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High productivity in hybrid-poplar plantations without isoprene emission to the atmosphere.

Identifieur interne : 000354 ( Main/Exploration ); précédent : 000353; suivant : 000355

High productivity in hybrid-poplar plantations without isoprene emission to the atmosphere.

Auteurs : Russell K. Monson [États-Unis] ; Barbro Winkler [Allemagne] ; Todd N. Rosenstiel [États-Unis] ; Katja Block [Allemagne] ; Juliane Merl-Pham [Allemagne] ; Steven H. Strauss [États-Unis] ; Kori Ault [États-Unis] ; Jason Maxfield [États-Unis] ; David J P. Moore [États-Unis] ; Nicole A. Trahan [États-Unis] ; Amberly A. Neice [États-Unis] ; Ian Shiach [États-Unis] ; Greg A. Barron-Gafford [États-Unis] ; Peter Ibsen [États-Unis] ; Joel T. Mccorkel [États-Unis] ; Jörg Bernhardt [Allemagne] ; Joerg-Peter Schnitzler [États-Unis]

Source :

RBID : pubmed:31907313

Descripteurs français

English descriptors

Abstract

Hybrid-poplar tree plantations provide a source for biofuel and biomass, but they also increase forest isoprene emissions. The consequences of increased isoprene emissions include higher rates of tropospheric ozone production, increases in the lifetime of methane, and increases in atmospheric aerosol production, all of which affect the global energy budget and/or lead to the degradation of air quality. Using RNA interference (RNAi) to suppress isoprene emission, we show that this trait, which is thought to be required for the tolerance of abiotic stress, is not required for high rates of photosynthesis and woody biomass production in the agroforest plantation environment, even in areas with high levels of climatic stress. Biomass production over 4 y in plantations in Arizona and Oregon was similar among genetic lines that emitted or did not emit significant amounts of isoprene. Lines that had substantially reduced isoprene emission rates also showed decreases in flavonol pigments, which reduce oxidative damage during extremes of abiotic stress, a pattern that would be expected to amplify metabolic dysfunction in the absence of isoprene production in stress-prone climate regimes. However, compensatory increases in the expression of other proteomic components, especially those associated with the production of protective compounds, such as carotenoids and terpenoids, and the fact that most biomass is produced prior to the hottest and driest part of the growing season explain the observed pattern of high biomass production with low isoprene emission. Our results show that it is possible to reduce the deleterious influences of isoprene on the atmosphere, while sustaining woody biomass production in temperate agroforest plantations.

DOI: 10.1073/pnas.1912327117
PubMed: 31907313
PubMed Central: PMC6983369


Affiliations:

