Search results for "DISCIPLINA"

showing 10 items of 5437 documents

Binding Site Alteration Is Responsible for Field-Isolated Resistance to Bacillus thuringiensis Cry2A Insecticidal Proteins in Two Helicoverpa Species

2010

Background Evolution of resistance by target pests is the main threat to the long-term efficacy of crops expressing Bacillus thuringiensis (Bt) insecticidal proteins. Cry2 proteins play a pivotal role in current Bt spray formulations and transgenic crops and they complement Cry1A proteins because of their different mode of action. Their presence is critical in the control of those lepidopteran species, such as Helicoverpa spp., which are not highly susceptible to Cry1A proteins. In Australia, a transgenic variety of cotton expressing Cry1Ac and Cry2Ab (Bollgard II) comprises at least 80% of the total cotton area. Prior to the widespread adoption of Bollgard II, the frequency of alleles conf…

0106 biological sciencesCrops AgriculturalInsecticidesHelicoverpa punctigeraScienceUNESCO::CIENCIAS DE LA VIDA::Biología de insectos (Entomología)::Entomología generalBacillus thuringiensisBacterial ProteinGenetically modified cropsHelicoverpa armigera01 natural sciencesMicrobiologyLepidoptera genitaliaInsecticide Resistance03 medical and health sciencesBacterial ProteinsBacillus thuringiensisBotanyBacillus thuringiensiBiotechnology/Applied MicrobiologyAnimalsMode of actionBiotechnology/Plant BiotechnologyHelicoverpaInsecticide030304 developmental biology0303 health sciencesMultidisciplinaryBinding SitesbiologyAnimalQfungiBinding SiteRbiology.organism_classificationBinding site alterationHelicoverpa speciesLepidoptera010602 entomologyCry1AcBacillus thuringiensis; Binding site alteration; Helicoverpa speciesMedicine:CIENCIAS DE LA VIDA::Biología de insectos (Entomología)::Entomología general [UNESCO]Plant Biology/Agricultural BiotechnologyResearch ArticleProtein BindingPLoS ONE
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Ocean Acidification and the Loss of Phenolic Substances in Marine Plants

2012

Rising atmospheric CO(2) often triggers the production of plant phenolics, including many that serve as herbivore deterrents, digestion reducers, antimicrobials, or ultraviolet sunscreens. Such responses are predicted by popular models of plant defense, especially resource availability models which link carbon availability to phenolic biosynthesis. CO(2) availability is also increasing in the oceans, where anthropogenic emissions cause ocean acidification, decreasing seawater pH and shifting the carbonate system towards further CO(2) enrichment. Such conditions tend to increase seagrass productivity but may also increase rates of grazing on these marine plants. Here we show that high CO(2) …

0106 biological sciencesCymodocea nodosaved/biology.organism_classification_rank.speciesCarbonatesSecondary MetabolismMarine and Aquatic Scienceslcsh:MedicinePlant Science01 natural scienceschemistry.chemical_compoundGlobal Change Ecologylcsh:SciencePhysiological EcologyMultidisciplinaryAlismatalesbiologyEcologyEcologyPlant BiochemistryMarine EcologyOcean acidificationPotamogetonaceaeHydrogen-Ion ConcentrationSeagrassProductivity (ecology)ItalyCarbon dioxideCoastal EcologyResearch ArticleOceans and SeasMarine Biology010603 evolutionary biologyStatistics NonparametricHydrothermal VentsPhenolsPlant-Environment InteractionsTerrestrial plantSeawater14. Life underwaterocean acidification climate change mediterranean sea seagrassBiologyAnalysis of VarianceChemical EcologyMarylandved/biology010604 marine biology & hydrobiologyPlant Ecologyfungilcsh:R15. Life on landCarbon Dioxidebiology.organism_classificationSalinitychemistry13. Climate actionEarth Scienceslcsh:QRuppia maritima
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Quorum Sensing and Density-Dependent Dispersal in an Aquatic Model System

2012

International audience; Many organisms use cues to decide whether to disperse or not, especially those related to the composition of their environment. Dispersal hence sometimes depends on population density, which can be important for the dynamics and evolution of subdivided populations. But very little is known about the factors that organisms use to inform their dispersal decision. We investigated the cues underlying density-dependent dispersal in interconnected microcosms of the freshwater protozoan Paramecium caudatum. In two experiments, we manipulated (i) the number of cells per microcosm and (ii) the origin of their culture medium (supernatant from high-or low-density populations). …

