Strong relationship between elemental stoichiometry and metabolome in plants.
about
Stoichiometric flexibility as a regulator of carbon and nutrient cycling in terrestrial ecosystems under changeWarming and Nitrogen Addition Alter Photosynthetic Pigments, Sugars and Nutrients in a Temperate Meadow Ecosystem.The role of plants in the effects of global change on nutrient availability and stoichiometry in the plant-soil system.Evidence of current impact of climate change on life: a walk from genes to the biosphere.Scaling climate change experiments across space and time.Drought stress responses in crops.Warming differentially influences the effects of drought on stoichiometry and metabolomics in shoots and roots.Down-regulation of tissue N:P ratios in terrestrial plants by elevated CO2.Ecophysiological responses of Betula pendula, Pinus uncinata and Rhododendron ferrugineum in the Catalan Pyrenees to low summer rainfall.A global Fine-Root Ecology Database to address below-ground challenges in plant ecology.Douglas-fir seedlings exhibit metabolic responses to increased temperature and atmospheric droughtSampling date, leaf age and root size: implications for the study of plant C:N:p stoichiometryMultielement stoichiometry of submerged macrophytes across Yunnan plateau lakes (China)Adaptation of maize source leaf metabolism to stress related disturbances in carbon, nitrogen and phosphorus balance.Opposite metabolic responses of shoots and roots to droughtClimate and taxonomy underlie different elemental concentrations and stoichiometries of forest species: the optimum "biogeochemical niche"Warming and drought differentially influence the production and resorption of elemental and metabolic nitrogen pools in Quercus rubra.Differences in the regeneration traits of Potamogeton crispus turions from macrophyte- and phytoplankton-dominated lakes.Long-term fertilization determines different metabolomic profiles and responses in saplings of three rainforest tree species with different adult canopy position.Are the metabolomic responses to folivory of closely related plant species linked to macroevolutionary and plant-folivore coevolutionary processes?Cell metabolomics.Abiotic Stress Responses and Microbe-Mediated Mitigation in Plants: The Omics Strategies.Metabolomics approaches and applications in prostate cancer research.Human-induced nitrogen-phosphorus imbalances alter natural and managed ecosystems across the globe.Drought enhances folivory by shifting foliar metabolomes in Quercus ilex trees.Stem, root, and older leaf N:P ratios are more responsive indicators of soil nutrient availability than new foliage.Carbon allocation under light and nitrogen resource gradients in two model marine phytoplankton(1).Similar local, but different systemic, metabolomic responses of closely related pine subspecies to folivory by caterpillars of the processionary moth.Nutrient stoichiometry in winter wheat: Element concentration pattern reflects developmental stage and weather.Metabolic responses of Quercus ilex seedlings to wounding analysed with nuclear magnetic resonance profiling.Effects of ecological factors on secondary metabolites and inorganic elements of Scutellaria baicalensis and analysis of geoherblism.Close and distant: Contrasting the metabolism of two closely related subspecies of Scots pine under the effects of folivory and summer drought.A core set of metabolite sink/source ratios indicative for plant organ productivity in Lotus japonicus.Does dissolved organic carbon regulate biological methane oxidation in semiarid soils?Linkages