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Le document en format XML

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<name sortKey="Barron Gafford, Greg A" sort="Barron Gafford, Greg A" uniqKey="Barron Gafford G" first="Greg A" last="Barron-Gafford">Greg A. Barron-Gafford</name>
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<name sortKey="Mccorkel, Joel T" sort="Mccorkel, Joel T" uniqKey="Mccorkel J" first="Joel T" last="Mccorkel">Joel T. Mccorkel</name>
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<nlm:affiliation>Biospheric Sciences Laboratory, NASA Goddard Space Flight Center, Greenbelt, MD 20771.</nlm:affiliation>
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<name sortKey="Bernhardt, Jorg" sort="Bernhardt, Jorg" uniqKey="Bernhardt J" first="Jörg" last="Bernhardt">Jörg Bernhardt</name>
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<nlm:affiliation>Institute for Microbiology, Ernst-Moritz-Arndt University, 17487 Greifswald, Germany.</nlm:affiliation>
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<name sortKey="Schnitzler, Joerg Peter" sort="Schnitzler, Joerg Peter" uniqKey="Schnitzler J" first="Joerg-Peter" last="Schnitzler">Joerg-Peter Schnitzler</name>
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<title level="j">Proceedings of the National Academy of Sciences of the United States of America</title>
<idno type="eISSN">1091-6490</idno>
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<term>Air Pollution (MeSH)</term>
<term>Arizona (MeSH)</term>
<term>Atmosphere (MeSH)</term>
<term>Biofuels (MeSH)</term>
<term>Biomass (MeSH)</term>
<term>Butadienes (MeSH)</term>
<term>Carbon Dioxide (metabolism)</term>
<term>Carotenoids (metabolism)</term>
<term>Climate (MeSH)</term>
<term>Hemiterpenes (biosynthesis)</term>
<term>Hybridization, Genetic (MeSH)</term>
<term>Oregon (MeSH)</term>
<term>Photosynthesis (MeSH)</term>
<term>Plant Leaves (metabolism)</term>
<term>Plant Shoots (genetics)</term>
<term>Plant Shoots (growth & development)</term>
<term>Plants, Genetically Modified (metabolism)</term>
<term>Populus (genetics)</term>
<term>Populus (growth & development)</term>
<term>Populus (metabolism)</term>
<term>Proteome (MeSH)</term>
<term>RNA Interference (MeSH)</term>
<term>Seasons (MeSH)</term>
<term>Stress, Physiological (MeSH)</term>
<term>Terpenes (metabolism)</term>
<term>Thermotolerance (physiology)</term>
<term>Wood (MeSH)</term>
</keywords>
<keywords scheme="KwdFr" xml:lang="fr">
<term>Arizona (MeSH)</term>
<term>Atmosphère (MeSH)</term>
<term>Biocarburants (MeSH)</term>
<term>Biomasse (MeSH)</term>
<term>Bois (MeSH)</term>
<term>Butadiènes (MeSH)</term>
<term>Caroténoïdes (métabolisme)</term>
<term>Climat (MeSH)</term>
<term>Dioxyde de carbone (métabolisme)</term>
<term>Feuilles de plante (métabolisme)</term>
<term>Hybridation génétique (MeSH)</term>
<term>Hémiterpènes (biosynthèse)</term>
<term>Interférence par ARN (MeSH)</term>
<term>Orégon (MeSH)</term>
<term>Photosynthèse (MeSH)</term>
<term>Pollution de l'air (MeSH)</term>
<term>Populus (croissance et développement)</term>
<term>Populus (génétique)</term>
<term>Populus (métabolisme)</term>
<term>Pousses de plante (croissance et développement)</term>
<term>Pousses de plante (génétique)</term>
<term>Protéome (MeSH)</term>
<term>Saisons (MeSH)</term>
<term>Stress physiologique (MeSH)</term>
<term>Terpènes (métabolisme)</term>
<term>Thermotolérance (physiologie)</term>
<term>Végétaux génétiquement modifiés (métabolisme)</term>
</keywords>
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<term>Hemiterpenes</term>
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<term>Carbon Dioxide</term>
<term>Carotenoids</term>
<term>Terpenes</term>
</keywords>
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<term>Biofuels</term>
<term>Butadienes</term>
<term>Proteome</term>
</keywords>
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<term>Arizona</term>
<term>Oregon</term>
</keywords>
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<term>Hémiterpènes</term>
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<term>Populus</term>
<term>Pousses de plante</term>
</keywords>
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<term>Plant Shoots</term>
<term>Populus</term>
</keywords>
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<term>Plant Shoots</term>
<term>Populus</term>
</keywords>
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<term>Populus</term>
<term>Pousses de plante</term>
</keywords>
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<term>Plant Leaves</term>
<term>Plants, Genetically Modified</term>
<term>Populus</term>
</keywords>
<keywords scheme="MESH" qualifier="métabolisme" xml:lang="fr">
<term>Caroténoïdes</term>
<term>Dioxyde de carbone</term>
<term>Feuilles de plante</term>
<term>Populus</term>
<term>Terpènes</term>
<term>Végétaux génétiquement modifiés</term>
</keywords>
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<term>Thermotolérance</term>
</keywords>
<keywords scheme="MESH" qualifier="physiology" xml:lang="en">
<term>Thermotolerance</term>
</keywords>
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<term>Air Pollution</term>
<term>Atmosphere</term>
<term>Biomass</term>
<term>Climate</term>
<term>Hybridization, Genetic</term>
<term>Photosynthesis</term>
<term>RNA Interference</term>
<term>Seasons</term>
<term>Stress, Physiological</term>
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<term>Arizona</term>
<term>Atmosphère</term>
<term>Biocarburants</term>
<term>Biomasse</term>
<term>Bois</term>
<term>Butadiènes</term>
<term>Climat</term>
<term>Hybridation génétique</term>
<term>Interférence par ARN</term>
<term>Orégon</term>
<term>Photosynthèse</term>
<term>Pollution de l'air</term>
