International audienceGlycolaldehyde, hydroxyacetone, and methylglyoxal, which are known isoprene oxidation products, were collected during two field experiments using an annular denuder sampling system and compared to a model calculation. The compounds in gas and aerosol phases were determined during both experiments. Global variation and distribution of the aerosol mass contribution of the compounds were predicted using the measurements, the box model results, and gas-phase concentrations and humidity simulated by a global 3-D model. Here we report the estimates of a global annual contribution of 35 (10?120) Tg of aerosol organic matter from isoprene
Isoprene is one of the most abundant non-methane hydrocarbons emitted by vegetation into the troposp...
Isoprene, a volatile hydrocarbon emitted by plants, represents the single most abundant source of no...
A modified SAPRC-11 (S11) photochemical mechanism with more detailed treatment of isoprene oxidation...
Isoprene (2-methyl-1, 3-butadiene) is a nonmethane volatile organic compound (VOC) with the largest ...
The role of isoprene as a source of secondary organic aerosol (SOA) is studied using laboratory-deri...
Within the framework of the global chemistry climate model ECHAM–HAMMOZ, a novel explicit coupling b...
Within the framework of the global chemistry climate model ECHAM-HAMMOZ a novel explicit coupling be...
Isoprene-derived epoxydiols (IEPOX) are identified in ambient aerosol samples for the first time, to...
Atmospheric oxidation of isoprene yields substantial amounts of secondary organic aerosol (SOA) in a...
Isoprene has the largest global non-methane hydrocarbon emission, and the oxidation of isoprene play...
Recent field and laboratory evidence indicates that the oxidation of isoprene, (2-methyl-1,3-butadie...
The oxidation of isoprene (2-methyl-1,3-butadiene) is known to play a central role in the photochemi...
We investigate how a recently suggested pathway for production of secondary organic aerosol (SOA) af...
Recent laboratory studies have demonstrated that isoprene oxidation products can partition to atmosp...
Secondary organic aerosol contributes to the atmospheric particle burden with implications for air q...
Isoprene is one of the most abundant non-methane hydrocarbons emitted by vegetation into the troposp...
Isoprene, a volatile hydrocarbon emitted by plants, represents the single most abundant source of no...
A modified SAPRC-11 (S11) photochemical mechanism with more detailed treatment of isoprene oxidation...
Isoprene (2-methyl-1, 3-butadiene) is a nonmethane volatile organic compound (VOC) with the largest ...
The role of isoprene as a source of secondary organic aerosol (SOA) is studied using laboratory-deri...
Within the framework of the global chemistry climate model ECHAM–HAMMOZ, a novel explicit coupling b...
Within the framework of the global chemistry climate model ECHAM-HAMMOZ a novel explicit coupling be...
Isoprene-derived epoxydiols (IEPOX) are identified in ambient aerosol samples for the first time, to...
Atmospheric oxidation of isoprene yields substantial amounts of secondary organic aerosol (SOA) in a...
Isoprene has the largest global non-methane hydrocarbon emission, and the oxidation of isoprene play...
Recent field and laboratory evidence indicates that the oxidation of isoprene, (2-methyl-1,3-butadie...
The oxidation of isoprene (2-methyl-1,3-butadiene) is known to play a central role in the photochemi...
We investigate how a recently suggested pathway for production of secondary organic aerosol (SOA) af...
Recent laboratory studies have demonstrated that isoprene oxidation products can partition to atmosp...
Secondary organic aerosol contributes to the atmospheric particle burden with implications for air q...
Isoprene is one of the most abundant non-methane hydrocarbons emitted by vegetation into the troposp...
Isoprene, a volatile hydrocarbon emitted by plants, represents the single most abundant source of no...
A modified SAPRC-11 (S11) photochemical mechanism with more detailed treatment of isoprene oxidation...