Search results for "Polymorphus minutus"

showing 6 items of 6 documents

A manipulative parasite increasing an antipredator response decreases its vulnerability to a nonhost predator.

2009

8 pages; International audience; Trophically transmitted parasites have to deal with the antipredator adaptations of their intermediate hosts. Some of these parasites induce behavioural changes in their intermediate hosts that make them more vulnerable to predation by definitive hosts. However, the adaptiveness of behavioural manipulation also depends on the probability of being eaten by a nonhost predator. Parasites might therefore try to use specific antipredator responses of intermediate hosts to avoid this dead end. We tested this hypothesis using the acanthocephalan Polymorphus minutus and its intermediate amphipod host, Gammarus roeseli. In their natural habitat, uninfected G. roeseli…

0106 biological sciences[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyAmphipodarefuge usage010603 evolutionary biology01 natural sciencesPredationantipredator response03 medical and health sciencesnonhost avoidanceGammarusGammarus roeseli[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/Symbiosis[SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology14. Life underwaterPredatorEcology Evolution Behavior and SystematicsGammarus roeseli030304 developmental biology[ SDE.BE ] Environmental Sciences/Biodiversity and Ecology0303 health sciencesbiologyEcologyHost (biology)Aquatic animalbiology.organism_classificationolfactory cueHabitatPolymorphus minutusAnimal Science and Zoology[SDE.BE]Environmental Sciences/Biodiversity and Ecologybehavioural manipulation[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/Symbiosis
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Differential influence of two acanthocephalan parasites on the antipredator behaviour of their common intermediate host

2007

7 pages; International audience; Fish acanthocephalans can modify the antipredator behaviour of their intermediate hosts in response to cues from fish predators. However, it is still unclear whether such behavioural changes are adaptive, or are just the consequence of infection. We addressed this question through studying two acanthocephalans, Pomphorhynchus laevis and Polymorphus minutus, and their intermediate host, the amphipod Gammarus pulex. Pomphorhynchus laevis completes its cycle in a freshwater fish, whereas P. minutus exploits waterbirds as final hosts.We first assessed vulnerability of infected and uninfected gammarids to predation by bullheads, Cottus gobio. Pomphorhynchus laevi…

Pomphorynchus laevis0106 biological sciences[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyparasitesAcanthocephalan010603 evolutionary biology01 natural sciencesPredation03 medical and health sciencesantipredator behaviour[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/Symbiosis[SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology14. Life underwaterEcology Evolution Behavior and SystematicsCottus030304 developmental biology0303 health sciencesbiologyEcologyCottus gobioIntermediate hostbiology.organism_classificationPolymorphushost-manipulationGammarus pulexFreshwater fishPolymorphus minutusAnimal Science and ZoologyPomphorhynchus laevisAcanthocephala[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/SymbiosisolfactionAnimal Behaviour
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Infection with acanthocephalans increases the vulnerability of Gammarus pulex (Crustacea, Amphipoda) to non-host invertebrate predators.

2008

SUMMARYPhenotypic alterations induced by parasites in their intermediate hosts often result in enhanced trophic transmission to appropriate final hosts. However, such alterations may also increase the vulnerability of intermediate hosts to predation by non-host species. We studied the influence of both infection with 3 different acanthocephalan parasites (Pomphorhynchus laevis, P. tereticollis, and Polymorphus minutus) and the availability of refuges on the susceptibility of the amphipod Gammarus pulex to predation by 2 non-host predators in microcosms. Only infection with P. laevis increased the vulnerability of amphipods to predation by crayfish, Orconectes limosus. In contrast, in the ab…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyAmphipodaFood ChainNepa cinereaMESH : Host-Parasite InteractionsMESH : AstacoideaAstacoideaMESH : Predatory Behaviorhost manipulationPomphorhynchus laevisPredationAcanthocephalaHost-Parasite InteractionsSpecies Specificity[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisMESH : Species SpecificityAnimalsAmphipodaTrophic levelbiologyEcologyMESH : AcanthocephalaPomphorhynchus tereticollistrophic transmissionOrconectes limosusMESH : Amphipodabiology.organism_classificationCrayfishMESH : Food ChainGammarus pulexInfectious DiseasesPredatory BehaviorPolymorphus minutusAnimal Science and ZoologyParasitologyPomphorhynchus laevisMESH : AnimalsParasitology
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Host manipulation of a freshwater crustacean (Gammarus roeseli) by an acanthocephalan parasite (Polymorphus minutus) in a biological invasion context.

