Search results for " Predatory"

showing 6 items of 6 documents

John Bates Clark on trusts: New light from the Columbia archives

2005

Public concern over the so called “trust problem” in the United States between the end of the nineteenth century and 1914, the year of the passage of the Clayton and Federal Trade Commission (FTC) Acts, was reflected in the considerable contemporary literature on the subject. Not surprisingly, professional economists actively participated in this debate. Their thinking directly and indirectly influenced the legislation of 1914 in a way that cannot be said of the Sherman Act of 1890 (Mayhew 1998). A survey of the most important of these professional writings shows that, among the several voices animating the discussion, John Bates Clark's was perhaps the most influential. In this connection,…

Policy makingjel:B31General Arts and HumanitiesAntitrust Predatory pricing PredationSubject (philosophy)Public concernBATESjel:B13LegislationCommissionNewspaperHistory and Philosophy of ScienceLawEconomicsGeneral Economics Econometrics and FinanceExposition (narrative)
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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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Pliocene colonization of the Mediterranean by Great White Shark inferred from fossil records, historical jaws, phylogeographic and divergence time an…

2020

Aim: Determine the evolutionary origin of the heretofore poorly characterized contemporary Great White Shark (GWS; Carcharodon carcharias) of the Mediterranean Sea, using phylogenetic and dispersal vicariance analyses to trace back its global palaeo-migration pattern. Location: Mediterranean Sea. Taxon: Carcharodon carcharias. Methods: We have built the largest mitochondrial DNA control region (CR) sequence dataset for the Mediterranean GWS from referenced historical jaws spanning the 19th and 20th centuries. Mediterranean and global GWS CR sequences were analysed for genetic diversity, phylogenetic relationships and divergence time. A Bayes factor approach was used to assess two scenarios …

LARGE PREDATORY SHARKSATLANTICMediterranean climateGreat White Shark Mediterranean historical DNA divergence time phylogeography Carcharodon carchariasMIGRATIONEnvironmental Sciences & Ecologydivergence timeMediterraneanphylogeographyLAMNIDAECarcharodon carcharias; divergence time; Great White Shark; historical DNA; Mediterranean; phylogeographyDivergencePaleontologyDISPERSALbiology.animalGreat White SharkCARCHARODON-CARCHARIASColonizationEcology Evolution Behavior and SystematicsScience & TechnologyCarcharodon carchariasEcologybiologyGeography PhysicalPhylogeographyGreat white sharkEXTINCTIONGeographyPhysical GeographyPhysical SciencesCLOSUREPATTERNSGENETIC DIVERSITYLife Sciences & Biomedicinehistorical DNAJournal of Biogeography
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Increased susceptibility to predation and altered anti-predator behaviour in an acanthocephalan-infected amphipod.

2007

7 pages; International audience; According to the 'parasitic manipulation hypothesis', phenotypic changes induced by parasites in their intermediate hosts are effective means of increasing trophic transmission to final hosts. One obvious prediction, although seldom tested, is that increased vulnerability of infected prey to an appropriate predator should be achieved by the parasite altering the anti-predator behaviour of its intermediate host. In this study, we tested this prediction using the fish acanthocephalan Pomphorhynchus tereticollis and the freshwater amphipod Gammarus pulex. Firstly, we estimated the relative vulnerability of infected and uninfected gammarids to predation by the b…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyAmphipodaFood ChainMESH : Host-Parasite InteractionsPomphorhynchusChemical ecologyBiologyMESH : Predatory BehaviorPredationAcanthocephalaHost-Parasite InteractionsGammarusMESH : Fishes[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimalsAmphipodaPredatorTrophic levelEcologyMESH : AcanthocephalaIntermediate hostFishesHost manipulationbiology.organism_classificationMESH : AmphipodaMESH : Food ChainGammarus pulexInfectious DiseasesPulexPredatory BehaviorComplex life-cycleParasitologyMESH : AnimalsGammarusInternational journal for parasitology
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Modification of hosts' behavior by a parasite: field evidence for adaptive manipulation.

2007

9 pages; International audience; Parasites relying on trophic transmission to complete their life cycles often induce modifications of their host's behavior in ways that may increase their susceptibility to predation by final hosts. These modifications have often been interpreted as parasite adaptations, but very few studies have demonstrated that host manipulation has fitness benefits for the parasite. The aim of the present study was to address the adaptive significance of parasite manipulation by coupling observations of behavioral manipulation to estimates of trophic transmission to the definitive host in the natural environment. We show that the acanthocephalan parasite Pomphorhynchus …

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyFood ChainPopulation DynamicsMESH : Host-Parasite Interactionscomplex life cyclesMESH : Predatory BehaviorPredationAcanthocephalaHost-Parasite InteractionsPomphorhynchus laevisMESH : Parasite Egg Countbehavioral modificationsGammarus roeseliMESH : EcosystemParasite Egg Count[SDV.BID.EVO] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE][ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/SymbiosisAnimalsadaptive manipulationAmphipodaMESH : Population DynamicsParasite Egg CountEcology Evolution Behavior and SystematicsEcosystemMESH : Adaptation PhysiologicalLife Cycle StagesbiologyHost (biology)EcologyMESH : AcanthocephalaIntermediate host[SDV.EE.IEO] Life Sciences [q-bio]/Ecology environment/Symbiosistrophic transmissionMESH : Life Cycle Stagesbiology.organism_classificationMESH : AmphipodaAdaptation PhysiologicalMESH : Food ChainGammarus pulexPulex[ SDV.BID.EVO ] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]Predatory BehaviorPomphorhynchus laevisMESH : Animals[SDV.MP.PAR] Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology
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