General and specific combining ability of male blue catfish (Ictalurus furcatus) and female channel catfish (Ictalurus punctatus) for growth and carcass yield of their F<sub>1</sub> hybrid progeny.

Bosworth B.; Waldbieser G.

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General and specific combining ability of male blue catfish (Ictalurus furcatus) and female channel catfish (Ictalurus punctatus) for growth and carcass yield of their F₁ hybrid progeny.

机译：雄蓝cat鱼（Ictalurus furcatus）和雌蓝channel鱼（Ictalurus punctatus）对它们的F _{1 杂种子代生长和car体产量的一般和特异性结合能力。}

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U.S. aquaculture production of channel catfish female (Ictalurus punctatus) x blue catfish male (Ictalurus furcatus) F₁ hybrids has increased substantially due to the hybrid's improved growth, survival, carcass yield and ease of harvest compared to the more commonly farmed channel catfish. However, information on the genetic architecture underlying phenotypic variation in the hybrid which is needed to develop an efficient genetic improvement program is lacking. Progeny from two separate factorial matings between male blue catfish and female channel catfish (ten males x seven females and twelve males x five females, respectively) were grown communally in earthen ponds and measured for carcass yield and weight at approximately 520 days post-hatch. Parentage of progeny was assigned by inheritance of microsatellite genotypes. Progeny from 118 full-sib families, within 12 maternal half-sib and 22 paternal half-sib families, were measured for harvest weight (n=1288) and carcass yield (n=1101). Variance component estimates associated with dams (dam general combining ability and heritabilities based on dam half-sib families) were high, variance associated with sires (sire general combining ability and heritabilities based on sire half-sib families) were intermediate, and variance components associated with the dam x sire interactions (specific combining ability) were low for carcass yield and harvest weight. Data indicate that the genetic variance for carcass yield and harvest weight of F₁ hybrids was primarily additive. Selection for improved carcass yield and growth based on additive genetic merit of blue catfish male and channel catfish female parents should be effective for improving performance of hybrid progeny.

机译：由于与杂种相比，杂种的生长，存活、,体单产和易于收获，美国水产养殖的cat鱼雌性（Ictalurus punctatus）x蓝cat鱼雄性（Ictalurus furcatus）F _{1 杂种大幅提高。更常见的是养殖的channel鱼。但是，缺乏有关杂种表型变异的遗传结构的信息，而该信息是制定有效的遗传改良程序所必需的。雄性蓝cat鱼和雌性channel鱼（分别为十个雄性×七个雌性和十二个雄性×五个雌性）之间两个单独的因子交配的后代在土池中共同生长，并在孵化后约520天测量measured体产量和重量。后代的亲缘关系是通过微卫星基因型的遗传来确定的。测量了来自12个产妇半同胞家族和22个产妇半同胞家族的118个同胞同族的后代的收获体重（n = 1288）和car体产量（n = 1101）。与大坝相关的方差成分估计值（基于大坝半同胞族的大坝一般结合能力和遗传力）很高，与父系相关的方差（基于父本半同胞族的父亲综合结合能力和遗传力）处于中间值，而相关的方差成分与水坝x父亲的相互作用（特定的结合能力）对于car体产量和收获重量而言较低。数据表明，F _{1 杂种的yield体产量和收获重量的遗传变异主要是加性的。基于蓝cat鱼雄性和female鱼雌性亲本遗传优势的选择additive体产量和生长状况的提高，应能有效提高杂交后代的性能。}}

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《Aquaculture》 |2014年第null期|共7页
作者
Bosworth B.; Waldbieser G.;
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正文语种 eng
中图分类水产、渔业;
关键词
Hybrid; Catfish; Combining ability; Performance;

机译：杂种;C鱼;配合力;性能;

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外文文献

1. General and specific combining ability of male blue catfish (Ictalurus furcatus) and female channel catfish (Ictalurus punctatus) for growth and carcass yield of their F₁ hybrid progeny. [J] . Bosworth B., Waldbieser G. Aquaculture . 2014,第Null期

