Combining Ability of Female Channel Catfish, Ictalurus punctatus, and Male Blue Catfish, I. furcatus, for Early Growth Performance of Their Progeny

Fishes Pub Date : 2024-03-23 DOI:10.3390/fishes9040115

R. Odin, Ahmed Elaswad, K. Khalil, Khoi Vo, Nathan J. C. Backenstose, Zachary A. Taylor, David Drescher, W. Bugg, Dalton Robinson, K. Gosh, Z. Ye, Guyu Qin, David Creamer, Rex Dunham

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Abstract

The hybrid between the female channel catfish (Ictalurus punctatus) and the male blue catfish (I. furcatus) is the best genetic type currently available for commercial catfish farming due to their superior traits. However, further genetic improvements can be achieved by selecting parents with increased combining abilities. Twenty female channel catfish and twelve male blue catfish were crossed in a partial factorial mating design, resulting in forty hybrid families. These families were evaluated for early growth in three different rearing systems, including ponds and aquaria. The early growth performance of hybrid catfish was significantly (p < 0.05) affected by the additive gene action of the female parent and the male parent. There were genotype–environment or genotype–age interactions affecting the combining abilities, both the amount and the type of genetic variation. Dam GCA was significant in all environments/ages; however, sire GCA was variable, and SCA was not significant. These findings suggest that reciprocal recurrent selection for growth could potentially improve the performance of F1 hybrid catfish.

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雌性斑点叉尾鮰和雄性蓝鮰对其后代早期生长表现的结合能力

雌性斑点叉尾鮰（Ictalurus punctatus）和雄性蓝鮰（I. furcatus）的杂交种是目前商业化养殖鲶鱼的最佳遗传类型，因为它们具有优良的性状。然而，通过选择组合能力更强的亲本，还可以进一步改善基因。在部分因子交配设计中，20 条雌性沟鲶和 12 条雄性蓝鲶杂交，产生了 40 个杂交系列。在三种不同的饲养系统（包括池塘和水族馆）中对这些品系的早期生长进行了评估。杂交鲶鱼的早期生长性能受到雌性亲本和雄性亲本的加性基因作用的显著影响（p < 0.05）。基因型-环境或基因型-年龄的交互作用影响了组合能力，包括遗传变异的数量和类型。在所有环境/年龄中，母本的遗传力差异都很显著；但父本的遗传力差异不一，母本的遗传力差异也不显著。这些研究结果表明，针对生长的往复循环选择有可能改善 F1 代杂交鲶鱼的表现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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