Kathrin A. Winkler scite author profile

Translocations of Baltic whitefish (Coregonus sp.) into Austrian Alpine lakes have created ‘artificial hybrid zones’, threatening the genetic integrity of native lineages. We evaluate the genetic structure of Coregonus in Austrian lakes and characterize hybridization and introgression between native and introduced lineages. Fifteen populations (N= 747) were assessed for allelic variation at eight microsatellite loci and a reduced set (N= 253) for variation across two mtDNA genes (cyt b and NADH-3). Bayesian approaches were used to estimate individual admixture proportions (q-values) and classify genotypes as native, introduced or hybrids. q-value distributions varied among populations highlighting differential hybridization and introgression histories. Many lakes revealed a clear distinction between native and introduced genotypes despite hybridization, whereas some locations revealed hybrid swarms. Genetic structure among lakes was congruent with morphological divergence and novelty raising speculation of multiple taxa, including a population south of the Alps, outside the putative native range of Coregonus. Although statistically congruent with inferences based on nuclear markers, mitochondrial haplotype data was not diagnostic with respect to native and non-native lineages, supporting that the Alpine region was colonized post-glacially by an admixture of mtDNA lineages, which coalesce >1 Ma. Mechanisms promoting or eroding lineage isolation are discussed, as well as a high potential to conserve native Alpine lineages despite the extensive historical use of introduced Baltic stocks.

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Phylogenetic analysis of European Scutovertex mites (Acari, Oribatida, Scutoverticidae) reveals paraphyly and cryptic diversity: A molecular genetic and morphological approach

Schäffer

Pfingstl

Koblmüller

et al. 2010

Molecular Phylogenetics and Evolution

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The soil and moss dwelling oribatid mite family Scutoverticidae is considered to represent an assemblage of distantly related but morphologically similar genera. We used nucleotide sequences of one mitochondrial (COI) and two nuclear (28S rDNA, ef-1alpha) genes, and 79 morphological characters to elucidate the phylogenetic relationships among 11 nominal plus two undescribed European mite species of the family Scutoverticidae with a particular focus on the genus Scutovertex. Both molecular genetic and morphological data revealed a paraphyletic genus Scutovertex, with S. pictus probably representing a distinct genus, and Provertex kuehnelti was confirmed as member of the family Scutoverticidae. Molecular genetic data confirmed several recently described Scutovertex species and thus the high species diversity within this genus in Europe and suggest that S. sculptus represents a complex of several cryptic species exhibiting marked genetic, but hardly any morphological divergence.

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Eighteen new tetranucleotide microsatellite DNA markers for Coregonus lavaretus cloned from an alpine lake population

Winkler¹,

Weiss²

2008

Molecular Ecology Resources

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We developed 18 polymorphic microsatellite markers for Coregonus lavaretus from genomic libraries enriched for (GACA)(n) and (GATA)(n) repeat sequences. Emphasis was placed on developing highly polymorphic, perfect repeats. These loci were screened in 69 individuals from two alpine populations in Austria. Allelic variation was high with nine to 37 alleles per locus and expected heterozygosities ranging from 0.37 to 0.95. The high level of polymorphism revealed by these loci will be relevant for population studies in context to the evolutionary history of this species.

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Genotypic and phenotypic evaluation of Rutilus spp. from Skadar, Ohrid and Prespa Lakes supports revision of endemic as well as taxonomic status of several taxa

Milošević

Winkler

Marić

et al. 2011

Journal of Fish Biology

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One mtDNA gene (cytochrome b), one nuclear DNA fragment, five microsatellites and a suite of morphological characters were evaluated in samples of Rutilus spp. from Skadar, Ohrid and Prespa Lakes. Both genetic and phenotypic data supported two sympatric taxa in Lake Skadar, whereby Prespa and Ohrid Lakes revealed only a single taxon each. One of the taxa from Lake Skadar was similar to samples from Lake Prespa, whereas the second taxon was the most divergent in the data set. The estimated time to the most recent common ancestor of these two sympatric taxa in Lake Skadar was between 125 000 and 500 000 years. The data did not support existing taxonomic schemes for Rutilus in these lakes. This study poses the following working hypothesis: (1) Rutilus prespensis lives both in Lake Prespa and Lake Skadar and therefore is not endemic to Lake Prespa, (2) Rutilus ohridanus lives in Lake Ohrid only and therefore could be considered an endemic if its species status is retained and (3) a third recently described taxon (Rutilus albus) sympatric to R. prespensis lives in Lake Skadar.

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Composition of native and introduced mtDNA lineages in Coregonus sp. in two Austrian lakes: evidence for spatio-temporal segregation of larvae?

Pamminger-Lahnsteiner

Weiss

Winkler

et al. 2009

Hydrobiologia

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We hypothesized that there is spatiotemporal genetic (mtDNA) structure of native and introduced larval whitefish (Coregonus sp.) in two Austrian lakes (Traunsee and Hallstättersee). Larval whitefish were sampled from 12 sites in each lake and screened for variation in the mtDNA NADH-1 gene. Based on the sequencing of adult fish together with existing GenBank sequences, an RFLP protocol was developed to assign haplotypes from larval samples into one of two divergent lineages. All but one site (pelagic) in Traunsee contained both haplotypes, thus there was no support for spatial segregation of mtDNA groups in that lake. However, weekly sampling from December to May in Traunsee revealed a temporal pattern, with the native haplotypes dominating in December and January before the appearance of the introduced Baltic clade. In Hallstättersee, only three of the 12 sites sampled revealed haplotypes from the introduced clade and thus spatial segregation seems operative on that lake. Our results imply that differences in the spawning ecology of the two groups maintain sufficient reproductive isolation to be reflected in distinct larval occurrence in space and time highly consistent with genetic differences on the mtDNA level. If the two lineages were highly introgressed, we would expect to find little or no correspondence between spatio-temporal patterns in larval distribution and the differentiated mtDNA lineages.

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