Search results for "p33"

showing 10 items of 15 documents

Long-term mineral fertiliser use and maize residue incorporation do not compensate for carbon and nutrient losses from a Ferralsol under continuous m…

2015

9 pages; International audience; It has been repeatedly argued that mineral fertiliser application combined with in situ retention of crop residue biomass can sustain long-term productivity of West African soils. Using 20-year experimental data from southern Togo, a biannual rainfall area, we analysed the effect of two rates of mineral NPK fertiliser application to maize–cotton rotation on the long-term dynamics of soil C and nutrient contents, as compared with two control treatments. Mineral fertiliser treatments consisted of application to both maize (first season) and cotton (second season) the research-recommended NPK rates (Fertiliser-RR) and 1.5 times these rates (Fertiliser-1.5 RR). …

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Peaks of in situ N2O emissions are influenced by N2O producing and reducing microbial communities across arable soils

2018

International audience; Introduction Agriculture is the main source of terrestrial N2O emissions, a potent greenhouse gas and the main cause of ozone depletion ((Hu et al., 2015). The reduction of N2O into N2 by microorganisms carrying the nitrous oxide reductase gene (nosZ) is the only known biological process eliminating this greenhouse gas. Recent studies showed that a previously unknown clade of N2O-reducers (nosZII) was related to the potential capacity of the soil to act as a N2O sink (see Hallin et al., 2017 and references therein). However little is known about how this group responds to different agricultural practices. Here, we investigated how N2O-producers and N2O-reducers were …

0301 basic medicine[SDE] Environmental SciencesDenitrification[SDV]Life Sciences [q-bio]Biologie du sol[SHS]Humanities and Social Sciencesnitrogen cyclingF01 - Culture des plantes[SDV.BV] Life Sciences [q-bio]/Vegetal Biologyhttp://aims.fao.org/aos/agrovoc/c_34841General Environmental Science2. Zero hungerAbiotic componentGlobal and Planetary ChangeBiotic componentdenitrificationEcologyEcologyNitrification[SDV] Life Sciences [q-bio]greenhouse gasCycle de l'azote[SDE]Environmental Sciencestillage[SHS] Humanities and Social SciencesArable landGaz à effet de serreP33 - Chimie et physique du solagroecosystemsP40 - Météorologie et climatologie030106 microbiologyhttp://aims.fao.org/aos/agrovoc/c_2793803 medical and health sciencesland-useEnvironmental Chemistryhttp://aims.fao.org/aos/agrovoc/c_12834[SDV.BV]Life Sciences [q-bio]/Vegetal Biologyhttp://aims.fao.org/aos/agrovoc/c_1666Nitrogen cycleChangement climatique[ SDV ] Life Sciences [q-bio]http://aims.fao.org/aos/agrovoc/c_7160P34 - Biologie du sol15. Life on landequipment and suppliesagroecosystems;nitrogen cycling;land-use;tillage;denitrification;nitrification;microbial diversity;greenhouse gasAgronomy13. Climate actionGreenhouse gasmicrobial diversitySoil waterEnvironmental scienceNitrification

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"Table 54" of "Tuning and test of fragmentation models based on identified particles and precision event shape data."

1996

XP distribution for DEL++ production.. Data read from plot.

DN/DXInclusiveE+ E- --> DELTA(1232P33)++ XE+ E- Scattering91.2Single Differential Distribution

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"Table 40" of "Tuning and test of fragmentation models based on identified particles and precision event shape data."

1996

Compilation of multiplicities of baryons from current LEP I data.

E+ E- --> LAMBDA XE+ E- --> SIGMA(1385P13)- XE+ E- --> SIGMA(1385P13)+ XStrange productionNuclear TheoryHigh Energy Physics::PhenomenologyE+ E- --> OMEGA- X91.2Astrophysics::Cosmology and Extragalactic AstrophysicsE+ E- --> P XMULTInclusiveE+ E- --> XI(1530P13)0 XE+ E- --> DELTA(1232P33)++ XE+ E- ScatteringComputer Science::Programming LanguagesE+ E- --> XI- XHigh Energy Physics::ExperimentE+ E- --> LAMBDA/B0 X

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In vitro evaluation of poloxamer in situ forming gels for bedaquiline fumarate salt and pharmacokinetics following intramuscular injection in rats

