Search results for "PHENOTYPIC PLASTICITY"

showing 10 items of 93 documents

Empirical evidence for fast temperature-dependent body size evolution in rotifers

2017

Organisms tend to decrease in size with increasing temperature by phenotypic plasticity (the temperature-size rule; ectotherms) and/or genetically (Bergmann’s rule; all organisms). In this study, the evolutionary response of body size to temperature was examined in the cyclically parthenogenetic rotifer Brachionus plicatilis. Our aim was to investigate whether this species, already known to decrease in size with increasing temperature by phenotypic plasticity, presents a similar pattern at the genetic level. We exposed a multiclonal mixture of B. plicatilis to experimental evolution at low and high temperature and monitored body size weekly. Within a month, we observed a smaller size at hig…

0106 biological sciencesPhenotypic plasticityExperimental evolutionbiologyEcology010604 marine biology & hydrobiologyBergmann’s ruleZoologyEcologia animalRotiferParthenogenesisAquatic SciencePlasticityBrachionusbiology.organism_classificationRotífers010603 evolutionary biology01 natural sciencesBergmann's ruletemperature-size ruleEctothermBrachionus plicatilisexperimental evolutionbody size
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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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Measuring phenotypes in fluctuating environments

2020

Despite considerable theoretical interest in how the evolution of phenotypic plasticity should be shaped by environmental variability and stochasticity, how individuals actually respond to these aspects of the environment within their own lifetimes remains unclear. We propose that this understanding has been hampered by experimental approaches that expose organisms to fluctuating environments (typically treatments where fluctuations in the environment are cyclical vs. erratic) for a pre‐determined duration while ensuring that the mean environment over that the entire exposure period is invariable. This approach implicitly assumes that responses to the mean and variance/predictability in the…

0106 biological sciencesPhenotypic plasticitybiologyfungiConfoundingDaphnia magnabiology.organism_classification010603 evolutionary biology01 natural sciencesDaphniaHeat toleranceEnvironment variableStatisticsPredictabilityMean radiant temperatureEcology Evolution Behavior and Systematics010606 plant biology & botanyFunctional Ecology
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Immense plasticity of timing of breeding in a sedentary forest passerine, Poecile palustris

2015

Numerous bird species have advanced their breeding seasons in response to climate warming. These changes were mostly brought about by phenotypic plasticity, i.e. flexible reactions of individual birds, rather than by microevolutionary change. Knowing the limits of plasticity is thus of paramount importance in any attempt to predict possible reactions of birds to climate warming. However, the breeding performance of the same individuals in contrasting environmental conditions, necessary to answer this question, is rarely observed. Here, we provide data on the flexibility in timing of egg-laying of individual marsh tit Poecile palustris females breeding in an extremely late (2013) and early (…

0106 biological sciencesPhenotypic plasticitygeographyMarshgeography.geographical_feature_categorybiologyRange (biology)National parkEcologyGlobal warmingClimate changebiology.organism_classification010603 evolutionary biology01 natural sciencesPoecile palustrisPasserine010605 ornithologybiology.animalAnimal Science and ZoologyEcology Evolution Behavior and SystematicsJournal of Avian Biology
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Effects of ocean acidification on embryonic respiration and development of a temperate wrasse living along a natural CO2gradient

2016

We assessed rising CO2 effects on metabolism and development of a nesting wrasse by reciprocal transplant experiments in the field. Offspring brooded under different CO2 conditions exhibited similar responses. However, embryos from High-CO2 site were resilient to a wider range of pCO2 levels than those belonging to current-day conditions.

0106 biological sciencesPhysiological performance010504 meteorology & atmospheric sciencesPhysiologyOffspringEarly developmentManagement Monitoring Policy and LawBiology01 natural sciencesTemperate fishRespirationGlobal change0105 earth and related environmental sciencesNature and Landscape ConservationLarvaPhenotypic plasticitySymphodus ocellatusHatchingEcologySymphodus ocellatus010604 marine biology & hydrobiologyEcological ModelingOcean acidificationbiology.organism_classificationThemed Issue Article: Conservation Physiology of Marine FishesWrasseEarly development; Global change; Physiological performance; Symphodus ocellatus; Temperate fish; Nature and Landscape Conservation; Management Monitoring Policy and Law; Ecological Modeling; PhysiologySymphodus ocellatuResearch ArticleConservation Physiology
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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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Diploid Ruppia cirrhosa populations from a southern Mediterranean shallow system

2016

Abstract This paper focuses on the morphology and karyology of representative Ruppia populations from a southern Mediterranean shallow system. The cosmopolitan genus Ruppia L. generally inhabits shallow waters such as coastal lagoons and brackish habitats. Ruppia species are characterised by a simplified morphology and high intraspecific phenotypic plasticity. The chromosome number of Sicilian Ruppia populations is reported here for the first time. The analysed populations showed morphological and reproductive characters of Ruppia cirrhosa (Petagna) Grande but a diploid cytotype (2n = 20). A low fruit production was also observed, suggesting that vegetative reproduction is the main reproduc…

0106 biological sciencesRuppiaMediterranean climateMorphologyPhenotypic plasticitybiologyVegetative reproductionEcology010604 marine biology & hydrobiologySettore BIO/02 - Botanica SistematicaPlant ScienceAquatic Sciencebiology.organism_classification010603 evolutionary biology01 natural sciencesIntraspecific competitionHabitatShallow systemGenusRuppia cirrhosaChromosome countMediterranean regionSubmerged macrophyte
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Genome sequence of the pea aphid Acyrthosiphon pisum

2010

The genome of the pea aphid shows remarkable levels of gene duplication and equally remarkable gene absences that shed light on aspects of aphid biology, most especially its symbiosis with Buchnera.

