0000000001310267

AUTHOR

Neda Nasiri Moghadam

showing 5 related works from this author

Responses to Developmental Temperature Fluctuation in Life History Traits of Five Drosophila Species (Diptera: Drosophilidae) from Different Thermal …

2021

Simple Summary Most laboratory experiments on insects to date have been conducted using constant temperature settings. Even when the purpose of the study was to investigate effects of temperature, insects have mostly been kept at different but constant temperatures ignoring natural variation in temperature. Here we investigated effects of simple daily temperature fluctuation (22.5/27.5 °C and 20/30 °C) on some development characteristics in five species of fruit flies (Drosophila) originating from areas with different temperature profiles. We demonstrated how species of the same genus can show substantial differences when developing at fluctuating temperatures not always predictable by deve…

Developmental timeThermal physiologylämmönsietomahlakärpäsetScienceZoologyContext (language use)wing sizeacclimationAcclimatizationArticlefluctuating temperatureJensen’s inequalitywing aspect ratioLife history theoryDrosophilidaeWing sizeClimate changeTemperature varianceDrosophilasopeutuminenEcological nicheWingbiologythermal physiologyviabilityQMultiple traitsWing aspect ratioilmastonmuutoksetbiology.organism_classificationelinkiertotemperature varianceclimate changeViabilityInsect SciencesiivetlämpötilaAcclimationFluctuating temperaturedevelopmental timeympäristönmuutoksetInsects
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Effects of photoperiod on life-history and thermal stress resistance traits across populations of Drosophila subobscura

2019

Introduction Organisms use environmental cues to match their phenotype with the future availability of resources and environmental conditions. Changes in the magnitude and frequency of environmental cues such as photoperiod and temperature along latitudes can be used by organisms to predict seasonal changes. While the role of temperature variation on the induction of plastic and seasonal responses is well established, the importance of photoperiod for predicting seasonal changes is less explored. Materials and methods Here we studied changes in life‐history and thermal stress resistance traits in Drosophila subobscura in response to variation in photoperiod (6:18, 12:12 and 18:6 light:dark …

0106 biological sciencesendocrine systemRange (biology)lämmönsietomahlakärpäsetPopulationplastisuusevoluutioZoologyadaptationBiologyphotoperiod010603 evolutionary biology01 natural sciencesthermal toleranceEvolutionsbiologi03 medical and health sciencesevolutioneducationEcology Evolution Behavior and Systematics030304 developmental biologyNature and Landscape ConservationLocal adaptationOriginal Research2. Zero hungerphotoperiodismsopeutuminen0303 health scienceseducation.field_of_studyEvolutionary BiologyEcologyResistance (ecology)environmental cuesilmastonmuutoksetDrosophila subobscuraclimate change13. Climate actionplasticitypäivänpituusTraitta1181DrosophilaAdaptation
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Heat hardening capacity in Drosophila melanogaster is life stage-specific and juveniles show the highest plasticity

2019

Variations in stress resistance and adaptive plastic responses during ontogeny have rarely been addressed, despite the possibility that differences between life stages can affect species' range margins and thermal tolerance. Here, we assessed the thermal sensitivity and hardening capacity of Drosophila melanogaster across developmental stages from larval to the adult stage. We observed strong differences between life stages in heat resistance, with adults being most heat resistant followed by puparia , pupae and larvae . The impact of heat hardening (1 h at 35°C) on heat resistance changed during ontogeny, with the highest positive effect of hardening observed in puparia and pupae and the …

0106 biological scienceslife stage-specific plasticityHot TemperaturelämmönsietoOntogenyZoologyLife stage-specific plasticitythermal sensitivityBiologyPlasticity010603 evolutionary biology01 natural sciences03 medical and health sciencesThermal sensitivityJuvenileClimate changeHeat resistanceAnimalsAdult stageHeat shock030304 developmental biology0303 health sciencesLarvaEvolutionary Biologyhardeningheat resistancefungiPupabanaanikärpänenilmastonmuutoksetAgricultural and Biological Sciences (miscellaneous)Pupaclimate changeDrosophila melanogasterEctothermLarvaHardeningta1181General Agricultural and Biological SciencesHeat-Shock Response
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Quantitative genetics of temperature performance curves of Neurospora crassa

2020

AbstractEarth’s temperature is increasing due to anthropogenic CO2emissions; and organisms need either to adapt to higher temperatures, migrate into colder areas, or face extinction. Temperature affects nearly all aspects of an organism’s physiology via its influence on metabolic rate and protein structure, therefore genetic adaptation to increased temperature may be much harder to achieve compared to other abiotic stresses. There is still much to be learned about the evolutionary potential for adaptation to higher temperatures, therefore we studied the quantitative genetics of growth rates in different temperatures that make up the thermal performance curve of the fungal model systemNeuros…

0106 biological sciences0301 basic medicineClimate ChangeQuantitative Trait LocievoluutioAdaptation BiologicalkasvuevolvabilityG‐matrixphenotypic plasticity010603 evolutionary biology01 natural sciencesNeurospora crassa03 medical and health sciencesGenetic variationGeneticsSelection (genetic algorithm)Ecology Evolution Behavior and Systematics030304 developmental biologyAbiotic component0303 health sciencesExperimental evolutionExtinctionModels GeneticNeurospora crassabiologyepigeneettinen periytyminenCrassaTemperatureGenetic VariationQuantitative geneticsbiology.organism_classificationgeneettinen muunteluBiological EvolutionEvolvability030104 developmental biologyreaction norm13. Climate actionEnvironmental sciencefenotyyppilämpötilafungiAdaptationsienetGeneral Agricultural and Biological SciencesBiological systemEvolution
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Data from: Heat hardening capacity in Drosophila melanogaster is life stage specific and juveniles show the highest plasticity

2019

Variations in stress resistance and adaptive plastic responses during ontogeny have rarely been addressed, despite the possibility that differences between life stages can affect species' range margins and thermal tolerance. Here, we assessed the thermal sensitivity and hardening capacity of Drosophila melanogaster across developmental stages from larval to the adult stage. We observed strong differences between life stages in heat resistance, with adults being most heat resistant followed by puparia, pupae and larvae. The impact of heat hardening (1 h at 35°C) on heat resistance changed during ontogeny, with the highest positive effect of hardening observed in puparia and pupae and the low…

medicine and health carehardeningfungilife stage specific plasticityMedicineHeat resistanceLife sciences
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