Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals

The sub-micron (SM) aerosol optical depth (AOD) is an optical separation based on the fraction of particles below a specified cutoff radius of the particle size distribution (PSD) at a given particle radius. It is fundamentally different from spectrally separated FM (fine-mode) AOD. We present a sim...

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Published in:Atmospheric Measurement Techniques
Main Authors: O'Neill, Norman T., Ranjbar, Keyvan, Ivănescu, Liviu, Eck, Thomas F., Reid, Jeffrey S., Giles, David M., Pérez-Ramírez, Daniel, Chaubey, Jai Prakash
Format: Text
Language:English
Published: 2023
Subjects:
Arctic
Online Access:https://doi.org/10.5194/amt-16-1103-2023
https://amt.copernicus.org/articles/16/1103/2023/
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spelling ftcopernicus:oai:publications.copernicus.org:amt107151 2023-05-15T15:14:38+02:00 Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals O'Neill, Norman T. Ranjbar, Keyvan Ivănescu, Liviu Eck, Thomas F. Reid, Jeffrey S. Giles, David M. Pérez-Ramírez, Daniel Chaubey, Jai Prakash 2023-03-03 application/pdf https://doi.org/10.5194/amt-16-1103-2023 https://amt.copernicus.org/articles/16/1103/2023/ eng eng doi:10.5194/amt-16-1103-2023 https://amt.copernicus.org/articles/16/1103/2023/ eISSN: 1867-8548 Text 2023 ftcopernicus https://doi.org/10.5194/amt-16-1103-2023 2023-03-06T17:23:09Z The sub-micron (SM) aerosol optical depth (AOD) is an optical separation based on the fraction of particles below a specified cutoff radius of the particle size distribution (PSD) at a given particle radius. It is fundamentally different from spectrally separated FM (fine-mode) AOD. We present a simple (AOD-normalized) SM fraction versus FM fraction (SMF vs. FMF) linear equation that explains the well-recognized empirical result of SMF generally being greater than the FMF. The AERONET inversion (AERinv) products (combined inputs of spectral AOD and sky radiance) and the spectral deconvolution algorithm (SDA) products (input of AOD spectra) enable, respectively, an empirical SMF vs. FMF comparison at similar (columnar) remote sensing scales across a variety of aerosol types. SMF (AERinv-derived) vs. FMF (SDA-derived) behavior is primarily dependent on the relative truncated portion ( ε c ) of the coarse-mode (CM) AOD associated with the cutoff portion of the CM PSD and, to a second order, the cutoff FM PSD and FM AOD ( ε f ). The SMF vs. FMF equation largely explains the SMF vs. FMF behavior of the AERinv vs. SDA products as a function of PSD cutoff radius (“inflection point”) across an ensemble of AERONET sites and aerosol types (urban-industrial, biomass burning, dust, maritime and a mixed class of Arctic aerosols). The overarching dynamic was that the linear SMF vs. FMF relation pivots clockwise about the approximate (SMF, FMF) singularity of (1, 1) in a “linearly inverse” fashion (slope and intercept of approximately 1− ε c and ε c ) with increasing cutoff radius. SMF vs. FMF slopes and intercepts derived from AERinv and SDA retrievals confirmed the general domination of ε c over ε f in controlling that dynamic. A more general conclusion is the apparent confirmation that the optical impact of truncating modal (whole) PSD features can be detected by an SMF vs. FMF analysis. Text Arctic Copernicus Publications: E-Journals Arctic Atmospheric Measurement Techniques 16 4 1103 1120
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The sub-micron (SM) aerosol optical depth (AOD) is an optical separation based on the fraction of particles below a specified cutoff radius of the particle size distribution (PSD) at a given particle radius. It is fundamentally different from spectrally separated FM (fine-mode) AOD. We present a simple (AOD-normalized) SM fraction versus FM fraction (SMF vs. FMF) linear equation that explains the well-recognized empirical result of SMF generally being greater than the FMF. The AERONET inversion (AERinv) products (combined inputs of spectral AOD and sky radiance) and the spectral deconvolution algorithm (SDA) products (input of AOD spectra) enable, respectively, an empirical SMF vs. FMF comparison at similar (columnar) remote sensing scales across a variety of aerosol types. SMF (AERinv-derived) vs. FMF (SDA-derived) behavior is primarily dependent on the relative truncated portion ( ε c ) of the coarse-mode (CM) AOD associated with the cutoff portion of the CM PSD and, to a second order, the cutoff FM PSD and FM AOD ( ε f ). The SMF vs. FMF equation largely explains the SMF vs. FMF behavior of the AERinv vs. SDA products as a function of PSD cutoff radius (“inflection point”) across an ensemble of AERONET sites and aerosol types (urban-industrial, biomass burning, dust, maritime and a mixed class of Arctic aerosols). The overarching dynamic was that the linear SMF vs. FMF relation pivots clockwise about the approximate (SMF, FMF) singularity of (1, 1) in a “linearly inverse” fashion (slope and intercept of approximately 1− ε c and ε c ) with increasing cutoff radius. SMF vs. FMF slopes and intercepts derived from AERinv and SDA retrievals confirmed the general domination of ε c over ε f in controlling that dynamic. A more general conclusion is the apparent confirmation that the optical impact of truncating modal (whole) PSD features can be detected by an SMF vs. FMF analysis.
format Text
author O'Neill, Norman T.
Ranjbar, Keyvan
Ivănescu, Liviu
Eck, Thomas F.
Reid, Jeffrey S.
Giles, David M.
Pérez-Ramírez, Daniel
Chaubey, Jai Prakash
spellingShingle O'Neill, Norman T.
Ranjbar, Keyvan
Ivănescu, Liviu
Eck, Thomas F.
Reid, Jeffrey S.
Giles, David M.
Pérez-Ramírez, Daniel
Chaubey, Jai Prakash
Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
author_facet O'Neill, Norman T.
Ranjbar, Keyvan
Ivănescu, Liviu
Eck, Thomas F.
Reid, Jeffrey S.
Giles, David M.
Pérez-Ramírez, Daniel
Chaubey, Jai Prakash
author_sort O'Neill, Norman T.
title Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
title_short Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
title_full Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
title_fullStr Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
title_full_unstemmed Relationship between the sub-micron fraction (SMF) and fine-mode fraction (FMF) in the context of AERONET retrievals
title_sort relationship between the sub-micron fraction (smf) and fine-mode fraction (fmf) in the context of aeronet retrievals
publishDate 2023
url https://doi.org/10.5194/amt-16-1103-2023
https://amt.copernicus.org/articles/16/1103/2023/
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source eISSN: 1867-8548
op_relation doi:10.5194/amt-16-1103-2023
https://amt.copernicus.org/articles/16/1103/2023/
op_doi https://doi.org/10.5194/amt-16-1103-2023
container_title Atmospheric Measurement Techniques
container_volume 16
container_issue 4
container_start_page 1103
op_container_end_page 1120
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