Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/20.500.11765/16729
“Godzilla”, the extreme African dust event of June 2020: Origins, Transport, and Impact on Air Quality in the Greater Caribbean Basin
Título : “Godzilla”, the extreme African dust event of June 2020: Origins, Transport, and Impact on Air Quality in the Greater Caribbean Basin
Autor : Mayol-Bracero, Olga L.Prospero, Joseph M.Sarangi, B.Andrews, ElisabethColarco, Peter RichardCuevas Agulló, Emilio ORCID RESEARCHERID SCOPUSID Autor AEMETGirolamo, Paolo DiGarcía Cabrera, Rosa Delia ORCID RESEARCHERID Gaston, C.Holben, Brent N.Ladino, Luis AntonioLeón, P.Losno, RemiMartínez, O.Martínez Huertas, B. L.Méndez-Lázaro, P.Molinie, J.Muller-Karger, F.Otis, D.Raga, G.Reyes, A.Rosas Nava, J.Rosas, D.Sealy, AndreaSerikov, I.Tong, DanielTorres-Delgado, E.Yu, H.Zuidema, Paquita
Palabras clave : Extreme dust; Origins; Transport; Godzilla; Air Quality; CALIMA
Fecha de publicación : 2025
Editor: American Meteorological Society
Citación : Bulletin of the American Meteorological Society. 2025 [Early Online Release]
Versión del editor: https://doi.org/10.1175/BAMS-D-24-0045.1
Resumen : In June 2020, the tropical Atlantic and the Caribbean Basin were affected by a series of African dust outbreaks unprecedented in size and intensity. These events, informally named “Godzilla”, coincided with CALIMA, a large field campaign, offering a rare opportunity to assess the impact of African dust on air quality in the Greater Caribbean Basin. Network measurements of respirable particles (i.e., PM10 and PM2.5) showed that dust significantly degraded regional air quality and increased the risk to public health in the Caribbean, the southern United States, northern South America, and Central America. CALIMA examined the meteorological context of Godzilla dust events over North Africa and how these conditions might relate to the greatly increased dust emissions and enhanced transport to the Americas. Godzilla was linked to strong pressure anomalies over West Africa, resulting in a large-scale geostrophic wind anomaly at 700 hPa over North Africa. We used surface-based and columnar measurements to test the performance of two frequently used aerosol forecast models: the NASA GEOS and WRF-Chem models. The models showed some skills, but differed substantially between their forecasts, suggesting large uncertainties in these forecasts that are critical for issuing early warnings of health-threatening dust events. Our results demonstrate the value of an integrated approach in characterizing the spatial and temporal variability of African dust transport and assessing its impact on regional air quality. Future studies are needed to improve models and to track the long-term changes in dust transport from Africa under a changing climate.
URI : http://hdl.handle.net/20.500.11765/16729
ISSN : 0003-0007
1520-0477
Colecciones: Artículos científicos 2023-2026




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