of plant stoichiometry to ecosystem production and carbon fluxes with increasing nitrogen inputs in an alpine steppe.Rhizosphere stoichiometry: are C : N : P ratios of plants, soils, and enzymes conserved at the plant species-level?Community Characteristics and Leaf Stoichiometric Traits of Desert Ecosystems Regulated by Precipitation and Soil in an Arid Area of China.Current Challenges in Plant Eco-Metabolomics.Hydraulic redistribution by plants and nutrient stoichiometry: Shifts under global changeBiogeographic patterns of multi-element stoichiometry of Quercus variabilis leaves across China
P2860
Q27026552-388E629B-CEDC-48E3-B742-5AF33EDC841EQ30384526-FE1DD5CF-7AD2-47CB-9073-D133364DAF72Q30575585-D8AA39F6-6EF9-44A4-88FD-F51113E62F9AQ30602393-2C1C1716-9E26-400E-9FBA-038C86F3F00CQ30676191-D1F803C1-5CDB-4669-819E-F5AEBD8D88D6Q30730173-1FAD8F1F-C216-4FC4-8196-3430AE75EE11Q30909979-572FA1D4-2877-4B27-8A5E-2482FC1F44A3Q31048759-58AB0BA9-DD36-4171-A4AC-E5FE4E8E680FQ31139263-24BA687E-0BF6-47D6-809B-B528EE370967Q31167907-AD307739-F664-443E-8C50-7E5E550437EEQ34600999-CC32C96D-FE8D-47B0-9609-61BF5ABDF026Q34658365-517E42B2-5D9C-470E-95C5-A61DB874A9A8Q34669794-C441DDEB-7F96-4822-A23D-5B46FD121040Q34792010-3FC6EFA3-1538-44C2-8EA7-79A4B4831401Q35372890-8B6F4C35-37F0-44CE-8ABC-415EBF87B575Q35603953-FC0B0545-F267-41BF-B94C-60A24905ECD5Q35693023-16FAA13B-E539-416B-BFC7-F25DE104F1ACQ35922062-98C691F7-5BD5-4497-A027-A9C514EA8BA0Q36368999-666B7599-653E-4D50-9634-EC192545A270Q36969861-9C22901A-1A29-45EC-8DCF-385D926D008AQ37199564-6B38EFEF-B9E6-4BED-A49E-8D874E1F7347Q37632971-7C4197B9-EDFC-4AA8-8A12-02F248D8207AQ38212626-763B5887-761F-4B13-B9BE-8D092834233EQ39293877-DA760563-7F57-4FEF-92D7-A08C9C4FC9C1Q39400479-AE589838-A779-42FB-852B-6F3D51A6A43BQ39439060-E6AD2202-51FE-4BED-A2B8-3CD6E3B10E10Q39895501-96091F74-8591-4B6F-9F51-C95287958AA2Q40335835-8F8297A8-680A-4785-A89B-AB936BAD75F7Q41545342-962475AD-49AC-4DCB-8280-E9BFE2D3AF01Q43841256-046B812B-48FF-47CC-A9B0-AE1BF3BD815CQ43866980-8107D3C3-E430-488F-8FCA-8D4E1D03BE26Q45138111-9F272225-9633-44B4-AC23-8E83E7CFC8DCQ45416115-83D98CA1-FB41-4F54-9DA1-A5BC57EBBC42Q46034633-EC4A5C20-5616-4A07-8711-CDBC1AFB5C68Q46350159-5FEB85DC-9863-4C53-9E40-7F3FCD012AE3Q46983981-F01CE70D-C693-497A-9D30-FF5D99673918Q48270309-3AD4C218-DE72-4686-8797-FD51E8D0E5ECQ55284839-35A3D7AA-4864-4372-8F32-C46E3C334D9BQ56455885-CF6C7CEA-9A7F-4E29-A530-048063293C78Q56755135-B525BB02-4E00-438D-B49B-AF98D3419708
P2860
Strong relationship between elemental stoichiometry and metabolome in plants.
description
2012 nî lūn-bûn
@nan
2012 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Strong relationship between elemental stoichiometry and metabolome in plants.
@ast
Strong relationship between elemental stoichiometry and metabolome in plants.
@en
Strong relationship between elemental stoichiometry and metabolome in plants.
@nl
type
label
Strong relationship between elemental stoichiometry and metabolome in plants.
@ast
Strong relationship between elemental stoichiometry and metabolome in plants.
@en
Strong relationship between elemental stoichiometry and metabolome in plants.
@nl
prefLabel
Strong relationship between elemental stoichiometry and metabolome in plants.
@ast
Strong relationship between elemental stoichiometry and metabolome in plants.
@en
Strong relationship between elemental stoichiometry and metabolome in plants.
@nl
P2860
P50
P356
P1476
Strong relationship between elemental stoichiometry and metabolome in plants
@en
P2093
Miriam Pérez-Trujillo
P2860
P304
P356
10.1073/PNAS.1116092109
P407
P577
2012-02-27T00:00:00Z