0000000000809569

AUTHOR

Jakob C. Mueller

showing 3 related works from this author

Genetic population structure of two cryptic Gammarus fossarum types across a contact zone

1998

Previous studies have revealed inconsistent results about the taxonomic status of European Gammarus fossarum forms. The variability in morphology and hybridization ability has not shown clear geographic patterns, whereas on a genetical basis two Central European G. fossarum forms have been proposed. In the present study the genetic structure of G. fossarum populations was investigated across a natural contact zone. For the first time direct comparisons of allotopic versus syntopic populations were feasible. 24 Populations of G. fossarum plus 4 populations of G. pulex (as outgroup) were sampled along 2 transects across the contact zone. The genotypes of about 60 individuals per population we…

education.field_of_studybiologyEcologyPopulationIntrogressionZoologyInterspecific competitionbiology.organism_classificationPulexGenetic variationGenetic structureAlleleeducationEcology Evolution Behavior and SystematicsIsolation by distanceJournal of Evolutionary Biology
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A STUDY OF POPULATION GENETICS IN THE EUROPEAN LOBSTER, HOMARUS GAMMARUS (DECAPODA, NEPHROPIDAE)

2001

By means of an RAPD analysis, the degree of genetic variation in the European lobster, Homarus gammarus, was assessed. We focused our attention on the Helgoland population, which is isolated by its geographical location. By comparison with seven other European lobster populations we demonstrated that the Helgoland lobster is genetically widely separated from other European lobster stocks. However, all populations investigated showed high values of genetic distance, indicating that genetic exchange among European populations of Homarus gammarus may be restricted. The European lobster populations appeared to be isolated by distance since the pattern of genetic relationships reflects their geo…

biologyHomarus gammarusDecapodaEcologyPopulation geneticsAnimal Science and ZoologyAquatic Sciencebiology.organism_classificationNephropidaeCrustaceana
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Genetics on Invasive Species

2002

Genetic markers are especially appropriate to reveal historical processes, as for example regarding biological invasions. Phylogenetic and population genetic methods enable to identify the taxa involved in an invasion (native and non-native species) and often lead to the perception of multiple or cryptic invasions. Phylogeographic and multi-locus approaches have been developed to assign individual invaders to potential source populations. The results may have implications for management measures. However, little is known about the genetic architecture of newly colonised populations. We introduce here genetic models for colonisations in linear habitats like rivers or coastlines. The expectat…

PhylogeographyGenetic diversityeducation.field_of_studyPhylogenetic treeEvolutionary biologyGenetic markerGenetic modelPopulationDikerogammarus villosusBiologybiology.organism_classificationeducationGenetic architecture
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