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Animal Trait Correlation Database

 Pig Traits Genetic Correlations

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Environment Correlations:13
Genetic Correlations:564
Phenotypic Correlations:632

SpeciesTrait ATrait BCorrelationsTest statisticsCorrelation typeReference
PigSUBCFAT IGF1 0.00  Genetic
PigMCOL SUBCFAT -0.19  Genetic
PigSHEAR SUBCFAT -0.30  Genetic
PigSUBCFAT OFSPN -0.12 p<0.05Genetic
PigHCWT SUBCFAT 0.27  Genetic
PigMCOL SUBCFAT 0.01  Genetic
PigMCOL SUBCFAT -0.30  Genetic
PigMFCON SUBCFAT 0.27  Genetic
PigDRIPL SUBCFAT -0.14  Genetic
PigLMA SUBCFAT -0.382  Genetic
PigLMA SUBCFAT -0.349  Genetic
PigLMA SUBCFAT -0.334  Genetic
PigD90 SUBCFAT 0.089  Genetic
PigD90 SUBCFAT 0.033  Genetic
PigHCWT SUBCFAT 0.39  Genetic
PigTLVNUM SUBCFAT -0.19  Genetic
PigD90 SUBCFAT 0.004  Genetic
PigLMDEP SUBCFAT 0.34  Genetic
PigFEEDCON SUBCFAT -0.12  Genetic
PigFEEDIN SUBCFAT 0.36  Genetic
PigRFI SUBCFAT -0.11  Genetic
PigIMF SUBCFAT 0.46  Genetic
PigPEXC SUBCFAT 0.57  Genetic
PigPEXC SUBCFAT 0.56  Genetic
PigPEXC SUBCFAT 0.64  Genetic
PigPEXC SUBCFAT 0.23  Genetic
PigNEXCR SUBCFAT 0.68  Genetic
PigNEXC SUBCFAT 0.62  Genetic
PigFEEDCON SUBCFAT 0.56  Genetic
PigNEXCR SUBCFAT 0.69  Genetic
PigNEXC SUBCFAT 0.62  Genetic
PigFEEDCON SUBCFAT 0.54  Genetic
PigNEXCR SUBCFAT 0.74  Genetic
PigNEXC SUBCFAT 0.68  Genetic
PigFEEDCON SUBCFAT 0.63  Genetic
PigNEXCR SUBCFAT 0.31  Genetic
PigNEXC SUBCFAT 0.27  Genetic
PigFEEDCON SUBCFAT 0.21  Genetic
PigADG SUBCFAT 0.01  Genetic
PigSUBCFAT BW -0.85  Genetic
PigSUBCFAT IMF -0.22  Genetic
PigIMF SUBCFAT 0.14  Genetic
PigLMA SUBCFAT -0.43  Genetic
PigLOINLENGTH SUBCFAT -0.42  Genetic
PigCRCW SUBCFAT 0.13  Genetic
PigLVNUM SUBCFAT -0.14  Genetic
PigCRCL SUBCFAT -0.53  Genetic
PigADG SUBCFAT 0.35  Genetic
PigTVNUM SUBCFAT -0.16  Genetic
PigAFR SUBCFAT 0.13  Genetic
PigSUBCFAT FEEDIN 0.29  Genetic
PigSUBCFAT NVIS -0.05  Genetic
PigAFR SUBCFAT 0.29  Genetic
PigSUBCFAT FEEDIN 0.35  Genetic
PigSUBCFAT FEEDT 0.18  Genetic
PigSUBCFAT NVIS -0.30  Genetic
PigAFR SUBCFAT 0.28  Genetic
PigSUBCFAT FEEDIN 0.30  Genetic
PigSUBCFAT FEEDT 0.15  Genetic
PigSUBCFAT NVIS -0.16  Genetic
PigOM6FA SUBCFAT -0.163 p<0.001Genetic
PigFA-C20:3 SUBCFAT -0.156 p<0.001Genetic
PigFA-C12:0 SUBCFAT -0.432 p<0.001Genetic
PigFA-C20:4 SUBCFAT -0.155 p<0.001Genetic
PigFA-C22:6 SUBCFAT -0.107 p<0.01Genetic
