Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment

Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment

The effects of water limitations on the emission of biogenic volatile organic compounds are not well understood. Experimental approaches studying drought effects in natural conditions are still missing. To address this question, a throughfall displacement experiment was set up in a natural forest of...

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Main Authors: S. Rambal, R. Rodriguez, I. Zimmer, A. Rocheteau, F. Massol, J. P. Schnitzler, D. Landais, M. Staudt, A.-V. Lavoir
Format: Article
Language:English
Published: Copernicus Publications 2009-07-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/6/1167/2009/bg-6-1167-2009.pdf
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spelling doaj-aa3fd82f2aac457d9ececf4600206c8b2020-11-24T22:10:15ZengCopernicus PublicationsBiogeosciences1726-41701726-41892009-07-016711671180Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experimentS. RambalR. RodriguezI. ZimmerA. RocheteauF. MassolJ. P. SchnitzlerD. LandaisM. StaudtA.-V. LavoirThe effects of water limitations on the emission of biogenic volatile organic compounds are not well understood. Experimental approaches studying drought effects in natural conditions are still missing. To address this question, a throughfall displacement experiment was set up in a natural forest of <i>Quercus ilex</i>, an evergreen Mediterranean oak emitting monoterpenes. Mature trees were exposed in 2005 and 2006 either to an additional drought, to irrigation or to natural drought (untreated control). In both years, absolute monoterpene emission rates as well as the respective standard factors of the trees exposed to normal and additional drought strongly declined during the drought periods. Monoterpene emissions were lower in year 2006 than in year 2005 (factor 2) due to a more pronounced summer drought period in this respective year. We observed a significant difference between the irrigation and additional drought or control treatment: irrigated trees emitted 82% more monoterpenes during the drought period 2006 than the trees of the other treatments. However, no significant effect on monoterpene emission was observed between normal and additional drought treatments, despite a significant effect on leaf water potential and photochemical efficiency. During the development of drought, monoterpene emissions responded exponentially rather than linearly to decreasing leaf water potential. Emissions rapidly declined when the water potential dropped below &minus;2 MPa and photosynthesis was persistently inhibited. Monoterpene synthase activities measured in vitro showed no clear reduction during the same period. From our results we conclude that drought significantly reduces monoterpene fluxes of Mediterranean Holm oak forest into the atmosphere due to a lack of primary substrates coming from photosynthetic processes. http://www.biogeosciences.net/6/1167/2009/bg-6-1167-2009.pdf
collection DOAJ
language English
format Article
sources DOAJ
author S. Rambal
R. Rodriguez
I. Zimmer
A. Rocheteau
F. Massol
J. P. Schnitzler
D. Landais
M. Staudt
A.-V. Lavoir
spellingShingle S. Rambal
R. Rodriguez
I. Zimmer
A. Rocheteau
F. Massol
J. P. Schnitzler
D. Landais
M. Staudt
A.-V. Lavoir
Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
Biogeosciences
author_facet S. Rambal
R. Rodriguez
I. Zimmer
A. Rocheteau
F. Massol
J. P. Schnitzler
D. Landais
M. Staudt
A.-V. Lavoir
author_sort S. Rambal
title Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
title_short Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
title_full Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
title_fullStr Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
title_full_unstemmed Drought reduced monoterpene emissions from the evergreen Mediterranean oak <i>Quercus ilex</i>: results from a throughfall displacement experiment
title_sort drought reduced monoterpene emissions from the evergreen mediterranean oak <i>quercus ilex</i>: results from a throughfall displacement experiment
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2009-07-01
description The effects of water limitations on the emission of biogenic volatile organic compounds are not well understood. Experimental approaches studying drought effects in natural conditions are still missing. To address this question, a throughfall displacement experiment was set up in a natural forest of <i>Quercus ilex</i>, an evergreen Mediterranean oak emitting monoterpenes. Mature trees were exposed in 2005 and 2006 either to an additional drought, to irrigation or to natural drought (untreated control). In both years, absolute monoterpene emission rates as well as the respective standard factors of the trees exposed to normal and additional drought strongly declined during the drought periods. Monoterpene emissions were lower in year 2006 than in year 2005 (factor 2) due to a more pronounced summer drought period in this respective year. We observed a significant difference between the irrigation and additional drought or control treatment: irrigated trees emitted 82% more monoterpenes during the drought period 2006 than the trees of the other treatments. However, no significant effect on monoterpene emission was observed between normal and additional drought treatments, despite a significant effect on leaf water potential and photochemical efficiency. During the development of drought, monoterpene emissions responded exponentially rather than linearly to decreasing leaf water potential. Emissions rapidly declined when the water potential dropped below &minus;2 MPa and photosynthesis was persistently inhibited. Monoterpene synthase activities measured in vitro showed no clear reduction during the same period. From our results we conclude that drought significantly reduces monoterpene fluxes of Mediterranean Holm oak forest into the atmosphere due to a lack of primary substrates coming from photosynthetic processes.
url http://www.biogeosciences.net/6/1167/2009/bg-6-1167-2009.pdf
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