0000000000763794

AUTHOR

Leicht Katja

showing 2 related works from this author

Infection success of Echinoparyphium aconiatum (Trematoda) in its snail host under high temperature: role of host resistance

2014

Background Extreme weather events such as summer heat waves become more frequent owing to global climate change and are predicted to alter disease dynamics. This is because high temperatures can reduce host immune function. Predicting the impact of climate change on host-parasite interactions is, however, difficult as temperature may also affect parasite infective stages and other host characteristics determining the outcome of interaction. Methods Two experiments were conducted to investigate these phenomena in a Lymnaea stagnalis–Echinoparyphium aconiatum (Trematoda) interaction. In the first experiment, the effects of exposure of snails to experimental heat waves [maintenance at 25°C vs.…

heat waveEchinoparyphium aconiatum; Global climate change; Heat wave; Lymnaea; stagnalis; Resistance to infection; Host-parasite interaction; Experimental assessmentHot TemperatureExperimental assessmentResearchGlobal climate changeSnailsglobal climate changeresistance to infectionhost-parasite interactionpiippolimakotiloInfectious DiseasesHeat waveHost-Pathogen Interactionsechinoparyphium aconiatumResistance to infectionAnimalsParasitologyLymnaea stagnalisexperimental assessmentTrematodaHost-parasite interactionCercariaEchinoparyphium aconiatum
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Inbreeding does not alter the response to an experimental heat wave in a freshwater snail

2019

Global climate change affects natural populations of many species by increasing the average temperature and the frequency of extreme weather events (e.g. summer heat waves). The ability of organisms to cope with these environmental changes can, however, depend on their genetic properties. For instance, genetic load owing to inbreeding could alter organisms’ responses to climate change-mediated environmental changes but such effects are often overlooked. We investigated the effects of an experimental heat wave (25°C versus 15°C) on life history (reproduction, size) and constitutive immune defence traits (phenoloxidase-like and antibacterial activity of haemolymph) in relation to inbreeding b…

Hot TemperatureHeredityPhysiologyOvipositionSnailsMarine and Aquatic SciencesMathematical and Statistical TechniquesReproductive PhysiologyMedicine and Health SciencesBody SizeInbreedingImmune ResponseLymnaeaAntimicrobialsReproductionStatisticsQREukaryotaDrugsimmuunivastePhysical SciencesMedicinelämpötilaClutchesympäristönmuutoksetResearch ArticleClimate ChangeScienceImmunologyResearch and Analysis MethodsMicrobiologyMicrobial ControlGeneticsAnimalsLymnaea stagnalisStatistical MethodsPondsPharmacologyEvolutionary BiologyAnalysis of VariancePopulation BiologyfungivesikotilotImmunityOrganismsBiology and Life SciencesMolluscsBodies of WaterilmastonmuutoksetlisääntyminenInvertebratespiippolimakotiloGastropodsEarth SciencesGenetic PolymorphismsukusiitosAntibacterialsPopulation GeneticsMathematics
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