PigFA-C20:4 SUBCFAT -0.112 p<0.01Genetic
PigFA-C20:3 SUBCFAT -0.109 p<0.01Genetic
PigFA-C20:2 SUBCFAT -0.250 p<0.001Genetic
PigPUFA SUBCFAT -0.175 p<0.001Genetic
PigFA-C16:1 SUBCFAT -0.009  Genetic
PigFA-C18:2 SUBCFAT -0.291 p=0.001Genetic
PigHCWT SUBCFAT -0.310 p<0.001Genetic
PigMUFA SUBCFAT 0.068 p<0.05Genetic
PigIMF SUBCFAT 0.242 p<0.001Genetic
PigFA-C20:0 SUBCFAT 0.085 p<0.05Genetic
PigLEANP SUBCFAT -0.428 p<0.001Genetic
PigFA-C14:0 SUBCFAT 0.120 p<0.001Genetic
PigFA-C22:5 SUBCFAT -0.077 p<0.05Genetic
PigADG SUBCFAT -0.10  Genetic
PigMFR SUBCFAT 0.77  Genetic
PigCRCL SUBCFAT -0.29  Genetic
PigADG SUBCFAT -0.35  Genetic
PigMFR SUBCFAT 0.53  Genetic
PigCRCL SUBCFAT -0.78  Genetic
PigADG SUBCFAT -0.36  Genetic
PigMFR SUBCFAT 0.83  Genetic
PigCRCL SUBCFAT -0.46  Genetic
PigLEANP SUBCFAT -0.94  Genetic
PigD90 SUBCFAT 0.00  Genetic
PigLEANP SUBCFAT -0.92  Genetic
PigD90 SUBCFAT 0.02  Genetic
PigSUBCFAT OFSPN -0.05  Genetic
PigSUBCFAT OFSPN -0.13  Genetic
PigLMA SUBCFAT -0.29  Genetic
PigADG SUBCFAT -0.02  Genetic
PigSUBCFAT OFSPN 0.03  Genetic
PigSUBCFAT OFSPN 0.02  Genetic
PigFA-C18:1 SUBCFAT 0.20  Genetic
PigMUFA SUBCFAT 0.17  Genetic
PigFA-C14:0 SUBCFAT 0.07  Genetic
PigFA-C16:0 SUBCFAT 0.25  Genetic
PigFA-C18:2 SUBCFAT -0.36  Genetic
PigFA-C18:0 SUBCFAT 0.05  Genetic
PigSHEAR SUBCFAT -0.20  Genetic
PigFA-C18:1 SUBCFAT 0.271  Genetic
PigMUFA SUBCFAT 0.209  Genetic
PigFA-C14:0 SUBCFAT 0.164  Genetic
PigFA-C16:0 SUBCFAT 0.339  Genetic
PigFA-C18:2 SUBCFAT -0.573  Genetic
PigPUFA SUBCFAT -0.461  Genetic
PigFA-C18:0 SUBCFAT 0.154  Genetic
PigFA-C18:1 SUBCFAT 0.162  Genetic
PigMUFA SUBCFAT 0.161  Genetic
PigFA-C14:0 SUBCFAT 0.101  Genetic
PigFA-C16:0 SUBCFAT 0.284  Genetic
PigFA-C18:2 SUBCFAT -0.424  Genetic
PigPUFA SUBCFAT -0.523  Genetic
PigFA-C18:0 SUBCFAT -0.087  Genetic
PigFA-C18:1 SUBCFAT 0.313  Genetic
PigMUFA SUBCFAT 0.357  Genetic
PigFA-C14:0 SUBCFAT 0.327  Genetic
PigFA-C16:0 SUBCFAT 0.549  Genetic
PigFA-C18:0 SUBCFAT -0.189  Genetic
PigFA-C18:2 SUBCFAT -0.532  Genetic
PigPUFA SUBCFAT -0.41  Genetic
PigFA-C14:0 SUBCFAT 0.017  Genetic
PigFA-C16:0 SUBCFAT 0.213  Genetic
PigMUFA SUBCFAT -0.107  Genetic
PigFA-C18:0 SUBCFAT 0.167  Genetic
PigFA-C18:2 SUBCFAT -0.353  Genetic
PigFA-C18:1 SUBCFAT -0.042  Genetic
PigPUFA SUBCFAT -0.627  Genetic
PigFA-C14:0 SUBCFAT 0.107  Genetic
PigFA-C16:0 SUBCFAT -1  Genetic
PigMUFA SUBCFAT 0.637  Genetic
PigFA-C18:0 SUBCFAT 0.005  Genetic
