Search results for "history."

showing 10 items of 17659 documents

Castniidae of the Museum of Natural History of the University of Wrocław: new findings from Friedrich Wilhelm Niepelt's collection with comments on K…

2021

Further results of our research into the Giant Butterfly-Moths (Castniidae) of the Museum of Natural History (University of Wrocław) are presented. Castniids of the Niepelt collection had previously been reviewed. However, while curating other sections of the Lepidoptera collection, we discovered 18 misplaced specimens belonging to nine taxa of Castniidae, several of them bearing typical labels by Niepelt. Among them, two are of particular interest, insofar as they are associated with the world-class botanists August Weberbauer (1871–1948) and Karl Adolf Georg Lauterbach (1864–1937).

0106 biological sciencesNeotropicsInsectaArthropodaQH301-705.5media_common.quotation_subject010607 zoologyArt historyCastniidae010603 evolutionary biology01 natural sciencesSesioideaAnimaliaBiology (General)Ecology Evolution Behavior and Systematicsmedia_commonbiodiversitybiologyCastniidaeArtSouth Americabiology.organism_classificationGiant Butterfly-MothsNatural historyLepidopteramuseum collecnatural historyInsect ScienceAnimal Science and Zoologymuseum collections
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New taxa of Orthoptera (Insecta Tettigoniidae Phaneropterinae) from Madagascar.

2017

The author reports the results of a study on Orthoptera collected in Madagascar and preserved in two European Natural History museums. He describes Symmetroraggea depravata n. sp., Parapyrrhicia longipodex n. sp., Madagascarantia bartolozzii n. gen. n. sp., Mimoscudderia spinicercata n. sp. In addition, he lists new records or unknown taxonomical characters of Xenodus nobilis Carl, 1914 and Parapyrrhicia virilis Carl, 1914. 

0106 biological sciencesParapyrrhiciaMaleInsectaArthropodaOrthopteraTettigoniidae010607 zoologyZoology010603 evolutionary biology01 natural sciencesTettigoniidaeMadagascarAnimaliaAnimalsPhaneropteridaeEcology Evolution Behavior and SystematicsTaxonomybiologyEcologyBiodiversitybiology.organism_classificationNatural historyColeopterataxonomy new genus new species tropical AfricaTaxonSettore AGR/11 - Entomologia Generale E ApplicataOrthopteraAnimal Science and ZoologyTaxonomy (biology)CarabidaePhaneropterinaeZootaxa
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2019

Trade-offs have been shown to play an important role in the divergence of mating strategies and sexual ornamentation, but their importance in explaining warning signal diversity has received less attention. In aposematic organisms, allocation costs of producing the conspicuous warning signal pigmentation under nutritional stress could potentially trade-off with life-history traits and maintain variation in warning coloration. We studied this with an aposematic herbivore Arctia plantaginis (Arctiidae), whose larvae and adults show extensive variation in aposematic coloration. In larvae, less melanic coloration (i.e. larger orange patterns) produces a more efficient warning signal against pre…

0106 biological sciencesPhenotypic plasticityLarvaHerbivoreLow protein010604 marine biology & hydrobiologyMelanismZoologyAposematismBiology010603 evolutionary biology01 natural sciencesLife history theoryAnimal Science and ZoologyGene–environment interactionEcology Evolution Behavior and SystematicsJournal of Animal Ecology
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Immune response affects ant trophallactic behaviour.

2008

5 pages; International audience; Sociality is associated with many benefits that have favoured its evolution in social insects. However, sociability also presents disadvantages like crowding of large numbers of individuals, which may favour the spread of infections within colonies. Adaptations allowing social insects to prevent and/or control pathogen infections range from behavioural responses to physiological ones including their immune systems. In a state of infection, social interactions with nestmates should be altered in a way which might prevent its spreading. We simulated a microbial infection in workers of the ant Camponotus fellah by the administration of peptidoglycan (PGN) and t…

