Abstract

Crassostrea nippnoa is a potential aquaculture species because of its unique flavor, delicious taste and edibility during the summer, while C. gigas is a major global aquaculture species due to the fast growth rate, high disease resistance and strong environmental adaptability. This study firstly described the reciprocal hybridization between the two oyster species, and four crosses were produced: C. gigas ♀ × C. gigas ♂ (GG), C. gigas ♀ × C. nippona ♂ (GN), C. nippona ♀ × C. gigas ♂ (NG) and C. nippona ♀ × C. nippona ♂ (NN). The embryonic development of reciprocal crosses was similar to that of the pure crosses. However, fertilization rates were obviously different between the reciprocal hybrids and parental species, where the fertilization rates of reciprocal hybrids were significantly lower than those of parental species. At larval stages, the survival rates of the hybrid cohorts were significantly lower than those of inbred cohorts, and the critical stage of reciprocal hybrids where highest mortality occurred was the umbo period. The growth rate of GN progeny was not different from the inbred cohorts, while the growth rate of the NG progeny was higher than that of inbred cohorts. Furthermore, both hybrid cohorts had normal metamorphosis and produced viable spats. During the spat stage, the survival rates of reciprocal hybrids were not different from that of GG spat but were much higher than that of the NN spat. The growth rates of reciprocal hybrids were comparable to that of GG spat but significantly higher than that of NN spat. The shell height of the reciprocal crosses GN and NG were increased by 46.66% and 60.75% compared with the NN cross at day 360, respectively. The reciprocal hybrids had significant survival advantage and growth heterosis compared to NN cohort. The results demonstrated that the cross NG was deemed to be the better hybridization combination for genetic improvement, which could have a potential utilization for oyster aquaculture.

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