Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants.
Identifieur interne : 001315 ( Main/Exploration ); précédent : 001314; suivant : 001316Elevated CO₂ does not offset greater water stress predicted under climate change for native and exotic riparian plants.
Auteurs : Laura G. Perry [États-Unis] ; Patrick B. Shafroth ; Dana M. Blumenthal ; Jack A. Morgan ; Daniel R. LecainSource :
- The New phytologist [ 1469-8137 ] ; 2013.
Descripteurs français
- KwdFr :
- Analyse de variance (MeSH), Arbres (anatomie et histologie), Arbres (croissance et développement), Arbres (physiologie), Azote (métabolisme), Biomasse (MeSH), Carbone (métabolisme), Changement climatique (MeSH), Dioxyde de carbone (pharmacologie), Déshydratation (MeSH), Eau (composition chimique), Humidité (MeSH), Isotopes du carbone (MeSH), Plant (croissance et développement), Plant (effets des médicaments et des substances chimiques), Pousses de plante (croissance et développement), Pousses de plante (effets des médicaments et des substances chimiques), Racines de plante (croissance et développement), Racines de plante (effets des médicaments et des substances chimiques), Sol (composition chimique), Écosystème (MeSH).
- MESH :
- anatomie et histologie : Arbres.
- composition chimique : Eau, Sol.
- croissance et développement : Arbres, Plant, Pousses de plante, Racines de plante.
- effets des médicaments et des substances chimiques : Plant, Pousses de plante, Racines de plante.
- métabolisme : Azote, Carbone.
- pharmacologie : Dioxyde de carbone.
- physiologie : Arbres.
- Analyse de variance, Biomasse, Changement climatique, Déshydratation, Humidité, Isotopes du carbone, Écosystème.
English descriptors
- KwdEn :
- Analysis of Variance (MeSH), Biomass (MeSH), Carbon (metabolism), Carbon Dioxide (pharmacology), Carbon Isotopes (MeSH), Climate Change (MeSH), Dehydration (MeSH), Ecosystem (MeSH), Humidity (MeSH), Nitrogen (metabolism), Plant Roots (drug effects), Plant Roots (growth & development), Plant Shoots (drug effects), Plant Shoots (growth & development), Seedlings (drug effects), Seedlings (growth & development), Soil (chemistry), Trees (anatomy & histology), Trees (growth & development), Trees (physiology), Water (chemistry).
- MESH :
- chemical , chemistry : Soil, Water.
- chemical , metabolism : Carbon, Nitrogen.
- chemical , pharmacology : Carbon Dioxide.
- anatomy & histology : Trees.
- drug effects : Plant Roots, Plant Shoots, Seedlings.
- growth & development : Plant Roots, Plant Shoots, Seedlings, Trees.
- physiology : Trees.
- Analysis of Variance, Biomass, Carbon Isotopes, Climate Change, Dehydration, Ecosystem, Humidity.
Abstract
In semiarid western North American riparian ecosystems, increased drought and lower streamflows under climate change may reduce plant growth and recruitment, and favor drought-tolerant exotic species over mesic native species. We tested whether elevated atmospheric CO₂ might ameliorate these effects by improving plant water-use efficiency. We examined the effects of CO₂ and water availability on seedlings of two native (Populus deltoides spp. monilifera, Salix exigua) and three exotic (Elaeagnus angustifolia, Tamarix spp., Ulmus pumila) western North American riparian species in a CO₂-controlled glasshouse, using 1-m-deep pots with different water-table decline rates. Low water availability reduced seedling biomass by 70-97%, and hindered the native species more than the exotics. Elevated CO₂ increased biomass by 15%, with similar effects on natives and exotics. Elevated CO₂ increased intrinsic water-use efficiency (Δ¹³C(leaf) ), but did not increase biomass more in drier treatments than wetter treatments. The moderate positive effects of elevated CO₂ on riparian seedlings are unlikely to counteract the large negative effects of increased aridity projected under climate change. Our results suggest that increased aridity will reduce riparian seedling growth despite elevated CO₂, and will reduce growth more for native Salix and Populus than for drought-tolerant exotic species.
DOI: 10.1111/nph.12030
PubMed: 23171384
Affiliations:
Links toward previous steps (curation, corpus...)
Le document en format XML
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<term>Carbon Dioxide (pharmacology)</term>
<term>Carbon Isotopes (MeSH)</term>
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<term>Arbres (physiologie)</term>
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<front><div type="abstract" xml:lang="en">In semiarid western North American riparian ecosystems, increased drought and lower streamflows under climate change may reduce plant growth and recruitment, and favor drought-tolerant exotic species over mesic native species. We tested whether elevated atmospheric CO₂ might ameliorate these effects by improving plant water-use efficiency. We examined the effects of CO₂ and water availability on seedlings of two native (Populus deltoides spp. monilifera, Salix exigua) and three exotic (Elaeagnus angustifolia, Tamarix spp., Ulmus pumila) western North American riparian species in a CO₂-controlled glasshouse, using 1-m-deep pots with different water-table decline rates. Low water availability reduced seedling biomass by 70-97%, and hindered the native species more than the exotics. Elevated CO₂ increased biomass by 15%, with similar effects on natives and exotics. Elevated CO₂ increased intrinsic water-use efficiency (Δ¹³C(leaf) ), but did not increase biomass more in drier treatments than wetter treatments. The moderate positive effects of elevated CO₂ on riparian seedlings are unlikely to counteract the large negative effects of increased aridity projected under climate change. Our results suggest that increased aridity will reduce riparian seedling growth despite elevated CO₂, and will reduce growth more for native Salix and Populus than for drought-tolerant exotic species.</div>
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<Abstract><AbstractText>In semiarid western North American riparian ecosystems, increased drought and lower streamflows under climate change may reduce plant growth and recruitment, and favor drought-tolerant exotic species over mesic native species. We tested whether elevated atmospheric CO₂ might ameliorate these effects by improving plant water-use efficiency. We examined the effects of CO₂ and water availability on seedlings of two native (Populus deltoides spp. monilifera, Salix exigua) and three exotic (Elaeagnus angustifolia, Tamarix spp., Ulmus pumila) western North American riparian species in a CO₂-controlled glasshouse, using 1-m-deep pots with different water-table decline rates. Low water availability reduced seedling biomass by 70-97%, and hindered the native species more than the exotics. Elevated CO₂ increased biomass by 15%, with similar effects on natives and exotics. Elevated CO₂ increased intrinsic water-use efficiency (Δ¹³C(leaf) ), but did not increase biomass more in drier treatments than wetter treatments. The moderate positive effects of elevated CO₂ on riparian seedlings are unlikely to counteract the large negative effects of increased aridity projected under climate change. Our results suggest that increased aridity will reduce riparian seedling growth despite elevated CO₂, and will reduce growth more for native Salix and Populus than for drought-tolerant exotic species.</AbstractText>
<CopyrightInformation>No claim to original US government works. New Phytologist © 2012 New Phytologist Trust.</CopyrightInformation>
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<ForeName>Laura G</ForeName>
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