Search results for "plant development"

showing 4 items of 34 documents

Phenological model performance to warmer conditions: application to Pinot noir in Burgundy.

2014

<p style="text-align: justify;"><strong>Aim</strong>: The current work aims to assess the performance of two phenological models - a linear model (<em>Grapevine Flowering</em> <em>Véraison</em> model, <em>GFV</em>) and a curvilinear model (<em>Wang and</em> <em>Engel</em> model, <em>WE</em>) - to warmer temperature conditions for the grapevine variety Pinot noir in Burgundy.</p><p style="text-align: justify;"><strong>Methods and results</strong>: Simulations using historical data from the 1973-2005 period were similar between models and consistent with observations. To mimic pot…

[SDV.SA.AGRO]Life Sciences [q-bio]/Agricultural sciences/AgronomyPinot noirClimate changeHorticultureAtmospheric sciencesVeraisonLatitudelcsh:Agriculture[ SDV.SA.AGRO ] Life Sciences [q-bio]/Agricultural sciences/Agronomylcsh:Botanyphenological modelBotanyTemperate climateInhibitory effectMathematicsPhenologylcsh:SLinear modellcsh:QK1-989Plant developmentclimate change13. Climate action[SDU.STU.CL]Sciences of the Universe [physics]/Earth Sciences/ClimatologyVitis vinifera[ SDU.STU.CL ] Sciences of the Universe [physics]/Earth Sciences/ClimatologyBurgundyFood Science
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The Copper-microRNA Pathway Is Integrated with Developmental and Environmental Stress Responses in Arabidopsis thaliana

2021

As an essential nutrient, copper (Cu) scarcity causes a decrease in agricultural production. Cu deficiency responses include the induction of several microRNAs, known as Cu-miRNAs, which are responsible for degrading mRNAs from abundant and dispensable cuproproteins to economize copper when scarce. Cu-miRNAs, such as miR398 and miR408 are conserved, as well as the signal transduction pathway to induce them under Cu deficiency. The Arabidopsis thaliana SQUAMOSA-PROMOTER BINDING PROTEIN-LIKE (SPL) family member SPL7 binds to the cis-regulatory motifs present in the promoter regions of genes expressed under Cu deficiency, including Cu-miRNAs. The expression of several other SPL transcription f…

copper-microRNAsSPLArabidopsis thalianaQH301-705.5Arabidopsischemistry.chemical_elementPlant DevelopmentEnvironmental stressCatalysisArticleInorganic ChemistrystressStress PhysiologicalmicroRNAArabidopsis thalianaPhysical and Theoretical ChemistryBiology (General)Molecular BiologyTranscription factorGeneQD1-999developmentSpectroscopybiologyArabidopsis Proteins<i>Arabidopsis thaliana</i>Organic ChemistryPromotercopper homeostasisGeneral Medicinebiology.organism_classificationCopperComputer Science ApplicationsCell biologyDNA-Binding ProteinsChemistryMicroRNAschemistrySignal transductionCopperTranscription Factors
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The efficiency of humic growth stimulators in pre-sowing seed treatment and foliar additional fertilizing of sown areas of grain and industrial crops

2019

Article The aim of the research was to establish the effectiveness of preparations, made on the basis of humic and fulvic acids on the yields of crops in case of different methods and amounts used. The experiments were held with varieties and hybrids of winter wheat, soya, corn, and sunflower. Based on the obtained results of investigation during the period of 2015–2017, the positive impact of foliar additional fertilizing with 4R Foliar Concentrate growth stimulator on the basis of humic and fulvic acids on the formation of productivity of the main crops sown areas was established. Proceeding from the results of the research, the using of growth stimulators based on humic and fulvic acids,…

humic substancesarticlearticlesfood and beveragesplant developmentseed treatmentfertilizing
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Defective copper transport in the copt5 mutant affects cadmium tolerance.

2014

Cadmium toxicity interferes with essential metal homeostasis, which is a problem for both plant nutrition and the consumption of healthy food by humans. Copper uptake is performed by the members of the Arabidopsis high affinity copper transporter (COPT) family. One of the members, COPT5, is involved in copper recycling from the vacuole toward the cytosolic compartment. We show herein that copt5 mutants are more sensitive to cadmium stress than wild-type plants, as indicated by reduced growth. Exacerbated cadmium toxicity in copt5 mutants is due specifically to altered copper traffic through the COPT5 transporter. Three different processes which have been shown to affect cadmium tolerance ar…

inorganic chemicalsPhysiologyIronMutantArabidopsischemistry.chemical_elementPlant DevelopmentPlant ScienceVacuolemedicine.disease_causeModels BiologicalPlant RootsGene Expression Regulation PlantStress PhysiologicalEtiolationmedicineArabidopsis thalianaSLC31 ProteinsCation Transport ProteinsCadmiumbiologyArabidopsis ProteinsBiological TransportCell BiologyGeneral MedicineEthylenesmedicine.diseasebiology.organism_classificationCopperAdaptation PhysiologicalHypocotylddc:Cell biologyOxidative StresschemistrySeedlingsToxicityMutationLipid PeroxidationCopper deficiencyOxidative stressBiomarkersCopperCadmiumPlantcell physiology
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