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@ARTICLE{Niinemets:13334,
author = {Niinemets, Ü. and Arneth, A. and Kuhn, U. and Monson, R.K.
and Penuelas, J. and Staudt, M.},
title = {{T}he emission factor of volatile isoprenoids: stress,
acclimation, and developmental responses},
journal = {Biogeosciences},
volume = {7},
issn = {1726-4170},
address = {Katlenburg-Lindau [u.a.]},
publisher = {Copernicus},
reportid = {PreJuSER-13334},
pages = {2203 - 2223},
year = {2010},
note = {The authors' studies on BVOC emissions have been funded by
the Estonian Ministry of Education and Research (grant
SF1090065s07), the Estonian Science Foundation (grant 7645),
the US National Science Foundation and the US Environmental
Protection Agency, the joint collaborative project between
Spanish CSIC and the Estonian Academy of Sciences, the
Spanish Government (grants CGL2006-04025/BOS and
Consolider-Ingenio Montes CSD2008-00040), the Catalan
government (grant SGR2009-458), the Human Frontier Science
Programme, the Swedish Research Councils VR and Formas. Alex
Guenther, Peter Harley, Paolo Ciccioli, Trevor Keenan,
Jurgen Kesselmeier and Manuel Lerdau provided invaluable
comments and criticism on the earlier versions of this
manuscript.},
abstract = {The rate of constitutive isoprenoid emissions from plants
is driven by plant emission capacity under specified
environmental conditions (E-S, the emission factor) and by
responsiveness of the emissions to instantaneous variations
in environment. In models of isoprenoid emission, E-S has
been often considered as intrinsic species-specific constant
invariable in time and space. Here we analyze the variations
in species-specific values of E-S under field conditions
focusing on abiotic stresses, past environmental conditions
and developmental processes. The reviewed studies highlight
strong stress-driven, adaptive (previous temperature and
light environment and growth CO2 concentration) and
developmental (leaf age) variations in E-S values operating
at medium to long time scales. These biological factors can
alter species-specific E-S values by more than an order of
magnitude. While the majority of models based on early
concepts still ignore these important sources of variation,
recent models are including some of the medium- to long-term
controls. However, conceptually different strategies are
being used for incorporation of these longer-term controls
with important practical implications for parameterization
and application of these models. This analysis emphasizes
the need to include more biological realism in the
isoprenoid emission models and also highlights the gaps in
knowledge that require further experimental work to reduce
the model uncertainties associated with biological sources
of variation.},
keywords = {J (WoSType)},
cin = {IEK-8},
ddc = {570},
cid = {I:(DE-Juel1)IEK-8-20101013},
pnm = {Atmosphäre und Klima},
pid = {G:(DE-Juel1)FUEK491},
shelfmark = {Ecology / Geosciences, Multidisciplinary},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000280515300013},
doi = {10.5194/bg-7-2203-2010},
url = {https://juser.fz-juelich.de/record/13334},
}
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