2019

Graphical abstract

In situPO Propylene oxideIV IntravenousP338 Poloxamer 338lcsh:RS1-441Pharmaceutical Sciencechemistry.chemical_compoundn Sample sizeSD Standard deviationIM Intramuscularchemistry.chemical_classificationC0 Analyte plasma concentration at time zeroDoE Design of experimentsUV UltravioletPharmacology. TherapyK2.EDTA Potassium ethylenediaminetetraacetic acidLC–MS/MS Liquid chromatography-tandem mass spectrometryH&E Hematoxylin and eosintmax Sampling time to reach the maximum observed analyte plasma concentrationIn situ forming gelsCMC Critical micellar concentrationCmax Maximum observed analyte plasma concentrationIntramuscular injectionDN Dose normalizedGPT Gel point temperaturePLGA Poly-(DL-lactic-co-glycolic acid)TFA Trifluoroacetic acidCAN AcetonitrileATP Adenosine 5′ triphosphateSalt (chemistry)Polyethylene glycolPoloxamerArticlelcsh:Pharmacy and materia medicaPharmacokineticsIn vivoUHPLC Ultra-high performance liquid chromatographyPharmacokineticsAUClast Area under the analyte concentration versus time curve from time zero to the time of the last measurable (non-below quantification level) concentrationEO Ethylene oxideNMP N-methyl-2-pyrrolidoneComputingMethodologies_COMPUTERGRAPHICSAUC∞ Area under the analyte concentration vs time curve from time zero to infinite timeP407 Poloxamer 407In vitro releasePoloxamerCMT Critical micellar temperatureGel erosionIn vitrot1/2 Apparent terminal elimination half-lifechemistryMDR-TB Multi-drug resistant tuberculosisAUC80h Area under the analyte concentration versus time curve from time zero to 80 htlast Sampling time until the last measurable (non-below quantification level) analyte plasma concentrationMRM Multiple reaction monitoringNuclear chemistrySustained releaseInternational Journal of Pharmaceutics: X

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"Table 2" of "Measurement of Delta++ (1232) production in hadronic Z decays"

1995

Mean multiplicities. Extrapolation to full x range using a combination of JETSET, HERWIG and UCLA models. The second systematic error comes from the uncertainty in the extrapolation.

InclusiveE+ E- --> DELTA(1232P33)++ XE+ E- --> Z0E+ E- ScatteringIntegrated Cross SectionExclusive91.2Cross SectionSIGMULT

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"Table 1" of "Measurement of Delta++ (1232) production in hadronic Z decays"

1995

Differential DELTA(1232)++ cross section. Errors are combined statistics and systematics.

InclusiveSingle Differential Cross SectionE+ E- --> DELTA(1232P33)++ XE+ E- --> Z0E+ E- ScatteringExclusive91.2DSIG/DX

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Kininogen binding protein p33/gC1qR is localized in the vesicular fraction of endothelial cells

1996

AbstractThe endothelial protein p33/gC1qR is thought to mediate the assembly of components of the kinin-forming and complement-activating pathways on the surface of cardiovascular cells. FACS analysis of intact human umbilical vein endothelial cells using specific antibodies to p33 revealed a minor fluorescence on the cell surface whereas permeabilized cells showed a bright fluorescence indicative of an intracellular localization of p33. Immunostaining of fixed cells confirmed the predominant intracellular localization of p33. Fractionation studies demonstrated that the vesicular but not the membrane fraction of EA.hy926 cells is rich in p33. We conclude that externalization of p33 must pre…

Kininogen bindingp33Kininogen binding proteinCellBiophysicsComplementFluorescent Antibody TechniqueBiologyBiochemistryUmbilical veinMitochondrial ProteinsStructural BiologyGeneticsmedicineHumansMolecular BiologyCells CulturedMembrane GlycoproteinsImmune SeraCell BiologyKininFlow CytometryKininFluorescenceReceptors ComplementCell biologyEndothelial stem cellSpecific antibodyHyaluronan Receptorsmedicine.anatomical_structuregC1qREndothelium VascularCarrier ProteinsImmunostainingFEBS Letters

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Apport de matières organiques exogènes en agriculture: indicateur de potentialité de stockage de carbone dans les sols et définition de classes de di…

2007

CT3; absent

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Soil carbon, multiple benefits

2014

Made available in DSpace on 2018-12-11T17:24:47Z (GMT). No. of bitstreams: 0 Previous issue date: 2015-01-01 In March 2013, 40 leading experts from across the world gathered at a workshop, hosted by the European Commission, Directorate General Joint Research Centre, Italy, to discuss the multiple benefits of soil carbon as part of a Rapid Assessment Process (RAP) project commissioned by Scientific Committee on Problems of the Environment (SCOPE). This collaboration led to the publication of the SCOPE Series Volume 71 Soil Carbon: Science, Management and Policy for Multiple Benefits; which brings together the essential scientific evidence and policy opportunities regarding the global importa…

P33 - Chimie et physique du solProcess (engineering)http://aims.fao.org/aos/agrovoc/c_37938Geography Planning and DevelopmentManagement Monitoring Policy and Law7. Clean energySustainability ScienceScientific evidenceSOLOSMatière organique du solProjet de recherchePolitical science11. SustainabilityLife ScienceEuropean commissionEnvironmental planninghttp://aims.fao.org/aos/agrovoc/c_356572. Zero hungerProjet de développementhttp://aims.fao.org/aos/agrovoc/c_24891[SHS.SOCIO]Humanities and Social Sciences/SociologyScope (project management)Soil organic matterÉvaluation de l'impacthttp://aims.fao.org/aos/agrovoc/c_2229Soil carbon15. Life on landRapid assessmentJoint research13. Climate actionP01 - Conservation de la nature et ressources foncièrescarbone du solISRIC - World Soil Information/dk/atira/pure/core/keywords/nachhaltigkeitswissenschaft

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