(PDF) Table 3: Proportion of the Female Individuals (Nf)

Table 3: Proportion of the Female Individuals (Nf) and the Danubian Lineages in Cultured and Wild Brown Trout Populations in Hungary Based on sdY and PCR-RFLP Markers.

doi 10.7717/peerj.5152/table-3

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Table 5: Summary of the Population Genetic Analyses of Two Nuclear PCR-RFLP and Five Microsatellite (MS) Loci for Cultured and Wild Brown Trout Populations in Hungary.

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Table 4: The Number of the Identified CR mtDNA Haplotypes in Cultured and Wild Brown Trout Stocks in Hungary Based on 753 Bp of Control Region.

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PCR-RFLP Markers Identify Three Lineages of the North American and European Populations ofPhytophthora Ramorum

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Figure 1: Location of the Sampling Area of Farmed and Wild Brown Trout Populations Within the Danubian Water Basin.

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Table 6: Pairwise FST Divergences Between the Analysed Brown Trout Populations Based on Microsatellite (Below Diagonal) and Nuclear PCR-RFLP Data (Above Diagonal) and Their Significance Level.

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Table 2: Applied Genetic Markers to Analyses of Brown Trout Populations in Hungarian Hatcheries and Wild Streams as Well as in One Serbian Population.

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Table 1: Investigated Farmed and Wild Populations of Brown Trout in Hungary; Nine of These Were Newly Analysed for This Study and LF1 From Horváth Et Al. (2014).

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Microsatellite Markers and Management of Brown Trout Salmo Trutta Fario Populations in Southwestern France

Genetics, Selection, Evolution

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Genetic Differentiation and Phylogenetic Relationships Among Greek Salmo Trutta L. (Brown Trout) Populations as Revealed by RFLP Analysis of PCR Amplified Mitochondrial DNA Segments

Heredity

Genetics

1996

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Amanote Research

Table 3: Proportion of the Female Individuals (Nf) and the Danubian Lineages in Cultured and Wild Brown Trout Populations in Hungary Based on sdY and PCR-RFLP Markers.

doi 10.7717/peerj.5152/table-3

Full Text

Abstract

Date

Authors

Publisher

Related search

Table 5: Summary of the Population Genetic Analyses of Two Nuclear PCR-RFLP and Five Microsatellite (MS) Loci for Cultured and Wild Brown Trout Populations in Hungary.

Table 4: The Number of the Identified CR mtDNA Haplotypes in Cultured and Wild Brown Trout Stocks in Hungary Based on 753 Bp of Control Region.

PCR-RFLP Markers Identify Three Lineages of the North American and European Populations ofPhytophthora Ramorum

Figure 1: Location of the Sampling Area of Farmed and Wild Brown Trout Populations Within the Danubian Water Basin.

Table 6: Pairwise FST Divergences Between the Analysed Brown Trout Populations Based on Microsatellite (Below Diagonal) and Nuclear PCR-RFLP Data (Above Diagonal) and Their Significance Level.

Table 2: Applied Genetic Markers to Analyses of Brown Trout Populations in Hungarian Hatcheries and Wild Streams as Well as in One Serbian Population.

Table 1: Investigated Farmed and Wild Populations of Brown Trout in Hungary; Nine of These Were Newly Analysed for This Study and LF1 From Horváth Et Al. (2014).

Microsatellite Markers and Management of Brown Trout Salmo Trutta Fario Populations in Southwestern France

Genetic Differentiation and Phylogenetic Relationships Among Greek Salmo Trutta L. (Brown Trout) Populations as Revealed by RFLP Analysis of PCR Amplified Mitochondrial DNA Segments