(PDF) Figure 2: Median Joining Network of mtDNA Haplotypes

Figure 2: Median Joining Network of mtDNA Haplotypes of Brown Trout Samples Collected From Hungarian Wild Streams (BA, JO, KE, AK, KO, BI), Hatcheries (LF1-2 and SZV) and One Wild Population in Serbia (SRB).

doi 10.7717/peerj.5152/fig-2

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Figure 3: Neighbor-Joining Tree Based on Da Distances of Microsatellite Allele Frequency of Brown Trout Samples Collected From Hungarian Wild Streams and Hatcheries (LF, SZV) and a Wild Serbian One (SRB).

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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 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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Table S3: Private Alleles of Analysed Microsatellite Loci in Two Hatcheries and Six Wild Populations in Hungary and in One Wild 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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Genetic Admixture Between Captive-Bred and Wild Individuals Affects Patterns of Dispersal in a Brown Trout (Salmo Trutta) Population

Conservation Genetics

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Figure 2: Localization of MOS9 in Wild-Type and CHS-deficient Roots.

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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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Figure 2: Metapodial Bone Histology of the Asiatic Wild Ass.

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Amanote Research

Figure 2: Median Joining Network of mtDNA Haplotypes of Brown Trout Samples Collected From Hungarian Wild Streams (BA, JO, KE, AK, KO, BI), Hatcheries (LF1-2 and SZV) and One Wild Population in Serbia (SRB).

doi 10.7717/peerj.5152/fig-2

Full Text

Abstract

Date

Authors

Publisher

Related search

Figure 3: Neighbor-Joining Tree Based on Da Distances of Microsatellite Allele Frequency of Brown Trout Samples Collected From Hungarian Wild Streams and Hatcheries (LF, SZV) and a Wild Serbian One (SRB).

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 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.

Table S3: Private Alleles of Analysed Microsatellite Loci in Two Hatcheries and Six Wild Populations in Hungary and in One Wild 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).

Genetic Admixture Between Captive-Bred and Wild Individuals Affects Patterns of Dispersal in a Brown Trout (Salmo Trutta) Population

Figure 2: Localization of MOS9 in Wild-Type and CHS-deficient Roots.

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

Figure 2: Metapodial Bone Histology of the Asiatic Wild Ass.