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<front>
<div type="abstract" xml:lang="en">Hybrid-poplar tree plantations provide a source for biofuel and biomass, but they also increase forest isoprene emissions. The consequences of increased isoprene emissions include higher rates of tropospheric ozone production, increases in the lifetime of methane, and increases in atmospheric aerosol production, all of which affect the global energy budget and/or lead to the degradation of air quality. Using RNA interference (RNAi) to suppress isoprene emission, we show that this trait, which is thought to be required for the tolerance of abiotic stress, is not required for high rates of photosynthesis and woody biomass production in the agroforest plantation environment, even in areas with high levels of climatic stress. Biomass production over 4 y in plantations in Arizona and Oregon was similar among genetic lines that emitted or did not emit significant amounts of isoprene. Lines that had substantially reduced isoprene emission rates also showed decreases in flavonol pigments, which reduce oxidative damage during extremes of abiotic stress, a pattern that would be expected to amplify metabolic dysfunction in the absence of isoprene production in stress-prone climate regimes. However, compensatory increases in the expression of other proteomic components, especially those associated with the production of protective compounds, such as carotenoids and terpenoids, and the fact that most biomass is produced prior to the hottest and driest part of the growing season explain the observed pattern of high biomass production with low isoprene emission. Our results show that it is possible to reduce the deleterious influences of isoprene on the atmosphere, while sustaining woody biomass production in temperate agroforest plantations.</div>
</front>
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<Year>2020</Year>
<Month>04</Month>
<Day>27</Day>
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<Year>2020</Year>
<Month>07</Month>
<Day>06</Day>
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<Volume>117</Volume>
<Issue>3</Issue>
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<Month>01</Month>
<Day>21</Day>
</PubDate>
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<Title>Proceedings of the National Academy of Sciences of the United States of America</Title>
<ISOAbbreviation>Proc Natl Acad Sci U S A</ISOAbbreviation>
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<ArticleTitle>High productivity in hybrid-poplar plantations without isoprene emission to the atmosphere.</ArticleTitle>
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<MedlinePgn>1596-1605</MedlinePgn>
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<AbstractText>Hybrid-poplar tree plantations provide a source for biofuel and biomass, but they also increase forest isoprene emissions. The consequences of increased isoprene emissions include higher rates of tropospheric ozone production, increases in the lifetime of methane, and increases in atmospheric aerosol production, all of which affect the global energy budget and/or lead to the degradation of air quality. Using RNA interference (RNAi) to suppress isoprene emission, we show that this trait, which is thought to be required for the tolerance of abiotic stress, is not required for high rates of photosynthesis and woody biomass production in the agroforest plantation environment, even in areas with high levels of climatic stress. Biomass production over 4 y in plantations in Arizona and Oregon was similar among genetic lines that emitted or did not emit significant amounts of isoprene. Lines that had substantially reduced isoprene emission rates also showed decreases in flavonol pigments, which reduce oxidative damage during extremes of abiotic stress, a pattern that would be expected to amplify metabolic dysfunction in the absence of isoprene production in stress-prone climate regimes. However, compensatory increases in the expression of other proteomic components, especially those associated with the production of protective compounds, such as carotenoids and terpenoids, and the fact that most biomass is produced prior to the hottest and driest part of the growing season explain the observed pattern of high biomass production with low isoprene emission. Our results show that it is possible to reduce the deleterious influences of isoprene on the atmosphere, while sustaining woody biomass production in temperate agroforest plantations.</AbstractText>
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<Affiliation>Department of Ecology and Evolutionary Biology, University of Arizona, Tucson, AZ 85721; russmonson@email.arizona.edu rosensti@pdx.edu jp.schnitzler@helmholtz-muenchen.de.</Affiliation>
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<Affiliation>Laboratory of Tree-Ring Research, University of Arizona, Tucson, AZ 85721.</Affiliation>
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<LastName>Winkler</LastName>
<ForeName>Barbro</ForeName>
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<ForeName>Todd N</ForeName>
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<Affiliation>Department of Biology, Portland State University, Portland, OR 97207; russmonson@email.arizona.edu rosensti@pdx.edu jp.schnitzler@helmholtz-muenchen.de.</Affiliation>
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<Affiliation>Research Unit Environmental Simulation, Institute of Biochemical Plant Pathology, Helmholtz Zentrum München, 85764 Neuherberg, Germany; russmonson@email.arizona.edu rosensti@pdx.edu jp.schnitzler@helmholtz-muenchen.de.</Affiliation>
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