The oxidation of isoprene in the troposphere - Mechanism and model calculations

Calculations have been performed for 15 deg N and 45 deg N latitude continental conditions using a one-dimensional, steady state photochemical model that incorporates a chemical mechanism describing the oxidation of isoprene by OH and O3 in the troposphere. At the higher latitude, anthropogenic hydrocarbon emission effects on NO(x) vertical profiles, as well as those of HNO3, overshadow isoprene emissions effects; at the lower latitude, reduced anthropogenic emissions and increased isoprene emissions respectively yield 26 and 4 percent increases in NO(x) and HNO3 column contents. It is suggested that a significant quantity of isoprene goes to the formation of longer carbon chain oxygenated organic species.