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Gewählte Publikation:

Finco, A; Coyle, M; Nemitz, E; Marzuoli, R; Chiesa, M; Loubet, B; Fares, S; Diaz-Pines, E; Gasche, R; Gerosa, G.
(2018): Characterization of ozone deposition to a mixed oak-hornbeam forest - flux measurements at five levels above and inside the canopy and their interactions with nitric oxide
ATMOS CHEM PHYS. 2018; 18(24): 17945-17961. FullText FullText_BOKU

A 1-month field campaign of ozone (O-3) flux measurements along a five-level vertical profile above, inside and below the canopy was run in a mature broadleaf forest of the Po Valley, northern Italy. The study aimed to characterize O-3 flux dynamics and their interactions with nitrogen oxides (NOx) fluxes from the forest soil and the atmosphere above the canopy. Ozone fluxes measured at the levels above the canopy were in good agreement, thus confirming the validity of the constant flux hypothesis, while below-canopy O-3 fluxes were lower than above. However, at the upper canopy edge O-3 fluxes were surprisingly higher than above during the morning hours. This was attributed to a chemical O-3 sink due to a reaction with the nitric oxide (NO) emitted from soil and deposited from the atmosphere, thus converging at the top of the canopy. Moreover, this mechanism was favored by the morning coupling between the forest and the atmosphere, while in the afternoon the fluxes at the upper canopy edge became similar to those of the levels above as a consequence of the in-canopy stratification. Nearly 80% of the O-3 deposited to the forest ecosystem was removed by the canopy by stomatal deposition, dry deposition on physical surfaces and by ambient chemistry reactions (33.3% by the upper canopy layer and 46.3% by the lower canopy layer). Only a minor part of O-3 was removed by the understorey vegetation and the soil surface (2 %), while the remaining 18.2% was consumed by chemical reaction with NO emitted from soil. The collected data could be used to improve the O-3 risk assessment for forests and to test the predicting capability of O-3 deposition models. Moreover, these data could help multilayer canopy models to separate the influence of ambient chemistry vs. O-3 dry deposition on the observed fluxes.
Autor/innen der BOKU Wien:
Diaz-Pines Eugenio
BOKU Gendermonitor:

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