ADABBOY: African Dust And Biomass Burning Over Yucatan

Biomass burning (BB) emissions and African dust (AD) are often associated with poor regional air quality, particularly in the tropics. The Yucatan Peninsula is a fairly pristine site due to predominant trade winds, but occasionally BB and AD plumes severely degrade its air quality. The African Dust...

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Bibliographic Details
Published in:Bulletin of the American Meteorological Society 2021-08, Vol.102 (8), p.E1543-E1556
Main Authors: Raga, Graciela B., Ladino, Luis A., Baumgardner, Darrel, Ramirez-Romero, Carolina, Córdoba, Fernanda, Alvarez-Ospina, Harry, Rosas, Daniel, Amador, Talib, Miranda, Javier, Rosas, Irma, Jaramillo, Alejandro, Yakobi-Hancock, Jacqueline, Kim, Jong Sung, Martínez, Leticia, Salinas, Eva, Figueroa, Bernardo
Format: Article
Language:English
Subjects:
Aerosols
Air
Air pollution
Air quality
Atmospheric particulates
Bioaerosols
Biological properties
Biomass
Biomass burning
Burning
Chemical composition
Dust
Emissions
Environmental degradation
Frequency dependence
Fungi
Ice
Interannual variability
Marine aerosols
Microorganisms
Particle mass
Particulate matter
Particulate pollution
Plumes
Pollution
Propagules
Seasons
Trade winds
Tropical environments
Urban air quality
Urban areas
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Description
Summary:Biomass burning (BB) emissions and African dust (AD) are often associated with poor regional air quality, particularly in the tropics. The Yucatan Peninsula is a fairly pristine site due to predominant trade winds, but occasionally BB and AD plumes severely degrade its air quality. The African Dust And Biomass Burning Over Yucatan (ADABBOY) project (January 2017–August 2018) was conducted in the Yucatan Peninsula to characterize physical and biological properties of particulate pollution at remote seaside and urban sites. The 18-month-long project quantified the large interannual variability in frequency and spatial extent of BB and AD plumes. Remote and urban sites experienced air quality degradation under the influence of these plumes, with up to 200% and 300% increases in coarse particle mass under BB and AD influence, respectively. ADABBOY is the first project to systematically characterize elemental composition of airborne particles as a function of these sources and identify bioaerosol over Yucatan. Bacteria, actinobacteria (both continental and marine), and fungi propagules vary seasonally and interannually and revealed the presence of very different species and genera associated with different sources. A novel contribution of ADABBOY was the determination of the ice-nucleating abilities of particles emitted by different sources within an undersampled region of the world. BB particles were found to be inefficient ice-nucleating particles at temperatures warmer than −20°C, whereas both AD and background marine aerosol activated ice-nucleating particles below −10°C.
ISSN:0003-0007
1520-0477
DOI:10.1175/BAMS-D-20-0172.1