Parentage assignment in hybrid abalones ( Haliotis rufescens × Haliotis discus hannai ) based on microsatellite DNA markers

Parentage analysis in aquaculture determines genealogical relationships between broodstock and progeny when the parents are unknown. Thus, parentage analysis is a useful tool to establish pedigree reports in molecular‐assisted selection programs. Here, we evaluated 10 heterologous microsatellite markers for parentage assignment in abalone hybrids produced from 43 abalone broodstocks of red abalone ( Haliotis rufescens ) and Japanese abalone ( H. discus hannai ). The allele frequencies, exclusion probabilities and broodstock contributions were calculated using CERVUS , PAPA and GERUD software. The polymorphic information content ( PIC ) values showed that most of the microsatellite loci were highly informative (>0.7) and more than 90% of parentage assignment was possible with a minimum of 5–6 microsatellite markers. Parentage assignment for hybrid and pure‐red progeny showed a better performance than pure‐Japanese progeny. This result could be due to the high level of allele loss in the parental genotypes. In addition, results indicated that only two sires contributed over 80% and 90% of red and hybrid progenies, respectively. This study gives a new molecular tool to support marker‐assisted selection in abalone hybrids produced in Chile.