Microbial processes and community composition in the rhizosphere of European beech - The influence of plant C exudates. - Wikidata - awgldk - TriplyDB

Microbial processes and community composition in the rhizosphere of European beech - The influence of plant C exudates.

Microbial processes and community composition in the rhizosphere of European beech - The influence of plant C exudates.

http://www.wikidata.org/entity/Q42174927

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Specificity of plant-microbe interactions in the tree mycorrhizosphere biome and consequences for soil C cycling Mycorrhizal type determines the magnitude and direction of root-induced changes in decomposition in a temperate forest.Effects of clonal integration on microbial community composition and processes in the rhizosphere of the stoloniferous herb Glechoma longituba (Nakai) Kuprian.Impact of the ahas transgene and of herbicides associated with the soybean crop on soil microbial communities.Clonal integration ameliorates the carbon accumulation capacity of a stoloniferous herb, Glechoma longituba, growing in heterogenous light conditions by facilitating nitrogen assimilation in the rhizosphere.Ectomycorrhizal Communities on the Roots of Two Beech (Fagus sylvatica) Populations from Contrasting Climates Differ in Nitrogen Acquisition in a Common Environment Fungal endophytic communities in grapevines (Vitis vinifera L.) respond to crop management.Thaw depth determines reaction and transport of inorganic nitrogen in valley bottom permafrost soils: Nitrogen cycling in permafrost soils.Restoration of red mud deposits by naturally growing vegetation.Forest harvesting reduces the soil metagenomic potential for biomass decomposition Seasonal variation in functional properties of microbial communities in beech forest soil.Responses of belowground carbon allocation dynamics to extended shading in mountain grassland.Isolation and characterization of bacteria from the rhizosphere and bulk soil of Stellera chamaejasme L.Tillage and nitrogen fertilization enhanced belowground carbon allocation and plant nitrogen uptake in a semi-arid canola crop-soil system.Spatial variability of bacteria in the rhizosphere of Elsholtzia splendens under Cu contamination.Roots-eye view: Using microdialysis and microCT to non-destructively map root nutrient depletion and accumulation zones.Short-term carbon input increases microbial nitrogen demand, but not microbial nitrogen mining, in a set of boreal forest soils Root carbon inputs to the rhizosphere stimulate extracellular enzyme activity and increase nitrogen availability in temperate forest soils

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Microbial processes and community composition in the rhizosphere of European beech - The influence of plant C exudates.

http://www.wikidata.org/entity/Q42174927

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2011 nî lūn-bûn

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Microbial processes and commun ...... influence of plant C exudates.

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J.SOILBIO.2010.11.022

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Soil Biology and Biochemistry

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Microbial processes and commun ...... influence of plant C exudates.

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Barbara Kitzler

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Claus Florian Stange

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Sophie Zechmeister-Boltenstern

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P2860

Automated and rapid online determination of 15N abundance and concentration of ammonium, nitrite, or nitrate in aqueous samples by the SPINMAS technique.

Belowground carbon allocation by trees drives seasonal patterns of extracellular enzyme activities by altering microbial community composition in a beech forest soil.

Is microbial community composition in boreal forest soils determined by pH, C-to-N ratio, the trees, or all three?

Metabolic status of bacteria and fungi in the rhizosphere of ponderosa pine seedlings.

Microbial community dynamics associated with rhizosphere carbon flow.

Are root exudates more important than other sources of rhizodeposits in structuring rhizosphere bacterial communities?

Phospholipid fatty acid profiles in selected members of soil microbial communities.

The effects of tree rhizodeposition on soil exoenzyme activity, dissolved organic carbon, and nutrient availability in a subalpine forest ecosystem.

Negligible contribution from roots to soil-borne phospholipid fatty acid fungal biomarkers 18:2ω6,9 and 18:1ω9.

Large-scale forest girdling shows that current photosynthesis drives soil respiration

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551-558

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scholarly article

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10.1016/J.SOILBIO.2010.11.022

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3

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43

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Angela Sessitsch

Jörg Schnecker

Christina Kaiser

Andreas Richter

Lucia Fuchslueger

Sophie Zechmeister-Boltenstern

Marianne Koranda

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2011-03-01T00:00:00Z

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50409929

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21412402

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