Multi-Trait Genomic Prediction of Meat Yield in Pacific Whiteleg Shrimp (Penaeus vannamei)
文献类型: 外文期刊
作者: Zhang, Shiwei 1 ; Kong, Jie 2 ; Tan, Jian 2 ; Meng, Xianhong 2 ; Dai, Ping 2 ; Cao, Jiawang 2 ; Luo, Kun 2 ; Liu, Mianyu 2 ; Xing, Qun 5 ; Tian, Yi 1 ; Sui, Juan 2 ; Luan, Sheng 2 ;
作者机构: 1.Dalian Ocean Univ, Coll Fisheries & Life Sci, Dalian 116023, Peoples R China
2.Chinese Acad Fishery Sci, Yellow Sea Fisheries Res Inst, State Key Lab Mariculture Biobreeding & Sustainabl, Qingdao 266071, Peoples R China
3.Qingdao Marine Sci & Technol Ctr, Lab Marine Fisheries Sci & Food Prod Proc, Qingdao 266237, Peoples R China
4.Nanjing Agr Univ, Coll Fisheries, Nanjing 210095, Peoples R China
5.BLUP Aquabreed Co Ltd, Weifang 261311, Peoples R China
关键词:
期刊名称:ANIMALS ( 影响因子:2.7; 五年影响因子:3.2 )
ISSN: 2076-2615
年卷期: 2025 年 15 卷 8 期
页码:
收录情况: SCI
摘要: The meat yield (MY) is a key economic trait in Pacific whiteleg shrimp (Penaeus vannamei) breeding, necessitating accurate genomic prediction for efficient genetic improvement. In this study, we investigated single-trait (STGMs) and multi-trait genomic models (MTGMs) for predicting MY and related traits, using two cross-validation strategies reflecting different data-availability scenarios. A total of 899 individuals from 63 full-sibling families were phenotyped for MY, net meat weight (MW), body weight (BW), body length (BL), and abdominal segment length (AL). We estimated the genomic heritability and genetic correlations of MY and related traits in P. vannamei, followed by comparing the prediction accuracy of STGMs and MTGMs for MY and MW. Two validation approaches were then applied: CV1 retained auxiliary traits in the validation sets, and CV2 excluded both target and auxiliary traits. Heritability estimates indicated that MY had low heritability (STGM: 0.160; MTGMs: 0.145-0.156), whereas MW, BW, BL, and AL showed low-to-moderate heritability (0.099-0.204). Genetic correlations revealed strong associations between MY and MW/BW/BL (rg = 0.605-0.783), yet a low positive correlation with AL (rg = 0.286). Across all comparisons, MTGMs consistently surpassed STGMs. For MY, MTGMs improved the accuracy by 4.8-58.8% relative to STGM (0.187), with the MY-MW model achieving the highest accuracy (0.297) under CV1. Similarly, MTGMs enhanced MW prediction by 36.6-138.2% over STGM (0.254), with the MW-BW model reaching the highest accuracy (0.605) under CV1. Notably, retaining auxiliary traits (CV1) boosted accuracy gains substantially (up to 138.2%), whereas excluding them (CV2) yielded only marginal improvements (<= 8.6%). Moreover, incorporating AL as an auxiliary trait increased heritability estimates for MW, BW, and BL by 5.4-7.6%, indicating its synergistic value in MTGMs. Overall, these results demonstrate that MTGMs markedly enhance genomic prediction for carcass traits compared to STGMs, particularly when auxiliary trait data are accessible (CV1). The findings underscore the importance of maintaining auxiliary trait records in breeding populations, offering a robust framework for improving P. vannamei through multi-trait genomic prediction models.
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