文章摘要
和怡婧,李旭鹏,栾生,孔杰,曹宝祥,罗坤,谭建,曹家旺,陈宝龙,代平,邢群,刘绵宇,强光峰,刘杨,隋娟,孟宪红.凡纳对虾核心育种群生长和抗WSSV性状的遗传参数估计.渔业科学进展,2024,45(5):155-164
凡纳对虾核心育种群生长和抗WSSV性状的遗传参数估计
Evaluation of genetic parameters for growth and survival traits of Penaeus vannamei during white spot syndrome virus infection
投稿时间:2023-06-02  修订日期:2023-07-08
DOI:
中文关键词: 凡纳对虾  遗传参数  生长  存活  WSSV
英文关键词: Penaeus vannamei  Genetic parameters  Growth  Survival  White spot syndrome virus
基金项目:国家虾蟹产业技术体系(CARS-48)、国家自然科学基金(32172960)和中国水产科学研究院科技创新团队项目(2020TD26)共同资助
作者单位
和怡婧 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071上海海洋大学水产科学国家级实验教学示范中心 上海 201306 
李旭鹏 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266237 
栾生 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266238 
孔杰 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266239 
曹宝祥 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 
罗坤 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266072 
谭建 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266073 
曹家旺 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266074 
陈宝龙 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 
代平 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266239 
邢群 邦普种业科技有限公司 山东 潍坊 261312 
刘绵宇 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 
强光峰 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266072 
刘杨 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266073 
隋娟 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266239 
孟宪红 海水养殖生物育种与可持续产出全国重点实验室 中国水产科学研究院黄海水产研究所 山东 青岛 266071 青岛海洋科技中心海洋渔业科学与食物产出过程功能实验室 山东 青岛 266239 
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中文摘要:
      为开展凡纳对虾(Penaeus vannamei)生长和白斑综合征病毒(white spot syndrome virus, WSSV)抗性复合选育,本研究以凡纳对虾59个核心育种群家系1 770尾77~94日龄的个体为实验材料,利用两性状动物模型、公母畜阈值模型,评估在WSSV感染情况下凡纳对虾体长、抗WSSV存活时间和家系WSSV半致死存活率的遗传力和遗传相关。结果显示,凡纳对虾体长、抗WSSV存活时间和家系WSSV半致死存活率遗传力估计值分别为0.17±0.05、0.18±0.05和0.14±0.05,均属于中等遗传力水平,且均与0差异极显著(P<0.01)。凡纳对虾体长与抗WSSV存活时间性状的遗传相关系数为0.15±0.20,与家系WSSV半致死存活率性状的遗传相关系数为0.25±0.22,上述遗传相关与0差异不显著(P>0.05);抗WSSV存活时间性状与家系WSSV半致死存活率性状的遗传相关系数为0.96±0.03,遗传相关与1差异不显著(P>0.05),为高度正相关。结果表明,在该育种群体中,凡纳对虾生长与WSSV抗性可根据育种需要,通过赋值制定综合选择指数,进行多性状复合选育。此外,为优化每代育种的操作过程,可选用家系WSSV半致死存活率作为WSSV抗性的指标性状。本研究为开展凡纳对虾生长和WSSV抗性优良品种的选育提供了基础数据和理论支撑。
英文摘要:
      Penaeus vannamei, also known as white foot shrimp, is globally one of the three high-yield shrimp farming varieties. The wild species is found along the Pacific coast of South America. Since 1988, China has introduced P. vannamei. Due to its strong environmental adaptability, high feed conversion rate, fast growth rate, and high tolerance to ammonia nitrogen and nitrite, it has been widely promoted in aquaculture. By 2021, the aquaculture output of P. vannamei in China reached 1.977 million tons, accounting for approximately 37% of the world’s total production, and has extremely high economic value. Growth traits are among the most important economic factors in the production of P. vannamei. With the intensive development of shrimp farming and degradation of germplasm, the white spot syndrome virus (WSSV) is a serious disease faced by the global shrimp industry. The infection can cause symptoms such as reduced food intake, enlarged liver and pancreas, pale red body color, and white spots on the head and chest armor in shrimp, resulting in widespread death. At present, China has cultivated 12 new varieties of P. vannamei, which to some extent alleviates its dependence on imports for high-quality P. vannamei. However, the excellent traits of domestic shrimp species are singular, and cultivating new varieties of P. vannamei with fast growth and strong disease resistance is an urgent demand in the market. Genetic parameter evaluation is the fundamental work of selection breeding. Heritability reflects the genetic variation in traits in the breeding population, which is of great significance in the development of a selection index, prediction of selection response, comparison of selection methods, selection breeding planning, and other breeding processes. There are different degrees of genetic correlation among various quantitative traits of shrimp, and genetic correlation coefficients are important for selecting target traits. The estimation of genetic correlation can be used to develop a comprehensive selection index and breeding program of multiple traits, which can improve the selection efficiency and breed better varieties with multiple traits. The higher the genetic correlation between traits, the better the effect of indirect selection. The estimation of genetic parameters is greatly affected by the test population, breeding management, analysis methods, and other factors. To ensure the accuracy of multi-trait composite breeding for growth and WSSV resistance, accurate evaluation of growth and WSSV resistance needs to be carried out for specific breeding populations. There are two commonly used target traits for measuring WSSV resistance in P. vannamei: individual survival time after infection and half-lethal survival rate (SS50) of families. In practice, measuring the half-lethal survival rate of families is more convenient. However, the correlation between these two traits has not yet been reported. To promote the growth and WSSV resistance of P. vannamei, 59 families (1,770 individuals) were tested for WSSV infection. We recorded the survival time and individual body length of shrimp after infection and analyzed the mean, standard deviation, maximum and minimum values, and coefficient of variation of half-lethal survival rate and test traits for each line. The heritability and genetic correlation coefficients of growth, survival time, and half-lethal survival rate were calculated. Variance components and genetic parameters for growth and survival traits were estimated using a two-trait animal model and a sire-dam threshold model. The genetic parameters of body length were corrected by including age as a covariate. The genetic parameters of WSSV survival time were corrected by including body length as a covariate. The estimated heritability of body length was medium (0.17±0.05), and the estimated heritabilities of survival time and half-lethal survival rate were medium (0.18±0.05 and 0.14±0.05). Further, the estimated heritabilities of the three traits were significantly different from zero (P<0.01). The genetic correlation between body length and survival time and that of body length and half-lethal survival rate were low (0.15±0.20 and 0.25±0.22). There were no significant differences between the genetic correlations and zero (P>0.05). The genetic correlation between survival time and half-lethal survival rate was high (0.96±0.03). There was no significant difference between the genetic correlation and one (P>0.05). The results showed that a comprehensive selection index of growth and WSSV resistance of P. vannamei can be established to carry out multi-trait composite breeding. In this breeding population, the growth and WSSV resistance of P. vannamei can be combined with multiple traits according to the breeding requirements, and the comprehensive selection index can be formulated by assigning values. In addition, to optimize the breeding of each generation, the half-lethal survival rate of WSSV can be used as an indicator of WSSV resistance. This study provides basic data and theoretical support for breeding varieties of P. vannamei with excellent growth and WSSV resistance.
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