Understanding the Evolution of Smoke Mass Extinction Efficiency Using Field Campaign Measurements

Pablo E. Saide; Laura H. Thapa; Xinxin Ye; Demetrios Pagonis; Pedro Campuzano‐Jost; Hongyu Guo; Melinda K. Schueneman; Jose‐Luis Jimenez; Richard Moore; Elizabeth Wiggins; Edward Winstead; Claire Robinson; Lee Thornhill; Kevin Sanchez; Nicholas L. Wagner; Adam Ahern; Joseph M. Katich; Anne E. Perring; Joshua P. Schwarz; Ming Lyu; Christopher D. Holmes; Johnathan W. Hair; Marta A. Fenn; Taylor J. Shingler

doi:10.1029/2022GL099175

Geophysical Research Letters (Sep 2022)

Understanding the Evolution of Smoke Mass Extinction Efficiency Using Field Campaign Measurements

Pablo E. Saide,
Laura H. Thapa,
Xinxin Ye,
Demetrios Pagonis,
Pedro Campuzano‐Jost,
Hongyu Guo,
Melinda K. Schueneman,
Jose‐Luis Jimenez,
Richard Moore,
Elizabeth Wiggins,
Edward Winstead,
Claire Robinson,
Lee Thornhill,
Kevin Sanchez,
Nicholas L. Wagner,
Adam Ahern,
Joseph M. Katich,
Anne E. Perring,
Joshua P. Schwarz,
Ming Lyu,
Christopher D. Holmes,
Johnathan W. Hair,
Marta A. Fenn,
Taylor J. Shingler

Affiliations

Pablo E. Saide: Department of Atmospheric and Oceanic Sciences University of California—Los Angeles Los Angeles CA USA
Laura H. Thapa: Department of Atmospheric and Oceanic Sciences University of California—Los Angeles Los Angeles CA USA
Xinxin Ye: Department of Atmospheric and Oceanic Sciences University of California—Los Angeles Los Angeles CA USA
Demetrios Pagonis: Department of Chemistry University of Colorado Boulder Boulder CO USA
Pedro Campuzano‐Jost: Department of Chemistry University of Colorado Boulder Boulder CO USA
Hongyu Guo: Department of Chemistry University of Colorado Boulder Boulder CO USA
Melinda K. Schueneman: Department of Chemistry University of Colorado Boulder Boulder CO USA
Jose‐Luis Jimenez: Department of Chemistry University of Colorado Boulder Boulder CO USA
Richard Moore: NASA Langley Research Center Hampton VA USA
Elizabeth Wiggins: NASA Langley Research Center Hampton VA USA
Edward Winstead: NASA Langley Research Center Hampton VA USA
Claire Robinson: NASA Langley Research Center Hampton VA USA
Lee Thornhill: NASA Langley Research Center Hampton VA USA
Kevin Sanchez: NASA Langley Research Center Hampton VA USA
Nicholas L. Wagner: Cooperative Institute for Research in Environmental Sciences University of Colorado, Boulder Boulder CO USA
Adam Ahern: Cooperative Institute for Research in Environmental Sciences University of Colorado, Boulder Boulder CO USA
Joseph M. Katich: Cooperative Institute for Research in Environmental Sciences University of Colorado, Boulder Boulder CO USA
Anne E. Perring: Cooperative Institute for Research in Environmental Sciences University of Colorado, Boulder Boulder CO USA
Joshua P. Schwarz: National Oceanic and Atmospheric Administration Chemical Sciences Laboratory Boulder CO USA
Ming Lyu: Cooperative Institute for Research in Environmental Sciences University of Colorado, Boulder Boulder CO USA
Christopher D. Holmes: Department of Earth, Ocean, and Atmospheric Science Florida State University Tallahassee FL USA
Johnathan W. Hair: NASA Langley Research Center Hampton VA USA
Marta A. Fenn: NASA Langley Research Center Hampton VA USA
Taylor J. Shingler: NASA Langley Research Center Hampton VA USA

DOI: https://doi.org/10.1029/2022GL099175
Journal volume & issue: Vol. 49, no. 18
pp. n/a – n/a

Abstract

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Abstract Aerosol mass extinction efficiency (MEE) is a key aerosol property used to connect aerosol optical properties with aerosol mass concentrations. Using measurements of smoke obtained during the Fire Influence on Regional to Global Environments and Air Quality (FIREX‐AQ) campaign we find that mid‐visible smoke MEE can change by a factor of 2–3 between fresh smoke (<2 hr old) and one‐day‐old smoke. While increases in aerosol size partially explain this trend, changes in the real part of the aerosol refractive index (real(n)) are necessary to provide closure assuming Mie theory. Real(n) estimates derived from multiple days of FIREX‐AQ measurements increase with age (from 1.40 – 1.45 to 1.5–1.54 from fresh to one‐day‐old) and are found to be positively correlated with organic aerosol oxidation state and aerosol size, and negatively correlated with smoke volatility. Future laboratory, field, and modeling studies should focus on better understanding and parameterizing these relationships to fully represent smoke aging.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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