Azospirillum and arbuscular mycorrhizal colonization enhance rice growth and physiological traits under well - watered and drought conditions

The response of rice plants to inoculation with an arbuscular mycorrhizal [AM] fungus, Azospirillum brasilense, or combination of both microorganisms, was assayed under well-watered or drought stress conditions. Water deficit treatment was imposed by reducing the amount of water added, but AM plants...

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Detalles Bibliográficos
Otros Autores: Ruíz Sánchez, Michel, Armada, Elisabet, Muñoz, Yaumara, García de Salamone, Inés Eugenia, Aroca, Ricardo, Ruíz Lozano, Juan Manuel, Azcón, Rosario
Formato: Artículo
Lenguaje:Inglés
Materias:
ARBUSCULAR MYCORRHIZAL SYMBIOSIS
AZOSPIRILLUM
DROUGHT
PGPR
ANTIOXIDANT
PROLINE
WATER
BIOMASS
DEHYDRATION
EVAPOTRANSPIRATION
GROWTH, DEVELOPMENT AND AGING
METABOLISM
MICROBIOLOGY
MYCORRHIZA
OXIDATIVE STRESS
PHOTOSYNTHESIS
PHYSIOLOGY
PLANT LEAF
PLANT ROOT
RANDOMIZATION
RICE
SOIL
ANTIOXIDANTS
MYCORRHIZAE
ORYZA SATIVA
PLANT LEAVES
PLANT ROOTS
PLANT TRANSPIRATION
RANDOM ALLOCATION
SUNLIGHT
SYMBIOSIS
ARBUSCULAR
AZOSPIRILLUM BRASILENSE
FUNGI
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2011RuizSanchez.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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245 1 0 |a Azospirillum and arbuscular mycorrhizal colonization enhance rice growth and physiological traits under well - watered and drought conditions 
520 |a The response of rice plants to inoculation with an arbuscular mycorrhizal [AM] fungus, Azospirillum brasilense, or combination of both microorganisms, was assayed under well-watered or drought stress conditions. Water deficit treatment was imposed by reducing the amount of water added, but AM plants, with a significantly higher biomass, received the same amount of water as non-AM plants, with a poor biomass. Thus, the water stress treatment was more severe for AM plants than for non-AM plants. The results showed that AM colonization significantly enhanced rice growth under both water conditions, although the greatest rice development was reached in plants dually inoculated under well-watered conditions. Water level did not affect the efficiency of photosystem II, but both AM and A. brasilense inoculations increased this value. AM colonization increased stomatal conductance, particularly when associated with A. brasilense, which enhanced this parameter by 80 percent under drought conditions and by 35 percent under well-watered conditions as compared to single AM plants. Exposure of AM rice to drought stress decreased the high levels of glutathione that AM plants exhibited under well-watered conditions, while drought had no effect on the ascorbate content. The decrease of glutathione content in AM plants under drought stress conditions led to enhance lipid peroxidation. On the other hand, inoculation with the AM fungus itself increased ascorbate and proline as protective compounds to cope with the harmful effects of water limitation. Inoculation with A. brasilense also enhanced ascorbate accumulation, reaching a similar level as in AM plants. These results showed that, in spite of the fact that drought stress imposed by AM treatments was considerably more severe than non-AM treatments, rice plants benefited not only from the AM symbiosis but also from A. brasilense root colonization, regardless of the watering level. However, the beneficial effects of A. brasilense on most of the physiological and biochemical traits of rice plants were only clearly visible when the plants were mycorrhized. This microbial consortium was effective for rice plants as an acceptable and ecofriendly technology to improve plant performance and development. 
653 0 |a ARBUSCULAR MYCORRHIZAL SYMBIOSIS 
653 0 |a AZOSPIRILLUM 
653 0 |a DROUGHT 
653 0 |a PGPR 
653 0 |a ANTIOXIDANT 
653 0 |a PROLINE 
653 0 |a WATER 
653 0 |a BIOMASS 
653 0 |a DEHYDRATION 
653 0 |a EVAPOTRANSPIRATION 
653 0 |a GROWTH, DEVELOPMENT AND AGING 
653 0 |a METABOLISM 
653 0 |a MICROBIOLOGY 
653 0 |a MYCORRHIZA 
653 0 |a OXIDATIVE STRESS 
653 0 |a PHOTOSYNTHESIS 
653 0 |a PHYSIOLOGY 
653 0 |a PLANT LEAF 
653 0 |a PLANT ROOT 
653 0 |a RANDOMIZATION 
653 0 |a RICE 
653 0 |a SOIL 
653 0 |a ANTIOXIDANTS 
653 0 |a AZOSPIRILLUM 
653 0 |a DEHYDRATION 
653 0 |a MYCORRHIZAE 
653 0 |a ORYZA SATIVA 
653 0 |a OXIDATIVE STRESS 
653 0 |a PHOTOSYNTHESIS 
653 0 |a PLANT LEAVES 
653 0 |a PLANT ROOTS 
653 0 |a PLANT TRANSPIRATION 
653 0 |a RANDOM ALLOCATION 
653 0 |a SOIL 
653 0 |a SUNLIGHT 
653 0 |a SYMBIOSIS 
653 0 |a ARBUSCULAR 
653 0 |a AZOSPIRILLUM BRASILENSE 
653 0 |a FUNGI 
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700 1 |a Armada, Elisabet  |9 69863 
700 1 |a Muñoz, Yaumara  |9 69864 
700 1 |9 6315  |a García de Salamone, Inés Eugenia 
700 1 |a Aroca, Ricardo  |9 69865 
700 1 |a Ruíz Lozano, Juan Manuel  |9 69866 
700 1 |a Azcón, Rosario  |9 43268 
773 |t Journal of Plant Physiology  |g Vol.168, no.10 (2011), p.1031-1037 
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900 |a ^aRuíz-Sánchez^bM. 