PigFA-C18:2 SUBCFAT -0.579  Genetic
PigFA-C18:1 SUBCFAT 0.724  Genetic
PigPUFA SUBCFAT -0.32  Genetic
PigLATSTB SUBCFAT -0.20  Genetic
PigNVOCBT SUBCFAT 0.09  Genetic
PigSUBCFAT MCOL 0.55  Genetic
PigTEND SUBCFAT -0.59  Genetic
PigSUBCFAT MPH 0.47  Genetic
PigCOOKL SUBCFAT -0.30  Genetic
PigIMPED SUBCFAT 0.29  Genetic
PigIMF SUBCFAT 0.28  Genetic
PigD100 SUBCFAT -0.16  Genetic
PigD100 SUBCFAT -0.06  Genetic
PigD100 SUBCFAT -0.17  Genetic
PigD100 SUBCFAT -0.10  Genetic
PigOVIM SUBCFAT 0.70  Genetic
PigMMP SUBCFAT -0.81  Genetic
PigSUBCFAT PFLLEAN 0.30  Genetic
PigADG SUBCFAT 0.43  Genetic
PigMMP SUBCFAT -0.31  Genetic
PigJUICE SUBCFAT 0.19  Genetic
PigWHC SUBCFAT -0.24  Genetic
PigSHEAR SUBCFAT -0.15  Genetic
PigSUBCFAT TEND 0.31  Genetic
PigOVIM SUBCFAT 0.45  Genetic
PigADG SUBCFAT 0.28  Genetic
PigWHC SUBCFAT -0.15  Genetic
PigIMF SUBCFAT 0.41  Genetic
PigFEEDCON SUBCFAT 0.694  Genetic
PigIMF SUBCFAT 0.34 p<0.01Genetic
PigFEEDIN SUBCFAT 0.618 p<0.0001Genetic
PigLEANP SUBCFAT -0.462 p<0.01Genetic
PigIMF SUBCFAT 0.607 p<0.0001Genetic
PigHCWT SUBCFAT 0.675 p<0.0001Genetic
PigRFI SUBCFAT 0.015  Genetic
PigSUBCFAT FEEDT 0.14  Genetic
PigSUBCFAT FEEDIN 0.32  Genetic
PigFEEDCON SUBCFAT 0.79  Genetic
PigADG SUBCFAT 0.37  Genetic
PigSUBCFAT FEEDIN 0.65  Genetic
PigAFR SUBCFAT 0.25  Genetic
PigSUBCFAT FEEDT 0.17  Genetic
PigSUBCFAT FEEDIN 0.43  Genetic
PigSUBCFAT FEEDIN 0.72  Genetic
Query notes References
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Nakano H, Sato S, Uemoto Y, Kikuchi T, Shibata T, Kadowaki H, Kobayashi E, Suzuki K (2015), Effect of VRTN gene polymorphisms on Duroc pig production and carcass traits, and their genetic relationships, Animal science journal, 86 (2): 125-31.
Lo L L, McLaren D G, McKeith F K, Fernando R L, Novakofski J (1992), Genetic analyses of growth, real-time ultrasound, carcass, and pork quality traits in Duroc and Landrace pigs: II. Heritabilities and correlations., Journal of animal science, 70 (8): 2387-96.
Zhang Y, Zhang J, Gong H, Cui L, Zhang W, Ma J, Chen C, Ai H, Xiao S, Huang L, Yang B (2019), Genetic correlation of fatty acid composition with growth, carcass, fat deposition and meat quality traits based on GWAS data in six pig populations, Meat science, 150: 47-55.
Bereskin B (1986), A genetic analysis of feed conversion efficiency and associated traits in swine, Journal of animal science, 62 (4): 910-7.
