Inorganic Nitrogen Uptake and Transport in Beneficial Plant Root-Microbe Interactions

Arbuscular mycorrhiza (AM), ectomycorrhiza (ECM) and nitrogen (N) fixation through rhizobia symbioses (RS) play a critical role for plant nutrient use efficiency in natural ecosystems, usually characterized by nutrient limitation, especially regarding nitrogen and phosphate. Substantial evidence has...

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Published in	Critical reviews in plant sciences Vol. 34; no. 1-3; pp. 4 - 16
Main Authors	Courty, Pierre Emmanuel, Smith, Penelope, Koegel, Sally, Redecker, Dirk, Wipf, Daniel
Format	Journal Article
Language	English
Published	Boca Raton Taylor & Francis 01.06.2015 Taylor & Francis Ltd
Subjects	Agricultural land Agrochemicals Allocations arbuscular mycorrhiza Bacteria Biomass biomass production carbon cropland crops dry matter partitioning Ecosystem services Ecosystems ectomycorrhiza ectomycorrhizae fertilizers forestry forests host plants Inorganic chemistry inorganic nitrogen legume rhizobia symbiosis Life Sciences microsymbionts Nitrogen nutrient use efficiency Nutrients Pesticides Phytopathology and phytopharmacy Plant growth Plants (organisms) Symbiosis Transport Uptakes Vegetal Biology vesicular arbuscular mycorrhizae ectomycorrhiza Aspergillus-nidulans Fungus Hebeloma-cylindrosporum inorganic nitrogen gene-expression legume rhizobia symbiosis transport nitrate transporter affinity ammonium transporter Medicago-truncatula arbuscular mycorrhizal symbiosis Saccharomyces-cerevisiae legume Lotus-japonicus arbuscular mycorrhiza Ectomycorrhizal fungi
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Abstract	Arbuscular mycorrhiza (AM), ectomycorrhiza (ECM) and nitrogen (N) fixation through rhizobia symbioses (RS) play a critical role for plant nutrient use efficiency in natural ecosystems, usually characterized by nutrient limitation, especially regarding nitrogen and phosphate. Substantial evidence has accumulated about how the rational use of microsymbionts' properties should significantly contribute to decreasing fertilizer and pesticide use in agriculture and forestry. Understanding the mechanisms underlying high N use efficiency by mycorrhizal/rhizobial plants and carbon allocation in a context of mutualistic biotrophic interactions is critical for managing both croplands and forests while taking care of the ecosystem services rendered by microbial symbionts. Availability, uptake and exchange of nutrients in biotrophic interactions drive plant growth and modulate biomass allocation, and these parameters are central to plant yield, a major outcome in the context of high biomass production. To unravel the symbiotic N "transportome" blueprint from various host plant combinations, it is critical to facilitate the first steps favoring the manipulation of crops toward greater nitrogen use efficiency and mycorrhizal or rhizobial ability. The present review addresses current knowledge on inorganic N transport in mycorrhizal/rhizobial symbiosis.
AbstractList	Arbuscular mycorrhiza (AM), ectomycorrhiza (ECM) and nitrogen (N) fixation through rhizobia symbioses (RS) play a critical role for plant nutrient use efficiency in natural ecosystems, usually characterized by nutrient limitation, especially regarding nitrogen and phosphate. Substantial evidence has accumulated about how the rational use of microsymbionts' properties should significantly contribute to decreasing fertilizer and pesticide use in agriculture and forestry. Understanding the mechanisms underlying high N use efficiency by mycorrhizal/rhizobial plants and carbon allocation in a context of mutualistic biotrophic interactions is critical for managing both croplands and forests while taking care of the ecosystem services rendered by microbial symbionts. Availability, uptake and exchange of nutrients in biotrophic interactions drive plant growth and modulate biomass allocation, and these parameters are central to plant yield, a major outcome in the context of high biomass production. To unravel the symbiotic N "transportome" blueprint from various host plant combinations, it is critical to facilitate the first steps favoring the manipulation of crops toward greater nitrogen use efficiency and mycorrhizal or rhizobial ability. The present review addresses current knowledge on inorganic N transport in mycorrhizal/rhizobial symbiosis.
Author	Courty, Pierre Emmanuel Koegel, Sally Redecker, Dirk Wipf, Daniel Smith, Penelope
Author_xml	– sequence: 1 givenname: Pierre Emmanuel surname: Courty fullname: Courty, Pierre Emmanuel organization: Zurich-Basel Plant Science Center, Department of Environmental Sciences, Botany, University of Basel – sequence: 2 givenname: Penelope surname: Smith fullname: Smith, Penelope organization: School of Biological Sciences, Rm 239a, Macleay Building A12, The University of Sydney – sequence: 3 givenname: Sally surname: Koegel fullname: Koegel, Sally organization: Zurich-Basel Plant Science Center, Department of Environmental Sciences, Botany, University of Basel – sequence: 4 givenname: Dirk surname: Redecker fullname: Redecker, Dirk organization: UMR INRA 1347/Agrosup/U Bourgogne Agroecology – sequence: 5 givenname: Daniel surname: Wipf fullname: Wipf, Daniel email: daniel.wipf@dijon.inra.fr organization: UMR INRA 1347/Agrosup/U Bourgogne Agroecology
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Snippet	Arbuscular mycorrhiza (AM), ectomycorrhiza (ECM) and nitrogen (N) fixation through rhizobia symbioses (RS) play a critical role for plant nutrient use...
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SubjectTerms	Agricultural land Agrochemicals Allocations arbuscular mycorrhiza Bacteria Biomass biomass production carbon cropland crops dry matter partitioning Ecosystem services Ecosystems ectomycorrhiza ectomycorrhizae fertilizers forestry forests host plants Inorganic chemistry inorganic nitrogen legume rhizobia symbiosis Life Sciences microsymbionts Nitrogen nutrient use efficiency Nutrients Pesticides Phytopathology and phytopharmacy Plant growth Plants (organisms) Symbiosis Transport Uptakes Vegetal Biology vesicular arbuscular mycorrhizae
Title	Inorganic Nitrogen Uptake and Transport in Beneficial Plant Root-Microbe Interactions
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