0106 biological sciencesTANDEM REPEATSGenome InsectGene TransferRRES175Sequència genòmicaFaculty of Science\Computer ScienceCPG METHYLATION01 natural sciencesGenomeMedical and Health SciencesInternational Aphid Genomics ConsortiumBiologiska vetenskaperBiology (General)GENE-EXPRESSION2. Zero hungerGenetics0303 health sciencesAphidGenomeAfídidsGeneral NeuroscienceGENOME SEQUENCEfood and beveragesDROSOPHILA CIRCADIAN CLOCKBiological SciencesGenetics and Genomics/Microbial Evolution and GenomicsINSECTEGenètica microbianapuceronAPIS-MELLIFERAGeneral Agricultural and Biological SciencesInfectionsymbioseBiotechnologyResearch ArticleVIRUS VECTORING175_GeneticsSYMBIOTIC BACTERIAGene Transfer HorizontalQH301-705.5ACYRTHOSIPHON PISUMBiologyHOLOMETABOLOUS INSECTSHOST-PLANT010603 evolutionary biologyGENOME SEQUENCE;PEA APHID;ACYRTHOSIPHON PISUM;INSECT-PLANT;HOST-PLANT;VIRUS VECTORING;PHENOTYPIC PLASTICITY;HOLOMETABOLOUS INSECTS;INSECTE;RAVAGEUR DES CULTURES; SOCIAL INSECTGeneral Biochemistry Genetics and Molecular BiologyHorizontal03 medical and health sciencesBuchneraPHENOTYPIC PLASTICITYINSECT-PLANTGeneticsGene familyLife ScienceAnimalsSymbiosisGene030304 developmental biologyWhole genome sequencingGeneral Immunology and MicrobiologyAnnotation; Aphid; Genome sequenceAgricultural and Veterinary Sciences175_EntomologyGenètica animalBacteriocytegénomegèneHuman GenomePEA APHIDBiology and Life Sciences15. Life on landbiochemical phenomena metabolism and nutritionbiology.organism_classificationREPETITIVE ELEMENTSDNA-SEQUENCESAcyrthosiphon pisumGenome SequenceGenetics and Genomics/Genome ProjectsRAVAGEUR DES CULTURESAphidsPHEROMONE-BINDINGBuchneraInsectDevelopmental Biology[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/Symbiosis
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The antagonistic effect of UV radiation on warming or nitrate enrichment depends on ecotypes of freshwater macroalgae (Charophytes).

2019

Increases in ultraviolet radiation (UVR), a negative global change factor, affect aquatic primary producers. This effect is expected to be modulated by other global change factors, and to be different for populations adapted to different environments. A common garden experimental approach using freshwater green macroalgae, the cosmopolitan charophyte species Chara hispida and C. vulgaris, allowed us to test whether the beneficial increases in water temperature (T) and nitrate concentration (N) mitigate negative UVR effects. Also, whether these interactions would be not only species-specific but also according to the origin of the population; therefore, two populations of each species were u…

0106 biological sciencesUltraviolet RaysCharophyceaePopulationPlant ScienceAquatic ScienceBiology010603 evolutionary biology01 natural sciencesAcclimatizationchemistry.chemical_compoundNutrientNitratePhotosynthesiseducationLocal adaptationEcotypePhenotypic plasticityeducation.field_of_studyintegumentary systemPrimary producersEcotypeEcology010604 marine biology & hydrobiologyfungiSeaweedchemistryJournal of phycology
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Phenotypic plasticity in growth and fecundity induced by strong population fluctuations affects reproductive traits of female fish

2016

Fish are known for their high phenotypic plasticity in life-history traits in relation to environmental variability, and this is particularly pronounced among salmonids in the Northern Hemisphere. Resource limitation leads to trade-offs in phenotypic plasticity between life-history traits related to the reproduction, growth, and survival of individual fish, which have consequences for the age and size distributions of populations, as well as their dynamics and productivity. We studied the effect of plasticity in growth and fecundity of vendace females on their reproductive traits using a series of long-term incubation experiments. The wild parental fish originated from four separate populat…

0106 biological sciencesmaternal effectOffspringPopulationage of maturationstock fluctuationsBiology010603 evolutionary biology01 natural sciencesLife history theorylarval developmentAge of maturationeducationEcology Evolution Behavior and SystematicsNature and Landscape ConservationLocal adaptationOriginal ResearchLarvaPhenotypic plasticityeducation.field_of_studyEcologyEcology010604 marine biology & hydrobiologycoregonidsMaternal effectFecundityCoregonidsembryonic developmentfisheriesta1181
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