期刊文献+

Genetic parameters and trends for production and reproduction traits of a Landrace herd in China 被引量:3

Genetic parameters and trends for production and reproduction traits of a Landrace herd in China
下载PDF
导出
摘要 The objectives of this study were to estimate the genetic parameters and the breeding progress in a Landrace herd in China, and to predict the potential benefits by applying new breeding technology. Hereby, the performance records from a Landrace swine herd in China, composing over 33 000 pigs born between 2001 and 2013, were collected on six economically important traits, i.e., average daily gain between 30-100 kg(ADG), adjusted backfat thickness at 100 kg(BF), adjusted days to 30 kg(D30), adjusted days to 100 kg(D100), number born alive(NBA), and total number born(TNB). The genetic parameters were estimated by restricted maximum likelihood via DMU, and realized genetic trends were analyzed. Based on the real population structure and genetic parameters obtained from this herd, the potential genetic trends by applying genomic selection(GS) were predicted via a computer simulation study. Results showed that the heritability estimates in this Landrace herd were 0.55(0.02), 0.42(0.01), and 0.12(0.01), for BF, D100, and TNB, respectively. Favorable genetic trends were obtained for D100, BF, and TNB due to direct selection, for ADG and NBA due to indirect selection. Long-term selection against D100 did not improve D30, though they are highly genetically correlated(0.64). Appling GS in such a swine herd, the genetic gain can be increased by 25%, or even larger for traits with low heritability or individuals without phenotypes before selection. It can be concluded that conventional breeding strategy was effective in the herd studied, while applying GS is promising and hence the road ahead in swine breeding. The objectives of this study were to estimate the genetic parameters and the breeding progress in a Landrace herd in China, and to predict the potential benefits by applying new breeding technology. Hereby, the performance records from a Landrace swine herd in China, composing over 33 000 pigs born between 2001 and 2013, were collected on six economically important traits, i.e., average daily gain between 30-100 kg(ADG), adjusted backfat thickness at 100 kg(BF), adjusted days to 30 kg(D30), adjusted days to 100 kg(D100), number born alive(NBA), and total number born(TNB). The genetic parameters were estimated by restricted maximum likelihood via DMU, and realized genetic trends were analyzed. Based on the real population structure and genetic parameters obtained from this herd, the potential genetic trends by applying genomic selection(GS) were predicted via a computer simulation study. Results showed that the heritability estimates in this Landrace herd were 0.55(0.02), 0.42(0.01), and 0.12(0.01), for BF, D100, and TNB, respectively. Favorable genetic trends were obtained for D100, BF, and TNB due to direct selection, for ADG and NBA due to indirect selection. Long-term selection against D100 did not improve D30, though they are highly genetically correlated(0.64). Appling GS in such a swine herd, the genetic gain can be increased by 25%, or even larger for traits with low heritability or individuals without phenotypes before selection. It can be concluded that conventional breeding strategy was effective in the herd studied, while applying GS is promising and hence the road ahead in swine breeding.
出处 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2016年第5期1069-1075,共7页 农业科学学报(英文版)
基金 supported by the Earmarked Fund for the China Agriculture Research System(CARS-36) the National High-Tech R&D Program of China(863 Program, 2011AA100304) the National Key Technology R&D Program of China(2011BAD28B01) the National Natural Science Foundation of China(31200925) the Guangdong Provincial Department of S&T,China(2011A020102003) the Pearl River S&T Nova Program of Guangzhou,China (201506010027)
关键词 genetic parameter genomic selection SWINE genetic trend genetic parameter, genomic selection, swine, genetic trend
  • 相关文献

参考文献1

二级参考文献69

  • 1Goddard M E, Hayes B J. Mapping genes for complex traits in domestic animals and their use in breeding programmes. Nat Rev Genet, 2009, 10:381-391.
  • 2Meuwissen T H E, Hayes B J, Goddard M E. Prediction of total genetic value using genome-wide dense marker maps. Genetics, 2001, 157:1819-1829.
  • 3Heffner E L, Sonells M E, Jannink J L. Genomic selection for crop improvement. Crop Sci, 2009, 49:1-12.
  • 4Sonesson A K, Meuwissen T H. Testing strategies for genomic selection in aquaculture breeding programs. Genet Sel Evol, 2009, 41:37.
  • 5Habier D. More than a third of the WCGALP presentations on genomic selection. J Anim Breed Genet, 2010, 127:336-337.
  • 6Goddard M E, Hayes B J. Genomic selection. J Anim Breed Genet, 2007, 124:323-330.
  • 7Xu S. Estimating polygenic effects using markers of the entire genome. Genetics, 2003, 163:789-801.
  • 8Caius M P L. Genomic breeding value prediction: Methods and procedures. Animal, 2010, 4:157-164.
  • 9Verbyla K L, Hayes B J, Bowman P J, et al. Accuracy of genomic selection using stochastic search variable selection in Australian Holstein Friesian dairy cattle. Genet Res, 2009, 91:307-311.
  • 10Meuwissen T H. Accuracy of breeding values of 'nrelated' individuals predicted by dense SNP genotyping. Genet Sel Evol, 2009, 41:35.

共引文献8

同被引文献29

引证文献3

二级引证文献17

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部