Li X, Kennedy B W (1994), Genetic parameters for growth rate and backfat in Canadian Yorkshire, Landrace, Duroc, and Hampshire pigs., Journal of animal science, 72 (6): 1450-4.
Choi JG, Cho CI, Choi IS, Lee SS, Choi TJ, Cho KH, Park BH, Choy YH (2013), Genetic parameter estimation in seedstock Swine population for growth performances, Asian-Australasian journal of animal sciences, 26 (4): 470-5.
Suzuki K, Nakagawa M, Katoh K, Kadowaki H, Shibata T, Uchida H, Obara Y, Nishida A (2004), Genetic correlation between serum insulin-like growth factor-1 concentration and performance and meat quality traits in Duroc pigs, Journal of animal science, 82 (4): 994-9.
Blaj I, Tetens J, Preuß S, Bennewitz J, Thaller G (2018), Genome-wide association studies and meta-analysis uncovers new candidate genes for growth and carcass traits in pigs, PloS one, 13 (10): e0205576.
Davoli R, Catillo G, Serra A, Zappaterra M, Zambonelli P, Zilio D Meo, Steri R, Mele M, Buttazzoni L, Russo V, (2018), Genetic parameters of backfat fatty acids and carcass traits in Large White pigs, Animal : an international journal of animal bioscience, .
Miar Y, Plastow G, Bruce H, Moore S, Manafiazar G, Kemp R, Charagu P, Huisman A, van Haandel B, Zhang C, McKay R, Wang Z (2014), Genetic and phenotypic correlations between performance traits with meat quality and carcass characteristics in commercial crossbred pigs, PloS one, 9 (10): e110105.
Iversen M W, Bolhuis J E, Camerlink I, Ursinus W W, Reimert I, Duijvesteijn N (2017), Heritability of the backtest response in piglets and its genetic correlations with production traits, Animal : an international journal of animal bioscience, 11 (4): 556-563.
Ramayo-Caldas Y, Mármol-Sánchez E, Ballester M, Sánchez JP, González-Prendes R, Amills M, Quintanilla R (2019), Integrating genome-wide co-association and gene expression to identify putative regulators and predictors of feed efficiency in pigs, Genetics, selection, evolution : GSE, 51(1): 48.
Kavlak AT, Uimari P (2019), Estimation of heritability of feeding behaviour traits and their correlation with production traits in Finnish Yorkshire pigs, Journal of animal breeding and genetics , .
Wang B, Li P, Zhou W, Gao C, Liu H, Li H, Niu P, Zhang Z, Li Q, Zhou J, Huang R (2019), Association of Twelve Candidate Gene Polymorphisms with the Intramuscular Fat Content and Average Backfat Thickness of Chinese Suhuai Pigs, Animals : an open access journal from MDPI, 9 (11): 858.
Jiao S, Maltecca C, Gray K A, Cassady J P (2014), Feed intake, average daily gain, feed efficiency, and real-time ultrasound traits in Duroc pigs: I. Genetic parameter estimation and accuracy of genomic prediction, Journal of animal science, 92 (6): 2377-86.
Lee JH, Song KD, Lee HK, Cho KH, Park HC, Park KD (2015), Genetic Parameters of Reproductive and Meat Quality Traits in Korean Berkshire Pigs, Asian-Australasian journal of animal sciences, 28 (10): 1388-93.
Saintilan R, Mérour I, Brossard L, Tribout T, Dourmad J Y, Sellier P, Bidanel J, van Milgen J, Gilbert H (2013), Genetics of residual feed intake in growing pigs: Relationships with production traits, and nitrogen and phosphorus excretion traits, Journal of animal science, 91 (6): 2542-54.
Lopez BIM, Song C, Seo K (2018), Genetic parameters and trends for production traits and their relationship with litter traits in Landrace and Yorkshire pigs, Animal science journal, 89 (10): 1381-1388.
Do D N, Strathe A B, Jensen J, Mark T, Kadarmideen H N (2013), Genetic parameters for different measures of feed efficiency and related traits in boars of three pig breeds, Journal of animal science, 91 (9): 4069-79.

 

 

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