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Growth,salinity tolerance and microsatellite analysis of the F2 reciprocal hybrids of Oreochromis niloticus×Sarotherodon galilaeus at different salinities
Authors:Biao Yan  Zhenhua Wang
Affiliation:1. Department of Biochemistry and Molecular Biology, College of Life Science and Technology, ?Tongji University, Shanghai, China;2. *Contributed equally to this work.;3. Department of Surveying and Geo‐informatics, College of Civil Engineering, Tongji University, Shanghai, China
Abstract:Oreochromis niloticus (O), the sixth generation of Genetic Improvement of Farmed Tilapia, shows rapid growth but poor salt tolerance, while Sarotherodon galilaeus (S) exhibits opposite traits. To combine the traits, F1 progeny was obtained through artificial fertilization. Fertile F1 produced F2 by natural spawning. The mean survival times, the median survival time (ST50) or the survival rate of hybrids was greater than O. niloticus in a gradual or an acute salinity change. Plasma osmolarity, [Na+] and [Cl?] of the hybrids fluctuated in 32 g L?1 water during a 24‐h period, but eventually reached levels similar to fish in freshwater. O. niloticus♀×S. galilaeus♂ (OS F2) or S. galilaeus♀×O. niloticus♂ (SO F2) showed the fastest growth at 22.5 g L?1, equal to about 78.2% or 69.7% of O. niloticus at 0 and 3.87 or 3.45 times that of S. galilaeus at their individual optimum growth. Growth in OS F2 was 12% faster than SO F2. Microsatellite analysis showed that F2 had more alleles, a higher polymorphism information content and greater observed and expected heterozygosity than O. or S. Population differentiation was not detected between F1 and F2. All the results indicated that F2 could be exploited for commercial production under saline conditions.
Keywords:hybridization  salinity tolerance  growth comparison  microsatellite
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