Table 1.
Between fish size and number of parasites in pairwise Pearson correlations.
Table 2.
Significant markers for Benedenia disease resistance using Kruskal–Wallis analysis with A and B families.
Figure 1.
Simple interval mapping results for Benedenia disease resistance and body weight in all linkage groups with family A.
Squ(linkage group)F; marker distance in female map. This figure is described using R/qtl. Number of parasites; Pg <0.05 significant threshold is indicated as solid line. Body weight; Pg <0.05 significant is indicated as dashed line.
Figure 2.
Localization of significant markers for Benedenia disease resistance in linkage group Squ2F and Squ20F with family A.
Squ(linkage group)F; marker distance in female map. (A) Squ2F, (B) Squ20F. Map positions and LOD scores are based on a simple interval mapping QTL analysis using the software MapQTL 5. Marker absolute map distances are given in (cM). 95% confidence probability LOD support interval was indicated as Gray bold line. Horizontal lines across each plot indicate LOD siginificance threshold, Pg; genome-wide significance threshold.
Table 3.
Simple interval mapping results of the significant markers for Benedenia disease resistance in linkage group 2, 8, and 20 with two families.
Figure 3.
Significant markers for Benedenia disease resistance multiple-QTL model mapping in linkage group Squ2F and Squ20F with family A.
Squ(linkage group)F; marker distance in female map. (A) Squ2F, (B) Squ20F. This figure was described using by MapQTL 5.
Table 4.
Multiple QTL model mapping results of the significant markers for Benedenia disease resistance in linkage group 2 and 20 in family A.
Table 5.
Simple interval mapping results of the fish sizes in linkage group 7 and 17 in family A.