<p>Circles are sized proportionally to the number of individuals that possess each haplotype. The pie chart within each haplotype represents the relative frequency of individuals from each color-coded region. A scale is provided to determine the number of mutations separating each haplotype.</p
<p>Each haplotype is shown as an oval, the size of which indicates the number of individuals with th...
<p>Each circle represents a haplotype and the diameter scales to haplotype frequency. Mutational ste...
<p>Circles are proportional to the total number of individuals showing each ...
<p>The haplotype network is a minimum spanning tree based on the differences in number of repeats. T...
<p>Each circle represents a unique haplotype and the size of each circle indicates how many specimen...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype (H...
The size of the circles indicates the frequency of the haplotype and the length of the lines connect...
<p>Each haplotype is represented by a circle, the relative size of which roughly corresponds to the ...
(a) CYTB; (b) ND4; (c) PCB; (d) TOPO; (e) URO; (f) ZNFP. Ticks on branches indicate mutational steps...
<p>Circles represent haplotypes and connecting lines represent patterns of relationship. Hash marks ...
<p>The size of a circle is proportional to the frequency of a haplotype in the total sample. The pie...
<p>The haplotypes are illustrated as colored circles and the sizes of the circles are proportional t...
<p>The length of line between the haplotypes does not depend on the number of mutations. Each circle...
<p>Circles are proportional to the frequency of each haplotype. The colour of each sector refers to ...
<p>(A) Haplotype network based on statistical parsimony. Circle size corresponds to the number of ge...
<p>Each haplotype is shown as an oval, the size of which indicates the number of individuals with th...
<p>Each circle represents a haplotype and the diameter scales to haplotype frequency. Mutational ste...
<p>Circles are proportional to the total number of individuals showing each ...
<p>The haplotype network is a minimum spanning tree based on the differences in number of repeats. T...
<p>Each circle represents a unique haplotype and the size of each circle indicates how many specimen...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype (H...
The size of the circles indicates the frequency of the haplotype and the length of the lines connect...
<p>Each haplotype is represented by a circle, the relative size of which roughly corresponds to the ...
(a) CYTB; (b) ND4; (c) PCB; (d) TOPO; (e) URO; (f) ZNFP. Ticks on branches indicate mutational steps...
<p>Circles represent haplotypes and connecting lines represent patterns of relationship. Hash marks ...
<p>The size of a circle is proportional to the frequency of a haplotype in the total sample. The pie...
<p>The haplotypes are illustrated as colored circles and the sizes of the circles are proportional t...
<p>The length of line between the haplotypes does not depend on the number of mutations. Each circle...
<p>Circles are proportional to the frequency of each haplotype. The colour of each sector refers to ...
<p>(A) Haplotype network based on statistical parsimony. Circle size corresponds to the number of ge...
<p>Each haplotype is shown as an oval, the size of which indicates the number of individuals with th...
<p>Each circle represents a haplotype and the diameter scales to haplotype frequency. Mutational ste...
<p>Circles are proportional to the total number of individuals showing each ...