2006

8 pages; International audience; Several gammarid species serve as intermediate hosts for the acanthocephalan parasite Polymorphus minutus. This parasite influences gammarid behaviour in order to favour transmission to its ultimate host, generally a bird. We investigated this host manipulation in Gammarus roeseli, a gammarid species introduced in France 150 years ago which now coexists with several exotic species from different origins. In the field, vertical distribution of G. roeseli revealed a higher proportion of infected individuals close to the water's surface and the size distribution of infected gammarids revealed predation pressure on infected individuals. However, under laboratory…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyAmphipodaMESH : Host-Parasite InteractionsFresh WaterContext (language use)Introduced speciesMESH : Predatory BehaviorAcanthocephalaHost-Parasite InteractionsPredationMESH : Helminthiasis AnimalBehavioural manipulationMESH : CrustaceaCommunity dynamicGammarusGammarus roeseliCrustaceaMESH : Fresh Water[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimalsMESH : Population DensityHost-parasite interactionGammarus roeseliPopulation DensitybiologyEcologyMESH : AcanthocephalaDikerogammarus villosusbiology.organism_classification[ SDV.EE.ECO ] Life Sciences [q-bio]/Ecology environment/EcosystemsInfectious DiseasesPredatory BehaviorPolymorphus minutusParasitologyMESH : AnimalsHelminthiasis AnimalAcanthocephalaPredation riskExotic Species
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Manipulative parasites may not alter intermediate host distribution but still enhance their transmission: field evidence for increased vulnerability …

2013

SUMMARYBehavioural alterations induced by parasites in their intermediate hosts can spatially structure host populations, possibly resulting in enhanced trophic transmission to definitive hosts. However, such alterations may also increase intermediate host vulnerability to non-host predators. Parasite-induced behavioural alterations may thus vary between parasite species and depend on each parasite definitive host species. We studied the influence of infection with 2 acanthocephalan parasites (Echinorhynchus truttae and Polymorphus minutus) on the distribution of the amphipod Gammarus pulex in the field. Predator presence or absence and predator species, whether suitable definitive host or …

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyFood ChainZoologyPredationAcanthocephalaHost-Parasite InteractionsEscape Reaction[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisParasite hostingAnimalsAmphipodaEchinorhynchus truttaePredatorTrophic levelPopulation Density[ SDE.BE ] Environmental Sciences/Biodiversity and EcologybiologyBehavior AnimalHost (biology)EcologyIntermediate hostFishesintermediate host manipulationtrophic transmissionbiology.organism_classificationDietGammarus pulexInfectious DiseasesPulexLinear ModelsPolymorphus minutusAnimal Science and ZoologyParasitologyhost distributionHelminthiasis Animal
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Carotenoid-based colour of acanthocephalan cystacanths plays no role in host manipulation.

2009

Manipulation by parasites is a catchy concept that has been applied to a large range of phenotypic alterations brought about by parasites in their hosts. It has, for instance, been suggested that the carotenoid-based colour of acanthocephalan cystacanths is adaptive through increasing the conspicuousness of infected intermediate hosts and, hence, their vulnerability to appropriate final hosts such as fish predators. We revisited the evidence in favour of adaptive coloration of acanthocephalan parasites in relation to increased trophic transmission using the crustacean amphipodGammarus pulexand two species of acanthocephalans,Pomphorhynchus laevisandPolymorphus minutus. Both species show car…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyFood ChaincolourTroutColorGeneral Biochemistry Genetics and Molecular Biologyhost manipulationPredationAcanthocephalaHost-Parasite InteractionsPomphorhynchus laevisGammarus pulex[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimalsAmphipodaGeneral Environmental ScienceNegative phototaxisGeneral Immunology and MicrobiologybiologyEcologyIntermediate hostGeneral Medicinebiology.organism_classificationCarotenoidsTroutGammarus pulexPulexPredatory BehaviorFreshwater fishPolymorphus minutusPomphorhynchus laevispredationGeneral Agricultural and Biological SciencesResearch Article
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