0106 biological sciencesPhysiology[ SDV.BA.ZI ] Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyAdaptation BiologicalPeptidoglycanBiologySocial interactions010603 evolutionary biology01 natural sciencesAntibacterial peptidesLife history theory03 medical and health sciencesImmune system[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimals[ SDV.IMM ] Life Sciences [q-bio]/ImmunologyIsraelImmune responseSocial BehaviorFormicidaeSociality030304 developmental biology0303 health sciencesAnalysis of Variance[ SDE.BE ] Environmental Sciences/Biodiversity and EcologyAntsFeeding BehaviorANTAntibacterial peptide[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyInsect ScienceImmunology[SDV.IMM]Life Sciences [q-bio]/ImmunologyEncapsulation[SDE.BE]Environmental Sciences/Biodiversity and EcologyTrophallaxisTrophallaxisCamponotus fellah[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/Symbiosis
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Einstein and Twentieth-Century Politics: ‘A Salutary Moral Influence’

2017

0106 biological sciencesPoliticssymbols.namesakeHistory and Philosophy of Science040103 agronomy & agriculturesymbols0401 agriculture forestry and fisheries04 agricultural and veterinary sciencesSociologyEinsteinReligious studies01 natural sciences010606 plant biology & botanyAnnals of Science
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Do phase-dependent life history traits in cyclic voles persist in a common environment?

2019

Phenotype and life history traits of an individual are a product of environmental conditions and the genome. Environment can be current or past, which complicates the distinction between environmental and heritable effects on the phenotype in wild animals. We studied genome–environment interactions on phenotype and life history traits by transplanting bank voles (Myodes glareolus) from northern and southern populations, originating from low or high population cycle phases, to common garden conditions in large outdoor enclosures. The first experiment focused on the persistence of body traits in autumn-captured overwintering populations. The second experiment focused on population growth and …

0106 biological sciencesPopulation DynamicsPhenotypic plasticitymedicine.disease_cause01 natural sciencesphenotypic plasticityBANK VOLESMaternal effectChitty effectSeasonal breederLife History TraitsOverwintering2. Zero hungereducation.field_of_studyArvicolinaeBank voleReproductionMaternal effectBody sizePOPULATION-CYCLE1181 Ecology evolutionary biologyGROWTHSeasonsmaternal effectympäristötekijätmetsämyyräPopulationZoologyBiologyWINTER FOOD010603 evolutionary biologyLife history theoryHereditymedicineJuvenileAnimalsbank volechitty effecteducationRODENT DYNAMICSEcology Evolution Behavior and SystematicsperinnöllisyysPhenotypic plasticityMICROTUS-AGRESTIS010604 marine biology & hydrobiologyEVOLUTIONPopulation Ecology–Original ResearchDENSITYCommon gardenfenotyyppicommon gardenbody size
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Testing hypotheses in evolutionary ecology with imperfect detection: capture-recapture structural equation modeling.

2012

8 pages; International audience; Studying evolutionary mechanisms in natural populations often requires testing multifactorial scenarios of causality involving direct and indirect relationships among individual and environmental variables. It is also essential to account for the imperfect detection of individuals to provide unbiased demographic parameter estimates. To cope with these issues, we developed a new approach combining structural equation models with capture-recapture models (CR-SEM) that allows the investigation of competing hypotheses about individual and environmental variability observed in demographic parameters. We employ Markov chain Monte Carlo sampling in a Bayesian frame…

0106 biological sciencesPopulation Dynamicsselection gradient analysesBiologystate-space models010603 evolutionary biology01 natural sciencesModels BiologicalStructural equation modelingMark and recapture010104 statistics & probabilitystructural equation modelslife history tradeoffsAnimalsPasseriformes0101 mathematicsSet (psychology)Ecology Evolution Behavior and SystematicsSelection (genetic algorithm)Ecosystemcapture-recapture models[ SDE.BE ] Environmental Sciences/Biodiversity and EcologyEcologyModel selectionCyanistesindividual heterogeneitybiology.organism_classificationCausalityBiological Evolutionevolutionary ecologyEvolutionary ecology[SDE.BE]Environmental Sciences/Biodiversity and EcologyEcology
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Next-generation biological control

2020

Biological control is widely successful at controlling pests, but effective biocontrol agents are now more difficult to import from countries of origin due to more restrictive international trade laws (the Nagoya Protocol). Coupled with increasing demand, the efficacy of existing and new biocontrol agents needs to be improved with genetic and genomic approaches. Although they have been underutilised in the past, application of genetic and genomic techniques is becoming more feasible from both technological and economic perspectives. We review current methods and provide a framework for using them. First, it is necessary to identify which biocontrol trait to select and in what direction. Nex…

