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dc.contributor.authorDemarcke, M.
dc.contributor.authorMüller, J.-F.
dc.contributor.authorSchoon, N.
dc.contributor.authorVan Langenhove, H.
dc.contributor.authorDewulf, J.
dc.contributor.authorJoó, E.
dc.contributor.authorSteppe, K.
dc.contributor.authorŠimpraga, M.
dc.contributor.authorHeinesch, B.
dc.contributor.authorAubinet, M.
dc.contributor.authorAmelynck, C.
dc.contributor.editor
dc.date2010
dc.date.accessioned2016-03-30T12:01:17Z
dc.date.available2016-03-30T12:01:17Z
dc.identifier.urihttps://orfeo.kbr.be/handle/internal/3170
dc.descriptionMonoterpenoid emissions from Fagus sylvatica L. trees have been measured at light- and temperature-controlled conditions in a growth chamber, using Proton Transfer Reaction Mass Spectrometry (PTR-MS) and the dynamic branch enclosure technique. De novo synthesized monoterpenoid Standard Emission Factors, obtained by applying the G97 algorithm ( Guenther, 1997), varied between 2 and 32 μg gDW−1 h−1 and showed a strong decline in late August and September, probably due to senescence. The response of monoterpenoid emissions to temperature variations at a constant daily light pattern could be well reproduced with a modified version of the MEGAN algorithm (Guenther et al., 2006), with a typical dependence on the average temperature over the past five days. The diurnal emissions at constant temperature showed a typical hysteretic behaviour, which could also be adequately described with the modified MEGAN algorithm by taking into account a dependence on the average light levels experienced by the trees during the past 10–13 h. The impact of the past light and temperature conditions on the monoterpenoid emissions from F. sylvatica L. was found to be much stronger than assumed in previous algorithms. Since our experiments were conducted under low light intensity, future studies should aim at confirming and completing the proposed algorithm updates in sunny conditions and natural environments.
dc.languageeng
dc.titleHistory effect of light and temperature on monoterpenoid emissions from Fagus sylvatica L.
dc.typeArticle
dc.subject.frascatiEarth and related Environmental sciences
dc.audienceScientific
dc.subject.freeAverage temperature
dc.subject.freeConstant temperature
dc.subject.freeControlled conditions
dc.subject.freeFagus sylvatica
dc.subject.freeGrowth chamber
dc.subject.freeHistory effects
dc.subject.freeHysteretic behaviour
dc.subject.freeLight level
dc.subject.freeLight patterns
dc.subject.freeLow light
dc.subject.freeNatural environments
dc.subject.freeProton-transfer reaction mass spectrometries
dc.subject.freeStandard emission factors
dc.subject.freeTemperature conditions
dc.subject.freeTemperature variation
dc.subject.freeAlgorithms
dc.subject.freeCharge transfer
dc.subject.freeMass spectrometry
dc.subject.freeTrees (mathematics)
dc.subject.freemonoterpenoid
dc.subject.freeterpenoid
dc.subject.freeunclassified drug
dc.subject.freealgorithm
dc.subject.freeatmospheric pollution
dc.subject.freedeciduous tree
dc.subject.freeexperimental study
dc.subject.freelight effect
dc.subject.freemass spectrometry
dc.subject.freemonoterpene
dc.subject.freesenescence
dc.subject.freetemperature effect
dc.subject.freearticle
dc.subject.freebeech
dc.subject.freeemission tomography
dc.subject.freefagus sylvatica
dc.subject.freelight
dc.subject.freemass spectrometry
dc.subject.freenonhuman
dc.subject.freepriority journal
dc.subject.freesynthesis
dc.subject.freetemperature
dc.subject.freeFagus sylvatica
dc.source.titleAtmospheric Environment
dc.source.volume44
dc.source.issue27
dc.source.page3261-3268
Orfeo.peerreviewedYes
dc.identifier.doi10.1016/j.atmosenv.2010.05.054
dc.identifier.scopus2-s2.0-77954658459


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