Biogenic volatile organic compound and respiratory CO2 emissions after 13C-labeling: online tracing of C translocation dynamics in poplar plants

Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a large spectrum of atmospheric reactive hydrocarbons such as terpenes (e.g. isoprene) and other biogenic volatile organic compounds (BVOC). The prediction of plant carbon (C) uptake and atmospheric oxid...

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Veröffentlicht in:	PloS one 2011-02, Vol.6 (2), p.e17393
Hauptverfasser:	Ghirardo, Andrea, Gutknecht, Jessica, Zimmer, Ina, Brüggemann, Nicolas, Schnitzler, Jörg-Peter
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Atmosphere Atmospheric chemistry Betula pendula Biological Transport - physiology Biology Biosynthesis Carbon Carbon - pharmacokinetics Carbon dioxide Carbon Dioxide - metabolism Carbon dioxide atmospheric concentrations Carbon dioxide emissions Carbon Isotopes - pharmacokinetics Cell Respiration - physiology Chemistry Chrysomela Ecosystems Emissions Environmental changes Environmental engineering Fluxes Herbivores Hydrocarbons Intermediates Isoprene Labeling Labelling Leaves Mass spectrometry Mass spectroscopy Metabolism Meteorology Models, Biological Online Systems - instrumentation Organic compounds Oxidation Phloem Photosynthesis Plant Leaves - metabolism Plant pathology Plant Shoots - metabolism Plants (botany) Plants - metabolism Poplar Populus - metabolism Populus tremula Quercus robur Roots Salix Shoots Spectroscopy Staining and Labeling - instrumentation Staining and Labeling - methods Sugar Terpenes Translocation VOCs Volatile hydrocarbons Volatile organic compounds Volatile Organic Compounds - metabolism Xylem
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description	Globally plants are the primary sink of atmospheric CO(2), but are also the major contributor of a large spectrum of atmospheric reactive hydrocarbons such as terpenes (e.g. isoprene) and other biogenic volatile organic compounds (BVOC). The prediction of plant carbon (C) uptake and atmospheric oxidation capacity are crucial to define the trajectory and consequences of global environmental changes. To achieve this, the biosynthesis of BVOC and the dynamics of C allocation and translocation in both plants and ecosystems are important. We combined tunable diode laser absorption spectrometry (TDLAS) and proton transfer reaction mass spectrometry (PTR-MS) for studying isoprene biosynthesis and following C fluxes within grey poplar (Populus x canescens) saplings. This was achieved by feeding either (13)CO(2) to leaves or (13)C-glucose to shoots via xylem uptake. The translocation of (13)CO(2) from the source to other plant parts could be traced by (13)C-labeled isoprene and respiratory (13)CO(2) emission. In intact plants, assimilated (13)CO(2) was rapidly translocated via the phloem to the roots within 1 hour, with an average phloem transport velocity of 20.3±2.5 cm h(-1). (13)C label was stored in the roots and partially reallocated to the plants' apical part one day after labeling, particularly in the absence of photosynthesis. The daily C loss as BVOC ranged between 1.6% in mature leaves and 7.0% in young leaves. Non-isoprene BVOC accounted under light conditions for half of the BVOC C loss in young leaves and one-third in mature leaves. The C loss as isoprene originated mainly (76-78%) from recently fixed CO(2), to a minor extent from xylem-transported sugars (7-11%) and from photosynthetic intermediates with slower turnover rates (8-11%). We quantified the plants' C loss as respiratory CO(2) and BVOC emissions, allowing in tandem with metabolic analysis to deepen our understanding of ecosystem C flux.
doi_str_mv	10.1371/journal.pone.0017393
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(13)C label was stored in the roots and partially reallocated to the plants' apical part one day after labeling, particularly in the absence of photosynthesis. The daily C loss as BVOC ranged between 1.6% in mature leaves and 7.0% in young leaves. Non-isoprene BVOC accounted under light conditions for half of the BVOC C loss in young leaves and one-third in mature leaves. The C loss as isoprene originated mainly (76-78%) from recently fixed CO(2), to a minor extent from xylem-transported sugars (7-11%) and from photosynthetic intermediates with slower turnover rates (8-11%). 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(13)C label was stored in the roots and partially reallocated to the plants' apical part one day after labeling, particularly in the absence of photosynthesis. The daily C loss as BVOC ranged between 1.6% in mature leaves and 7.0% in young leaves. Non-isoprene BVOC accounted under light conditions for half of the BVOC C loss in young leaves and one-third in mature leaves. The C loss as isoprene originated mainly (76-78%) from recently fixed CO(2), to a minor extent from xylem-transported sugars (7-11%) and from photosynthetic intermediates with slower turnover rates (8-11%). 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The prediction of plant carbon (C) uptake and atmospheric oxidation capacity are crucial to define the trajectory and consequences of global environmental changes. To achieve this, the biosynthesis of BVOC and the dynamics of C allocation and translocation in both plants and ecosystems are important. We combined tunable diode laser absorption spectrometry (TDLAS) and proton transfer reaction mass spectrometry (PTR-MS) for studying isoprene biosynthesis and following C fluxes within grey poplar (Populus x canescens) saplings. This was achieved by feeding either (13)CO(2) to leaves or (13)C-glucose to shoots via xylem uptake. The translocation of (13)CO(2) from the source to other plant parts could be traced by (13)C-labeled isoprene and respiratory (13)CO(2) emission. In intact plants, assimilated (13)CO(2) was rapidly translocated via the phloem to the roots within 1 hour, with an average phloem transport velocity of 20.3±2.5 cm h(-1). (13)C label was stored in the roots and partially reallocated to the plants' apical part one day after labeling, particularly in the absence of photosynthesis. The daily C loss as BVOC ranged between 1.6% in mature leaves and 7.0% in young leaves. Non-isoprene BVOC accounted under light conditions for half of the BVOC C loss in young leaves and one-third in mature leaves. The C loss as isoprene originated mainly (76-78%) from recently fixed CO(2), to a minor extent from xylem-transported sugars (7-11%) and from photosynthetic intermediates with slower turnover rates (8-11%). We quantified the plants' C loss as respiratory CO(2) and BVOC emissions, allowing in tandem with metabolic analysis to deepen our understanding of ecosystem C flux.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>21387007</pmid><doi>10.1371/journal.pone.0017393</doi><oa>free_for_read</oa></addata></record>
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subjects	Algorithms Atmosphere Atmospheric chemistry Betula pendula Biological Transport - physiology Biology Biosynthesis Carbon Carbon - pharmacokinetics Carbon dioxide Carbon Dioxide - metabolism Carbon dioxide atmospheric concentrations Carbon dioxide emissions Carbon Isotopes - pharmacokinetics Cell Respiration - physiology Chemistry Chrysomela Ecosystems Emissions Environmental changes Environmental engineering Fluxes Herbivores Hydrocarbons Intermediates Isoprene Labeling Labelling Leaves Mass spectrometry Mass spectroscopy Metabolism Meteorology Models, Biological Online Systems - instrumentation Organic compounds Oxidation Phloem Photosynthesis Plant Leaves - metabolism Plant pathology Plant Shoots - metabolism Plants (botany) Plants - metabolism Poplar Populus - metabolism Populus tremula Quercus robur Roots Salix Shoots Spectroscopy Staining and Labeling - instrumentation Staining and Labeling - methods Sugar Terpenes Translocation VOCs Volatile hydrocarbons Volatile organic compounds Volatile Organic Compounds - metabolism Xylem
title	Biogenic volatile organic compound and respiratory CO2 emissions after 13C-labeling: online tracing of C translocation dynamics in poplar plants
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