Impacts of brown carbon from biomass burning on surface UV and ozone photochemistry in the Amazon Basin

Jungbin Mok, Nickolay A. Krotkov, Antti Arola, Omar Torres, Hiren Jethva, Marcos Andrade, Gordon Labow, Thomas F. Eck, Zhanqing Li, Russell R. Dickerson, Georgiy L. Stenchikov, Sergey Osipov, Xinrong Ren

Resultado de la investigación: Contribución a una revistaArtículorevisión exhaustiva

79 Citas (Scopus)


The spectral dependence of light absorption by atmospheric particulate matter has major implications for air quality and climate forcing, but remains uncertain especially in tropical areas with extensive biomass burning. In the September-October 2007 biomass-burning season in Santa Cruz, Bolivia, we studied light absorbing (chromophoric) organic or "brown" carbon (BrC) with surface and space-based remote sensing. We found that BrC has negligible absorption at visible wavelengths, but significant absorption and strong spectral dependence at UV wavelengths. Using the ground-based inversion of column effective imaginary refractive index in the range 305-368 nm, we quantified a strong spectral dependence of absorption by BrC in the UV and diminished ultraviolet B (UV-B) radiation reaching the surface. Reduced UV-B means less erythema, plant damage, and slower photolysis rates. We use a photochemical box model to show that relative to black carbon (BC) alone, the combined optical properties of BrC and BC slow the net rate of production of ozone by up to 18% and lead to reduced concentrations of radicals OH, HO2, and RO2 by up to 17%, 15%, and 14%, respectively. The optical properties of BrC aerosol change in subtle ways the generally adverse effects of smoke from biomass burning.

Idioma originalInglés
Número de artículo36940
PublicaciónScientific Reports
EstadoPublicada - 11 nov. 2016

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