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文蛤(Meretrix meretrix)生长及抗性性状遗传参数的估计以及育种数据库的建立
梁冰冰
学位类型硕士
导师王鸿霞
2015-05-15
学位授予单位中国科学院大学
学位授予地点北京
学位专业生物工程
关键词文蛤 生长性状 抗性性状 遗传参数 育种数据库
其他摘要       种植业和畜牧业等陆地农业发展的历程证明,优良养殖品种的选育和运用,是解决养殖对象生产性状衰退、抗逆性能力减弱的有效途径。在人工育种中,遗传参数的准确性和精确性估计是制定有效选育策略的前提和基础。本研究利用文蛤不同交配设计、不同规模的家系材料,对不同发育时期的生长性状进行遗传参数的估计;同时,采用部分因子设计构建了23个全同胞家系,进行副溶血弧菌的人工感染实验,分析文蛤弧菌抗性性状的遗传参数。这些结果为文蛤生长及抗性性状的选育提供理论依据和数据支持。除此之外,本研究对近十年来文蛤选育工作的育种资料进行整理分析,以Access软件为开发平台,构建了文蛤育种信息数据库,实现了文蛤育种电子化的信息管理,为文蛤遗传评估、选择育种以及遗传进展预测等工作打造了基础平台。本研究的主要结果如下:
1.      文蛤稚贝阶段生长性状遗传参数的估计
       采用部分因子设计构建了23个全同胞家系,应用单性状及两性状动物模型对文蛤稚贝阶段的生长性状进行遗传力和相关性分析。结果表明,附着变态期文蛤壳长和壳高的遗传力估计值为0.11~0.34,性状间的表型相关和遗传相关分别为0.86~0.95以及0.97~0.99;5月龄文蛤壳长和壳宽的遗传力估计值为0.23~0.41,性状间的表型相关及遗传相关分别为0.85~0.93以及0.93~0.98。非遗传的共同环境效应随着年龄的增长而呈现上升趋势,由附着变态期的0.02左右增加到5月龄的0.38,且稚贝期共同环境效应显著大于其附着变态期(P<0.01)。文蛤连续时间段生长性状之间的遗传相关均为正相关,但并不显著,且不同时期的遗传相关也不尽相同(0.34~0.71)。
2.      文蛤1年龄阶段生长性状遗传参数的估计
       采用REML算法和Bayesian推论对文蛤不同交配设计以及不同家系规模因子设计下的生长性状进行遗传参数的估计,结果显示,Bayesian推论得出的遗传力估计值略低于REML法。当采用同一种分析方法(REML或Bayesian)对不同交配设计文蛤生长性状进行遗传力估计时,发现巢式设计的遗传力估计值属于中高等水平(REML:0.41~0.56;Bayesian:0.36~0.45),而3×3 因子设计和5×5 因子设计的遗传力估计值比较相似,均处于中低等水平(REML:0.15~0.22;Bayesian:0.11~0.17)。比较不同家系规模下遗传力估计的差异,发现利用3×3和4×4因子设计估算出的遗传力平均值分别为0.23~0.32和0.11~0.12。生长性状相关性分析表明,性状间的遗传相关略大于表型相关,但都呈现出显著的强烈的正相关性,且交配设计方式及家系规模对相关性分析没有太大影响。采用REML分析方法,对不同交配设计以及不同规模的因子设计分别进行个体育种值的估计,并分析比较不同材料育种值准确性的平均值,结果表明,在家系数目以及个体样本总数相似的情况下, 5×5因子设计的估计育种值比巢式设计的估计育种值更加准确,育种值准确性为6.42~6.57;对因子设计来讲,随着亲本个数、家系数目的增加,估计育种值的准确性逐渐增加。
3.      文蛤副溶血弧菌抗性性状的遗传参数估计
       对23个家系的1150个文蛤进行为期25天的副溶血弧菌人工感染实验后,发现文蛤的最终存活率为40.17%,且家系之间存在很大差异(8%~66%)。根据三种不同定义的存活数据对弧菌抗性性状进行遗传参数的分析,结果表明,采用Cross-sectional模型得出的遗传力分布范围为0.04~0.29之间;Survival score 模型的估计结果为0.24±0.05;而时间线性模型的遗传力估计值为0.42±0.14。采用Person 和Spearman 相关性分析来评估三种模型对文蛤抗性育种值预测的差异,相关分析结果显示,三种模型之间均呈现极显著的正相关(0.91~0.97),意味着三种模型对抗性性状育种值的预测能力较一致。生长性状与弧菌抗性状之间并未检测到显著的遗传相关 (0.08~0.18),表明在选择育种时可以分别对生长和抗性性状进行选育。
4.      文蛤重要经济性状育种信息数据库的建立
       本研究以近10年来文蛤生长及抗性性状的育种资料为基础,采用Access数据库技术够建了文蛤重要经济性状数据库管理系统,内容包括了文蛤基本资料信息、生长性状信息、抗性性状信息、育种值信息以及发育况状信息等多方面信息资料及研究成果,不仅满足当前文蛤遗传育种数据的查询、更新、修改等操作类型的要求,还满足了对总体数据的分类、汇总和基本统计分析等需求,为文蛤遗传评估、选择育种以及遗传进展预测等工作打造了基础平台。
 
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       The development of agriculture, such as farming and animal husbandry, has proved that selection and use of excellent varieties is one of the effective ways to avoid the recession of growth traits and disease resistance traits. The precise and accurate knowledge of genetic parameters is a prerequisite for making efficient selection strategies in artificial selection programs. In our study, we used different kinds of mating materials to estimate the genetic parameters of growth traits at different development stages. Twenty-three full-sib families were also used for challenge test by Vibrio parahaemolyticus and the survival data were used for genetic analysis of disease resistance in Meretrix meretrix. These results provide a basic genetic evaluation for growth traits and resistance traits. Besides, they would be useful for the design and operation of a practical selective breeding program in the clam M. meretrix. Further more, we developed a breeding database by Access software application based on the breeding data of Meretrix meretrix in recent ten years, which were convenient and efficient for the breeding information management and provided a foundation platform for genetic evaluation and artificial selection. The main results were as follows.
