We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Concentrations and fluxes of isoprene and oxygenated VOCs at a French Mediterranean oak forest.
- Authors
Kalogridis, C.; Gros, V.; Sarda-Esteve, R.; Langford, B.; Loubet, B.; Bonsang, B.; Bonnaire, N.; Nemitz, E.; Genard, A.-C.; Boissard, C.; Fernandez, C.; Ormeño, E.; Baisnée, D.; Reiter, I.; Lathière, J.
- Abstract
The CANOPEE project aims to better understand the biosphere-atmosphere exchanges of biogenic volatile organic compounds (BVOC) in the case of Mediterranean ecosystems and the impact of in-canopy processes on the atmospheric chemical composition above the canopy. Based on an intensive field campaign, the objective of our work was to determine the chemical composition of the air inside a canopy as well as the net fluxes of reactive species between the canopy and the boundary layer. Measurements were carried out during spring 2012 at the Oak Observatory of the Observatoire de Haute Provence (O3HP) located in the southeast of France. The field site presents one dominant tree species, Quercus pubescens L., a typical Mediterranean species which features large isoprene emission rates. Mixing ratios of isoprene, its degradation products methylvinylketone (MVK) and methacrolein (MACR) and several other oxygenated VOC (OxVOC) were measured above the canopy using an online proton transfer reaction mass spectrometer (PTR-MS), and fluxes were calculated by the disjunct eddy covariance approach. The O3HP site was found to be a very significant source of isoprene emissions, with daily maximum ambient concentrations ranging between 2-16 ppbv inside and 2-5 ppbv just above the top of the forest canopy. Significant isoprene fluxes were observed only during daytime, following diurnal cycles with midday net emission fluxes from the canopy ranging between 2-8mgm-2h-1. Net isoprene normalised flux (at 30 °C, 1000µmolm-2s-1) was estimated at 6.6m-2gm-2h-1. The (MVK+MACR)-to-isoprene ratio was used to assess the degree of isoprene oxidation. In-canopy chemical oxidation of isoprene was found to be weak, as indicated by the low (MVK+MACR)-to-isoprene ratio (~ 0.13) and low MVK+MACR fluxes, and did not seem to have a significant impact on isoprene concentrations and fluxes above the canopy. Evidence of direct emission of methanol was also found exhibiting maximum daytime fluxes ranging between 0.2-0.4 mgm-2h-1, whereas flux values for monoterpenes and others OxVOC such as acetone and acetaldehyde were below the detection limit.
- Subjects
FRANCE; ISOPRENE; VOLATILE organic compounds; ATMOSPHERIC research; OAK; MASS spectrometers; EMISSIONS (Air pollution); MONOTERPENES
- Publication
Atmospheric Chemistry & Physics Discussions, 2014, Vol 14, Issue 1, p871
- ISSN
1680-7367
- Publication type
Article
- DOI
10.5194/acpd-14-871-2014