0106 biological sciencesDYNAMICSAquatic OrganismsParameciumPopulation DynamicsEMIGRATIONlcsh:MedicineMarine and Aquatic Sciences01 natural sciencesPopulation densityBehavioral EcologySpatial and Landscape Ecologylcsh:ScienceOrganismFreshwater Ecology0303 health sciencesMultidisciplinarybiologyEcologyAnimal BehaviorEcologySwarm behaviourQuorum Sensing[SDE]Environmental SciencesMicrocosmResearch ArticleFreshwater EnvironmentsSignal TransductionMetapopulation DynamicsSTRATEGIESMovementMarine Biology010603 evolutionary biologyModels Biological03 medical and health sciencesRATESBiologySOCIAL INFORMATION;EVOLUTION;EMIGRATION;STRATEGIES;DYNAMICS;LIZARD;RATES030304 developmental biologyPopulation Biologylcsh:RSOCIAL INFORMATIONLIZARDbiology.organism_classificationEVOLUTIONQuorum sensingEarth SciencesBiological dispersallcsh:QParamecium caudatumAdaptation[SDE.BE]Environmental Sciences/Biodiversity and EcologyZoologyEcological Environments
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Ocean acidification impairs vermetid reef recruitment

2014

Vermetids form reefs in sub-tropical and warm-temperate waters that protect coasts from erosion, regulate sediment transport and accumulation, serve as carbon sinks and provide habitat for other species. The gastropods that form these reefs brood encapsulated larvae; they are threatened by rapid environmental changes since their ability to disperse is very limited. We used transplant experiments along a natural CO2 gradient to assess ocean acidification effects on the reef-building gastropod Dendropoma petraeum. We found that although D. petraeum were able to reproduce and brood at elevated levels of CO2, recruitment success was adversely affected. Long-term exposure to acidified conditions…

0106 biological sciencesDendropoma petraeumGeologic Sediments010504 meteorology & atmospheric sciencesOceans and SeasGastropoda01 natural sciencesArticleCLIMATE-CHANGE ECOLOGYWater MovementsAnimals14. Life underwaterReefMollusca0105 earth and related environmental sciencesgeographyMultidisciplinarygeography.geographical_feature_categorybiologyEcologyCoral Reefs010604 marine biology & hydrobiologyfungiECOSYSTEM ECOLOGYWaterOcean acidificationCoral reefCarbon DioxideHydrogen-Ion Concentrationbiology.organism_classificationBroodFisheryHabitatEnvironmental scienceECOSYSTEM ECOLOGY; CLIMATE-CHANGE ECOLOGYEnvironmental issues with coral reefsgeographic locationsScientific Reports
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Constitutive Activation of the Midgut Response to Bacillus thuringiensis in Bt-Resistant Spodoptera exigua

2010

Bacillus thuringiensis is the most effective microbial control agent for controlling numerous species from different insect orders. The main threat for the long term use of B. thuringiensis in pest control is the ability of insects to develop resistance. Thus, the identification of insect genes involved in conferring resistance is of paramount importance. A colony of Spodoptera exigua (Lepidoptera: Noctuidae) was selected for 15 years in the laboratory for resistance to Xentari (TM), a B. thuringiensis-based insecticide, reaching a final resistance level of greater than 1,000-fold. Around 600 midgut ESTs were analyzed by DNA-macroarray in order to find differences in midgut gene expression …

0106 biological sciencesDrug Resistancelcsh:MedicineGene ExpressionInsectaminopeptidase n01 natural sciencesAminopeptidasesHemolysin ProteinsEndotoxinmanduca-sextaBacillus thuringiensisInsect ProteinBiotechnology/Applied Microbiologylcsh:Scienceheliothis-virescensmedia_common0303 health sciencesLarvaMultidisciplinarybiologymediated insect resistanceGenetics and Genomics/Gene ExpressionEcology/Population Ecologybacterial-infectionNoctuidaeInsect ProteinsResearch Articlemedia_common.quotation_subjectAminopeptidaseMolecular Sequence DataBacillus thuringiensisBacterial ProteinSpodopteraSpodopterastem-cell proliferationMicrobiology03 medical and health sciencesMicrobiology/Applied MicrobiologyBacterial ProteinsExiguaBotanyBacillus thuringiensiAnimalscrystal proteinsBIOS Plant Development SystemsAmino Acid Sequencekinase pathways030304 developmental biologyposterior midgutHeliothis virescensBacillus thuringiensis ToxinsAnimaltrichoplusia-nilcsh:RfungiMidgutHemolysin Proteinbiology.organism_classificationEndotoxinsGastrointestinal Tract010602 entomologyPlant Biology/Agricultural Biotechnologylcsh:QSequence Alignment
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Bryophyte Species Richness on Retention Aspens Recovers in Time but Community Structure Does Not

2014

Green-tree retention is a forest management method in which some living trees are left on a logged area. The aim is to offer ‘lifeboats’ to support species immediately after logging and to provide microhabitats during and after forest re-establishment. Several studies have shown immediate decline in bryophyte diversity after retention logging and thus questioned the effectiveness of this method, but longer term studies are lacking. Here we studied the epiphytic bryophytes on European aspen (Populus tremula L.) retention trees along a 30-year chronosequence. We compared the bryophyte flora of 102 ‘retention aspens’ on 14 differently aged retention sites with 102 ‘conservation aspens’ on 14 d…