1.      Genetic parameter estimation for growth traits in the juvenile stage of Meretrix meretrix.
       In the study, 23 full-sib families were produced using part factorial design as described by Berg and Henryon. Moreover, genetic parameter of growth traits in the juvenile stage of Meretrix meretrix were estimated using single trait animal model and two traits animal model. The results showed that the estimated heritabilities of shell length and shell height arranged from 0.11 to 0.34 at metamorphosis stage, and the phenotypic and genetic correlations were 0.86~0.95 and 0.97~0.99, respectively. At the age of 5 month, the estimated heritabilities of shell length and shell height arranged from 0.23 to 0.41, and the phenotypic and genetic correlations were 0.85~0.93 and 0.93~0.98, respectively. However, the common environment effects were increased with the age increasing (from 0.02 to 0.38). For example, the common environment effects at the age of 5 months were significantly larger than those at settlement and metamorphosis stage (P<0.01). While the genetic correlations of shell length between different development periods were positive but not significant, the correlation coefficients were different between each other (0.34~0.71).
2.      Genetic parameter estimation for growth traits at the age of 1 year Meretrix meretrix.
       Residual maximum likelihood (REML) and Bayesian inference were used to estimate the genetic parameters of growth traits in Meretrix meretrix based on different mating designs and different sizes of families in factorial mating design. The results showed that the heritability estimates obtained from Bayesian inference were a little smaller than the results from REML. When the same method was used (REML or Bayeisan) to estimate the heritabilities of growth traits from different mating designs, we found that the heritabilities obtained from nested design were medium to high level (REML: 0.41~0.56, Bayesian: 0.36~0.45). While the heritabilities obtained from 3×3 factorial design and the 5×5 factorial design were similar to each other (REML: 0.15~0.22, Bayesian:0.11~0.17). In order to compare different sizes of factorial designs for inference on heritability, we decomposed 5×5 factorial design into one-hundred different 3×3 factorial designs and twenty-five different 4×4 factorial designs. The results showed that the average estimated heritabilities of growth traits obtained from REML and Bayesian were 0.23~0.32 and 0.11~0.12. Genetic and phenotypic correlations among traits were positive and high and had no significant difference between different mating designs and different sizes of factorial designs. Breeding values of growth traits were estimated using REML, and the accuracies of estimated breeding values were compared among different materials. The results showed that the averaged accuracy values from 5×5 factorial design were 6.42~6.57, which were more precise than those from nested design in 2007 when the size of families and the individuals were similar,. For factorial designs, the accuracies of estimated breeding values increased as the number of families increasing.
3.      Estimates of genetic parameters of vibrio parahaemolyticus resistance in Meretrix meretrix 
       Vibrio parahaemolyticus has been shown to cause mortality in numerous clam species, among whom is the clam Meretrix meretrix . The aim of our study was to analyze the genetic variation in resistance to vibriosis. The challenge test data comprised 1150 individuals from 23 full-sib families and the experiment was terminated 25 days. The overall survival at the end of the test was 40.17%, and the survival percentage were very different among families, which varied from 8%~66%. Genetic analysis of vibriosis resistance based on survival data during the challenge test were analyzed with three models. When Cross-sectional model was used, the heritability estimates ranged from 0.04~0.29, and Survival score model had similar heritability (0.24±0.05). However, when we used linear model to analyze the day of death, larger heritability was obtained (0.42±0.14). Estimate breeding values from three models showed high and positive correlations (0.91~0.97), which mean that the ability of breeding value prediction was similar among these models. The genetic correlation between growth traits and survival were low and not significant (0.08~0.18), which suggested that the growth traits and resistance against Vibrio parahaemolyticus in Meretrix meretrix could be improved separately.
4.      The development of breeding database of the important economic traits in Meretrix meretrix.
       We developed a breeding database of the important economic traits in Meretrix meretrix by Access software based on the breeding data in recent ten years. The database contained the basic breeding information, growth traits breeding information, disease resistance breeding information, breeding values information and development situation information. The database was not only convenient for users to query, update and modify the breeding data, but also satisfied the needs of data classification, summary and basic statistical analysis. The database provides a basic platform for genetic evaluation and should be useful for the design and operation of a practical selective breeding program in the clam M. meretrix.
学科领域海洋生物学
语种中文
文献类型学位论文
条目标识符http://ir.qdio.ac.cn/handle/337002/22779
专题实验海洋生物学重点实验室
作者单位中国科学院海洋研究所
第一作者单位中国科学院海洋研究所
推荐引用方式
GB/T 7714
梁冰冰. 文蛤(Meretrix meretrix)生长及抗性性状遗传参数的估计以及育种数据库的建立[D]. 北京. 中国科学院大学,2015.
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