aerosol hyperspectral optical properties in situ measurement techniques

Description
Résumé:	© 2022. The Authors. Ångström exponents (α) allow reconstruction of aerosol optical spectra over a broad range of wavelengths from measurements at two or more wavelengths. Hyperspectral measurements of atmospheric aerosols provide opportunities to probe measured spectra for information inaccessible from only a few wavelengths. Four sets of hyperspectral in situ aerosol optical coefficients (aerosol-phase total extinction, σ ext, and absorption, σ abs; liquid-phase soluble absorption from methanol, σ MeOH-abs, and water, σ DI-abs, extracts) were measured from biomass burning aerosols (BBAs). Hyperspectral single scattering albedo (ω), calculated from σ ext and σ abs, provide spectral resolution over a wide spectral range rare for this optical parameter. Observed spectral shifts between σ abs and σ MeOH-abs/σ DI-abs argue in favor of measuring σ abs rather than reconstructing it from liquid extracts. Logarithmically transformed spectra exhibited curvature better fit by second-order polynomials than linear α. Mapping second order fit coefficients (a 1, a 2) revealed samples from a given fire tended to cluster together, that is, aerosol spectra from a given fire were similar to each other and somewhat distinct from others. Separation in (a 1, a 2) space for spectra with the same α suggest additional information in second-order parameterization absent from the linear fit. Spectral features found in the fit residuals indicate more information in the measured spectra than captured by the fits. Above-detection σ MeOH-abs at 0.7 μm suggests assuming all absorption at long visible wavelengths is BC to partition absorption between BC and brown carbon (BrC) overestimates BC and underestimates BrC across the spectral range. Hyperspectral measurements may eventually discriminate BBA among fires in different ecosystems under variable conditions
Description:	Date Revised 09.09.2024 published: Print-Electronic Citation Status PubMed-not-MEDLINE
ISSN:	2169-897X
DOI:	10.1029/2022JD037201