机译：雄蓝cat鱼（Ictalurus furcatus）和雌蓝channel鱼（Ictalurus punctatus）对它们的F _{1 杂种子代生长和car体产量的一般和特异性结合能力。}
2. Genotype-environment interactions for growth and survival of channel catfish (Ictalurus punctatus), blue catfish (Ictalurus furcatus), and channel catfish, I. punctatus, female x blue catfish, I. furcatus, male hybrid fry at varying levels of sodium chloride [J] . Abass Nermeen Y., Alsaqufi Ahmed S., Makubu Nonkonzo, The Veterinary Record . 2017,第18期

机译：基因型 - 环境相互作用，生长和生存通道鲶鱼（ictalurus punctatus），蓝鲶（ictalurus furcatus）和沟道鲶鱼，I. punctatus，女性x蓝鲶鱼，I. furcatus，男性杂种乳油在不同水平的氯化钠水平
3. Genotype-environment interactions for growth and survival of channel catfish (Ictalurus punctatus), blue catfish (Ictalurus furcatus), and channel catfish, I. punctatus, female x blue catfish, I. furcatus, male hybrid fry at varying levels of sodium chloride [J] . Aquaculture . 2017,第期

机译：基因型 - 环境相互作用，用于沟道鲶鱼（Intalurus punctatus），蓝鲶（ictalurus furcatus）和沟道鲶鱼，I. punctatus，女性x蓝鲶鱼，I. furcatus，男性杂种乳炒水平的氯化钠水平
4. Water Quality and Growth Simulation of Channel Catfish, Ictalurus Punctatus, in a Recirculating Aquaculture System Combined with Subsurface Flow Wetland [C] . Tao Yu, Fei Zhong, Dong Xu International Conference on Materials for Environmental Protection and Energy Application . 2012

机译：通道鲶鱼，IATRALURUS蝙蝠液中的水质和生长模拟，在循环水产养殖系统中结合地下流动湿地
5. The economic viability of the channel x blue hybrid (channel catfish, Ictalurus punctatus, female x blue catfish, Ictalurus furcatus, male). [D] . Ligeon, Carel Michiel. 2000

机译：x x蓝色杂种的经济可行性（，鱼，斑点鱼Ictalurus，雌性x蓝色fur鱼，furcatus Ictalurus，雄性）。
6. Identification and Characterization of Full-Length cDNAs in Channel Catfish (Ictalurus punctatus) and Blue Catfish (Ictalurus furcatus) [O] . Fei Chen, Yoona Lee, Yanliang Jiang, 2010

机译：Channel鱼（Ictalurus punctatus）和蓝Cat鱼（Ictalurus furcatus）全长cDNA的鉴定和表征
7. Emergence of Edwardsiella piscicida in Farmed Channel ♀, Ictalurus punctatus × Blue ♂ , Ictalurus furcatus , Hybrid Catfish Cultured in Mississippi [O] . Matt J. Griffin, Stephen R. Reichley, Wes A. Baumgartner, 2018

机译：Edwardiella Piccicida在养殖渠道中的出现♀，intalurus punctatus×蓝色，ictalurus furcatus，密西西比培养的杂交鲶鱼
8. Acute Toxicity and Bioaccumulation of Chloroform to Four Species of Fresh Water Fish: 'Salmo gairdneri', Rainbow Trout, 'Lepomis macrochirus', Bluegill, 'Micropterus salmoides', Largemouth Bass, 'Ictalurus punctatus', Channel Catfish [R] . Anderson, D. R., Lusty, E. B. 1980

机译：氯仿对四种淡水鱼的急性毒性和生物累积：'salmo gairdneri'，虹鳟鱼，'Lepomis macrochirus'，Bluegill，'micropterus salmoides'，大口黑鲈，'Ictalurus punctatus'，斑点叉尾

General and specific combining ability of male blue catfish (Ictalurus furcatus) and female channel catfish (Ictalurus punctatus) for growth and carcass yield of their F1 hybrid progeny.

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General and specific combining ability of male blue catfish (Ictalurus furcatus) and female channel catfish (Ictalurus punctatus) for growth and carcass yield of their F₁ hybrid progeny.