0106 biological sciencesEcological Political Economy010504 meteorology & atmospheric sciencesDIVERSITYBiodiversitylcsh:MedicinePlant ScienceBryology01 natural scienceslehtisammaletMICROCLIMATIC GRADIENTSTreesbryophyte diversitysammaletAbundance (ecology)TREE RETENTIONlcsh:Science1183 Plant biology microbiology virologyConservation Scienceforest reestablishmentMultidisciplinaryEcologyEcologyLoggingmetsänkäsittelyForestryAgricultureBiodiversityFINLANDta4112metsätHabitatCommunity EcologyGROWTHResearch ArticleConservation of Natural ResourcesEPIPHYTIC BRYOPHYTESChronosequenceeducationCONSERVATIONForest managementBryophytaBiology010603 evolutionary biologyBOREAL FORESTelvytysPlant-Environment InteractionsEDGES0105 earth and related environmental sciencesPlant Ecologylcsh:REcology and Environmental SciencesBiology and Life SciencesBayes Theorem15. Life on landhakkuualueetREPRODUCTIONta1181lcsh:QBryophyteSpecies richnessmetsänhoitogreen tree retentionAgroecologyPLOS ONE
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2018

Abstract Understanding the response of biodiversity to management, land use and climate change is a major challenge in farmland to halt the decline of biodiversity. Farmlands shelter a wide variety of taxa, which vary in their life cycle and habitat niches. Consequently, monitoring biodiversity from sessile annual plants to migratory birds requires dedicated protocols. In this article, we describe the protocols applied in a long-term research platform, the LTSER Zone Atelier “Plaine & Val de Sevre” (for a full description see Bretagnolle et al. (2018) [1] ). We present the data in the form of the description of monitoring protocols, which has evolved through time for arable weeds, grassland…

0106 biological sciencesEcological nichegeographyMultidisciplinarygeography.geographical_feature_categoryLand useEcologyBiodiversityClimate change15. Life on land010501 environmental sciences010603 evolutionary biology01 natural sciencesGrasslandHabitat13. Climate actionFlagship speciesArable land0105 earth and related environmental sciencesData in Brief
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Ecological insights from three decades of animal movement tracking across a changing Arctic

2020

Ecological “big data” Human activities are rapidly altering the natural world. Nowhere is this more evident, perhaps, than in the Arctic, yet this region remains one of the most remote and difficult to study. Researchers have increasingly relied on animal tracking data in these regions to understand individual species' responses, but if we want to understand larger-scale change, we need to integrate our understanding across species. Davidson et al. introduce an open-source data archive that currently hosts more than 15 million location data points across 96 species and use it to show distinct climate change responses across species. Such ecological “big data” can lead to a wider understandi…

0106 biological sciencesEcology (disciplines)Acclimatization[SDV]Life Sciences [q-bio]PopulationPopulationEcological Parameter MonitoringClimate change010603 evolutionary biology01 natural sciences010605 ornithologyOnderz. Form. D.ddc:570Life ScienceAnimals14. Life underwaterNo themeeducationComputingMilieux_MISCELLANEOUSeducation.field_of_studyMultidisciplinaryEcologyPhenologyArchivesArctic RegionsData discoveryEcological Parameter MonitoringPlan_S-Compliant_NO15. Life on landSubarctic climateGeographyArctic13. Climate actioninternational[SDE]Environmental SciencesWIASDierecologieAnimal MigrationAnimal Ecology
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From individual dispersal to species ranges: perspectives for a changing world.

2006

Dispersal is often risky to the individual, yet the long-term survival of populations depends on having a sufficient number of individuals that move, find each other, and locate suitable breeding habitats. This tension has consequences that rarely meet our conservation or management goals. This is particularly true in changing environments, which makes the study of dispersal urgently topical in a world plagued with habitat loss, climate change, and species introductions. Despite the difficulty of tracking mobile individuals over potentially vast ranges, recent research has revealed a multitude of ways in which dispersal evolution can either constrain, or accelerate, species' responses to en…

0106 biological sciencesEcology (disciplines)MovementPopulation DynamicsAdaptation BiologicalClimate changeEnvironment010603 evolutionary biology01 natural sciencesHoming BehaviorAnimalsHumansSelection GeneticEcosystemMultidisciplinaryBehavior AnimalEcology010604 marine biology & hydrobiologyReproductionMultitude15. Life on landBiological EvolutionHabitat destructionGeographyHabitatGenesBiological dispersalAnimal MigrationCuesScience (New York, N.Y.)
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2016

AbstractOcean acidification is predicted to have detrimental effects on many marine organisms and ecological processes. Despite growing evidence for direct impacts on specific species, few studies have simultaneously considered the effects of ocean acidification on individuals (e.g. consequences for energy budgets and resource partitioning) and population level demographic processes. Here we show that ocean acidification increases energetic demands on gastropods resulting in altered energy allocation, i.e. reduced shell size but increased body mass. When scaled up to the population level, long-term exposure to ocean acidification altered population demography, with evidence of a reduction i…

0106 biological sciencesEcophysiologyeducation.field_of_studyMultidisciplinaryPopulation levelReproductive successEcology010604 marine biology & hydrobiologyPopulationOcean acidificationBiology010603 evolutionary biology01 natural sciencesGene flowGenetic drift13. Climate action14. Life underwaterAdaptationeducationScientific Reports
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