0106 biological sciencesProteomicsH10 Pests of plantsInternationalityComputer science[SDV]Life Sciences [q-bio]Laboratory of VirologySequence assemblybiological controlmicrobiome01 natural sciencesGenome editinggeneticsNagoya ProtocolLaboratory of EntomologyCYTOPLASMIC INCOMPATIBILITY2. Zero hunger0303 health sciencesQUANTITATIVE TRAIT LOCICommercefood and beveragesCONTROL AGENTSPE&RCBiosystematiekNASONIA-VITRIPENNISGUT CONTENT-ANALYSIS[SDE]Environmental SciencesTraitinsect breedingAXYRIDIS COLEOPTERA-COCCINELLIDAEOriginal ArticleLaboratory of GeneticsLIFE-HISTORY TRAITSGeneral Agricultural and Biological SciencesGenomicsContext (language use)Computational biology[SDV.BID]Life Sciences [q-bio]/Biodiversityartificial selectionQuantitative trait locusAnimal Breeding and GenomicsLaboratorium voor Erfelijkheidsleer010603 evolutionary biologyGeneral Biochemistry Genetics and Molecular BiologyLaboratorium voor Virologiemodelling03 medical and health sciencesgenomics[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyFokkerij en GenomicaPARASITOID WASPSelection (genetic algorithm)modelling.030304 developmental biologySEX DETERMINATIONOriginal ArticlesLaboratorium voor EntomologieWIASgenome assemblyBiosystematicsEPSartificial selection biological control genetics genome assembly genomics insect breeding microbiome modellingBiological Reviews
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Sclerochronology - a highly versatile tool for mariculture and reconstruction of life history traits of the queen conch, Strombus gigas (Gastropoda)

2009

International audience; The queen conch, Strombus gigas, is an important fisheries resource in the Western Tropical Atlantic. In order to maintain harvesting success, improve fisheries management and contribute to mariculture pursuits, a detailed understanding of the life history traits of this species is required. Traditionally, this has been achieved by tedious and time-consuming long-term field observations. This study presents a highly versatile and rapid technique to estimate the timing and rate of shell growth based on sclerochronology. The Belizean S. gigas specimens (N = 2) from the offshore atoll, Glovers Reef, reached their final shell size (maximum shell height: 22.7 and 23.5 cm,…

0106 biological sciencesQueen conch010504 meteorology & atmospheric sciencesAtollAquatic Science01 natural sciencesConchSclerochronologyGastropoda14. Life underwaterMolluscaReef0105 earth and related environmental sciencesStable isotopesgeographygeography.geographical_feature_categorybiologyWhorl (mollusc)010604 marine biology & hydrobiologyShellfisheries managementGrowth patternsLife history traitsbiology.organism_classificationOceanographyStrombus[SDE]Environmental Sciences
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Grass leaves as potential hominin dietary resources

2018

Discussions about early hominin diets have generally excluded grass leaves as a staple food resource, despite their ubiquity in most early hominin habitats. In particular, stable carbon isotope studies have shown a prevalent C4 component in the diets of most taxa, and grass leaves are the single most abundant C4 resource in African savannas. Grass leaves are typically portrayed as having little nutritional value (e.g., low in protein and high in fiber) for hominins lacking specialized digestive systems. It has also been argued that they present mechanical challenges (i.e., high toughness) for hominins with bunodont dentition. Here, we compare the nutritional and mechanical properties of gra…

0106 biological sciencesResource (biology)BiologyPoaceae010603 evolutionary biology01 natural sciencesSouth Africaotorhinolaryngologic diseasesAnimals0601 history and archaeologyEcology Evolution Behavior and Systematics2. Zero hunger060101 anthropologyEcologyfood and beveragesHominidae06 humanities and the arts15. Life on landBiological EvolutionGrasslandKenyaBiomechanical PhenomenaDietPlant LeavesNutrition AssessmentTaxonHabitatAnthropologyDietary fiber
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