<p>(A) Estimated LnP(D) and △<i>k</i> over five repeats of STRUCTURE analysis; (B) Two sub-populations inferred by structure analysis. Each of the 262 individuals is represented by a vertical line and different colors indicate different sub-populations. Asterisk in (A) indicates the point of the most significant change in the LnP(D) value.</p
<p>Individuals are shown as a vertical line representing the membership fractions for each of the K ...
Application of association analyses in plant breeding populations has the potential to revolutionize...
<p>(a, b) Population structure of 166 barley accessions based on genetic diversity detected by 469 D...
<p>a: Population structure as determined by Structure v2.2 analysis. Since Δk peaks at k = 2, the va...
<p>a: Genetic structure produced by Structure V2.3.2; b: Number of sub-populations estimated by ΔK a...
<p>Population structure of each subspecies of wheat according to the taxonomical classification, usi...
<p>Principal coordinate analysis of 262 wheat accessions based on 209 SSR markers reveals two sub-po...
<p>Each accession is depicted by a vertical line segmented into <i>K</i> coloured sections. The leng...
<p>The population structure of durum cultivars was grouped according to year of release.</p
<p><b>a</b>) Population structure of synthetic hexaploid wheats. The genotype of each line on the fi...
<p>(a) Principal coordinate analysis of European (red) and Asian (blue) accessions. (b) Bayesian clu...
<p>(A) Estimation of the number of subpopulations (SP) according to Evanno’s test [<a href="http://w...
The development of high-throughput genotyping, statistical and computing technologies has enabled Ge...
<p>(A) The most likely number of clusters (K) by LnP(D) analysis; (B) The most likely number of clus...
<p>SG 1, SG 2 and SG 3 are the three subgroups identified by STRUCTURE assigned with the maximum mem...
<p>Individuals are shown as a vertical line representing the membership fractions for each of the K ...
Application of association analyses in plant breeding populations has the potential to revolutionize...
<p>(a, b) Population structure of 166 barley accessions based on genetic diversity detected by 469 D...
<p>a: Population structure as determined by Structure v2.2 analysis. Since Δk peaks at k = 2, the va...
<p>a: Genetic structure produced by Structure V2.3.2; b: Number of sub-populations estimated by ΔK a...
<p>Population structure of each subspecies of wheat according to the taxonomical classification, usi...
<p>Principal coordinate analysis of 262 wheat accessions based on 209 SSR markers reveals two sub-po...
<p>Each accession is depicted by a vertical line segmented into <i>K</i> coloured sections. The leng...
<p>The population structure of durum cultivars was grouped according to year of release.</p
<p><b>a</b>) Population structure of synthetic hexaploid wheats. The genotype of each line on the fi...
<p>(a) Principal coordinate analysis of European (red) and Asian (blue) accessions. (b) Bayesian clu...
<p>(A) Estimation of the number of subpopulations (SP) according to Evanno’s test [<a href="http://w...
The development of high-throughput genotyping, statistical and computing technologies has enabled Ge...
<p>(A) The most likely number of clusters (K) by LnP(D) analysis; (B) The most likely number of clus...
<p>SG 1, SG 2 and SG 3 are the three subgroups identified by STRUCTURE assigned with the maximum mem...
<p>Individuals are shown as a vertical line representing the membership fractions for each of the K ...
Application of association analyses in plant breeding populations has the potential to revolutionize...
<p>(a, b) Population structure of 166 barley accessions based on genetic diversity detected by 469 D...