An interval mapping procedure based on the random model approach was applie
d to investigate its appropriateness and robustness for QTL mapping in popu
lations with prevailing half-sib family structures. Under a random model, Q
TL location and variance components were estimated using maximum likelihood
techniques. The estimation of parameters was based on the sib-pair approac
h. The proportion of genes identical-by-descent (IBD) at the QTL was estima
ted from the IBD at two flanking marker loci. Estimates for QTL parameters
(location and variance components) and power were obtained using simulated
data, and varying the number of families, heritability of the trait, propor
tion of QTL variance, number of marker alleles and number of alleles at QTL
. The most important factors influencing the estimates of QTL parameters an
d power were heritability of the trait and the proportion of genetic varian
ce due to QTL. The number of QTL alleles neither influenced the estimates o
f QTL parameters nor the power of QTL detection. With a higher heritability
, confounding between QTL and the polygenic component was observed. Given a
sufficient number of families and informative polyallelic markers, the ran
dom model approach can detect a QTL that explains at least 15 % of the gene
tic variance with high power and provides accurate estimates of the QTL pos
ition. For fine QTL mapping and proper estimation of QTL variance, more sop
histicated methods are, however, required. (C) Inra/Elsevier, Paris.