900 |a ^aArmada^bE. 
900 |a ^aMuñoz^bY. 
900 |a ^aGarcía de Salamone^bI.E. 
900 |a ^aAroca^bR. 
900 |a ^aRuíz-Lozano^bJ.M. 
900 |a ^aAzcón^bR. 
900 |a ^aRuíz Sánchez^bM. 
900 |a ^aArmada^bE. 
900 |a ^aMuñoz^bY. 
900 |a ^aGarcía de Salamone^bI. E. 
900 |a ^aAroca^bR. 
900 |a ^aRuíz Lozano^bJ. M. 
900 |a ^aAzcón^bR. 
900 |a ^aRuíz-Sánchez^bM.^tInstituto Nacional de Ciencias Agrícolas, Estación Experimental del Arroz Los Palacios, Gaveta Postal 1, San José de las Lajas, 37200 La Habana, Cuba 
900 |a ^aArmada^bE.^tDepartamento de Microbiología del Suelo y Sistemas Simbióticos, Estación Experimental del Zaidín [CSIC], Profesor Albareda no. 1, E-18008 Granada, Spain 
900 |a ^aMuñoz^bY.^tDepartment of Crop Production, Faculty of Agronomy, University of Buenos Aires, Avda. San Martin 4453, Buenos Aires, Argentina 
900 |a ^aGarcía de Salamone^bI.E. 
900 |a ^aAroca^bR. 
900 |a ^aRuíz-Lozano^bJ.M. 
900 |a ^aAzcón^bR. 
900 |a ^tJournal of Plant Physiology^cJ. Plant Physiol. 
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900 |a Vol. 168, no. 10 
900 |a 1037 
900 |a ARBUSCULAR MYCORRHIZAL SYMBIOSIS 
900 |a AZOSPIRILLUM 
900 |a DROUGHT 
900 |a PGPR 
900 |a ANTIOXIDANT 
900 |a PROLINE 
900 |a WATER 
900 |a BIOMASS 
900 |a DEHYDRATION 
900 |a EVAPOTRANSPIRATION 
900 |a GROWTH, DEVELOPMENT AND AGING 
900 |a METABOLISM 
900 |a MICROBIOLOGY 
900 |a MYCORRHIZA 
900 |a OXIDATIVE STRESS 
900 |a PHOTOSYNTHESIS 
900 |a PHYSIOLOGY 
900 |a PLANT LEAF 
900 |a PLANT ROOT 
900 |a RANDOMIZATION 
900 |a RICE 
900 |a SOIL 
900 |a ANTIOXIDANTS 
900 |a AZOSPIRILLUM 
900 |a DEHYDRATION 
900 |a MYCORRHIZAE 
900 |a ORYZA SATIVA 
900 |a OXIDATIVE STRESS 
900 |a PHOTOSYNTHESIS 
900 |a PLANT LEAVES 
900 |a PLANT ROOTS 
900 |a PLANT TRANSPIRATION 
900 |a RANDOM ALLOCATION 
900 |a SOIL 
900 |a SUNLIGHT 
900 |a SYMBIOSIS 
900 |a ARBUSCULAR 
900 |a AZOSPIRILLUM BRASILENSE 
900 |a FUNGI 
900 |a The response of rice plants to inoculation with an arbuscular mycorrhizal [AM] fungus, Azospirillum brasilense, or combination of both microorganisms, was assayed under well-watered or drought stress conditions. Water deficit treatment was imposed by reducing the amount of water added, but AM plants, with a significantly higher biomass, received the same amount of water as non-AM plants, with a poor biomass. Thus, the water stress treatment was more severe for AM plants than for non-AM plants. The results showed that AM colonization significantly enhanced rice growth under both water conditions, although the greatest rice development was reached in plants dually inoculated under well-watered conditions. Water level did not affect the efficiency of photosystem II, but both AM and A. brasilense inoculations increased this value. AM colonization increased stomatal conductance, particularly when associated with A. brasilense, which enhanced this parameter by 80 percent under drought conditions and by 35 percent under well-watered conditions as compared to single AM plants. Exposure of AM rice to drought stress decreased the high levels of glutathione that AM plants exhibited under well-watered conditions, while drought had no effect on the ascorbate content. The decrease of glutathione content in AM plants under drought stress conditions led to enhance lipid peroxidation. On the other hand, inoculation with the AM fungus itself increased ascorbate and proline as protective compounds to cope with the harmful effects of water limitation. Inoculation with A. brasilense also enhanced ascorbate accumulation, reaching a similar level as in AM plants. These results showed that, in spite of the fact that drought stress imposed by AM treatments was considerably more severe than non-AM treatments, rice plants benefited not only from the AM symbiosis but also from A. brasilense root colonization, regardless of the watering level. However, the beneficial effects of A. brasilense on most of the physiological and biochemical traits of rice plants were only clearly visible when the plants were mycorrhized. This microbial consortium was effective for rice plants as an acceptable and ecofriendly technology to improve plant performance and development. 
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