info:eu-repo/semantics/article
A pervasive role for biomass burning in tropical high ozone/low water structures
Fecha
2016-01Registro en:
Anderson, Daniel C.; Nicely, Julie M.; Salawitch, Ross J.; Canty, Timothy P.; Dickerson, Russell R.; et al.; A pervasive role for biomass burning in tropical high ozone/low water structures; Nature Publishing Group; Nature Communications; 7; 1-2016; 1-13
2041-1723
CONICET Digital
CONICET
Autor
Anderson, Daniel C.
Nicely, Julie M.
Salawitch, Ross J.
Canty, Timothy P.
Dickerson, Russell R.
Hanisco, Thomas F.
Wolfe, Glenn M.
Apel, Eric C.
Atlas, Elliot
Bannan, Thomas J.
Bauguitte, Stephane
Blake, Nicola J.
Bresch, James F.
Campos, Teresa L.
Carpenter, Lucy J.
Cohen, Mark D.
Evans, Mathew
Fernandez, Rafael Pedro
Kahn, Brian H.
Kinnison, Douglas E.
Hall, Samuel R.
Harris, Neil R. P.
Hornbrook, Rebecca S.
Lamarque, Jean Francois
Le Breton, Michael
Lee, James D.
Percival, Carl
Pfister, Leonhard
Pierce, R. Bradley
Riemer, Daniel D.
Saiz López, Alfonso
Stunder, Barbara J. B.
Thompson, Anne M.
Ullmann, Kirk
Vaughan, Adam
Weinheimer, Andrew J.
Resumen
Air parcels with mixing ratios of high O3 and low H2O (HOLW) are common features in the tropical western Pacific (TWP) mid-troposphere (300-700 hPa). Here, using data collected during aircraft sampling of the TWP in winter 2014, we find strong, positive correlations of O3 with multiple biomass burning tracers in these HOLW structures. Ozone levels in these structures are about a factor of three larger than background. Models, satellite data and aircraft observations are used to show fires in tropical Africa and Southeast Asia are the dominant source of high O3 and that low H2O results from large-scale descent within the tropical troposphere. Previous explanations that attribute HOLW structures to transport from the stratosphere or mid-latitude troposphere are inconsistent with our observations. This study suggest a larger role for biomass burning in the radiative forcing of climate in the remote TWP than is commonly appreciated.