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Animal Trait Correlation Database

 Pig Traits Genetic Correlations

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Genetic Correlations:291
Phenotypic Correlations:692

SpeciesTrait ATrait BCorrelationsTest statisticsCorrelation typeReference
PigFEEDCON ADG -0.21  Genetic
PigIMF ADG 0.24  Genetic
PigRFI ADG -0.05  Genetic
PigLMDEP ADG -0.21  Genetic
PigADG FEEDIN 0.32  Genetic
PigADG RFI 0.07  Genetic
PigADG FEEDCON -0.51  Genetic
PigADG RFI 0.16  Genetic
PigADG FEEDCON -0.39  Genetic
PigADG RFI 0.09  Genetic
PigADG FEEDCON -0.09  Genetic
PigADG RFI -0.05  Genetic
PigADG FEEDCON -0.42  Genetic
PigADG PEXCR -0.49  Genetic
PigADG PEXC -0.55  Genetic
PigADG NEXCR -0.46  Genetic
PigADG NEXC -0.55  Genetic
PigADG PEXCR -0.36  Genetic
PigADG PEXC -0.50  Genetic
PigADG NEXCR -0.29  Genetic
PigADG NEXC -0.46  Genetic
PigADG PEXCR -0.09  Genetic
PigADG PEXC -0.21  Genetic
PigADG NEXCR -0.05  Genetic
PigADG NEXC -0.19  Genetic
PigADG PEXCR -0.40  Genetic
PigADG PEXC -0.56  Genetic
PigADG NEXCR -0.32  Genetic
PigADG NEXC -0.51  Genetic
PigADG FEEDCON -0.19  Genetic
PigADG CWT 0.78 p<0.05Genetic
PigADG SUBCFAT 0.01  Genetic
PigADG RIBWT 0.73 p<0.05Genetic
PigADG BOSTWT 0.74 p<0.05Genetic
PigADG HCWT 0.75 p<0.05Genetic
PigADG LMDEP -0.10  Genetic
PigADG CRCL 0.44  Genetic
PigADG MARB 0.05  Genetic
PigADG LMA 0.10  Genetic
PigADG FIRM -0.36  Genetic
PigADG MPH 0.19  Genetic
PigADG COOKL 0.25  Genetic
PigADG SHEAR 0.10  Genetic
PigADG DRIPL 0.07  Genetic
PigADG BONEWT 0.43 p<0.05Genetic
PigADG SCFW -0.15  Genetic
PigADG LOINWT 0.52 p<0.05Genetic
PigADG LMA -0.08  Genetic
PigADG HCWT 0.11  Genetic
PigADG LOINLENGTH -0.05  Genetic
PigADG CRCL -0.07  Genetic
PigADG IMF 0.19  Genetic
PigADG TVNUM -0.03  Genetic
PigADG TLVNUM -0.08  Genetic
PigADG LVNUM -0.28  Genetic
PigADG SUBCFAT 0.35  Genetic
PigADG CRCW -0.02  Genetic
PigD100 ADG -1.00  Genetic
PigADG MFR -0.12  Genetic
PigADG SUBCFAT -0.10  Genetic
PigADG CRCL -0.07  Genetic
PigADG MFR -0.41  Genetic
PigADG SUBCFAT -0.35  Genetic
PigADG CRCL 0.42  Genetic
PigADG MFR -0.31  Genetic
PigADG SUBCFAT -0.36  Genetic
PigADG CRCL 0.31  Genetic
PigADG LEANP -0.07  Genetic
PigADG D90 -0.98  Genetic
PigADG LMA -0.40  Genetic
PigADG OFSPN -0.16  Genetic
PigADG LEANP -0.12  Genetic
PigADG D90 -0.98  Genetic
PigADG LMA -0.39  Genetic
PigADG SUBCFAT -0.02  Genetic
PigADG OFSPN -0.18  Genetic
PigLATVB ADG 0.27  Genetic
PigLATSTB ADG 0.28  Genetic
PigLATSTB ADG -0.15  Genetic
PigNVOCBT ADG -0.02  Genetic
PigLATVB ADG -0.03  Genetic
PigADG RFI 0.17  Genetic
PigADG FEEFF 0.30  Genetic
PigADG 10thribBFL 0.45  Genetic
PigADG LMA 0.16  Genetic
PigADG IMF 0.38  Genetic
PigADG COOKL 0.10  Genetic
PigADG MCOLL 0.04  Genetic
PigADG DRIPL -0.14  Genetic
PigADG IMF 0.25  Genetic
PigADG IMPED -0.28  Genetic
PigADG MPH 0.24  Genetic
PigADG TEND -0.44  Genetic
PigADG MCOL -0.33  Genetic
PigADG MCOL 0.33  Genetic
PigADG PFLLEAN 0.88  Genetic
PigADG IMF 0.27  Genetic
PigADG OVIM -0.17  Genetic
PigADG SUBCFAT 0.43  Genetic
PigADG TEND 0.00  Genetic
PigADG MMP -0.28  Genetic
PigADG SHEAR -0.27  Genetic
PigADG WHC -0.55  Genetic
PigADG SUBCFAT 0.28  Genetic
PigADG LMA -0.18  Genetic
PigADG JUICE -0.50  Genetic
PigADG FEEDCON -0.520  Genetic
PigADG DRESS% 0.219 p<0.0001Genetic
PigADG FEEDCON -0.261 p<0.01Genetic
PigADG FEEDIN 0.771 p<0.01Genetic
PigADG LEANP -0.295 p<0.0001Genetic
PigADG HCWT 0.927 p<0.0001Genetic
PigADG RFI 0.011  Genetic
PigADG IMF 0.402 p<0.0001Genetic
PigADG FEEDCON 0.37  Genetic
PigADG FEEDIN 0.67  Genetic
PigADG RFI 0.63  Genetic
PigADG SUBCFAT 0.37  Genetic
PigADG FEEDT 0.00  Genetic
PigADG AFR 0.38  Genetic
PigADG FEEDIN 0.17  Genetic
PigADG FEEDT -0.04  Genetic
PigADG NVIS -0.03  Genetic
PigADG FEEDT 0.10  Genetic
PigADG AFR 0.30  Genetic
PigADG FEEDIN 0.29  Genetic
PigADG FEEDT 0.23  Genetic
PigADG NVIS -0.04  Genetic
PigADG FEEDT 0.12  Genetic
PigADG AFR 0.29  Genetic
PigADG FEEDIN 0.32  Genetic
PigADG FEEDT 0.19  Genetic
PigADG NVIS -0.10  Genetic
PigADG FEEDIN 0.88  Genetic
PigADG FEEDT 0.26  Genetic
PigADG AFR 0.31  Genetic
PigADG FEEDIN 0.22  Genetic
PigADG FEEDT 0.23  Genetic
PigADG NVIS -0.08  Genetic
PigADG FEEDT 0.33  Genetic
PigADG AFR 0.30  Genetic
PigADG FEEDIN 0.46  Genetic
PigADG FEEDT 0.31  Genetic
PigADG LEANP 0.34  Genetic
PigADG LEANP 0.20  Genetic
PigADG OFSPN 0.29  Genetic
PigADG SKAT -0.10  Genetic
PigADG ANDR -0.06  Genetic
PigADG INDO -0.02  Genetic
PigADG ABODOR -0.07  Genetic
PigADG SUBCFAT -0.01  Genetic
PigADG D105 -0.97  Genetic
PigADG SUBCFAT 0.00  Genetic
PigADG D105 -0.97  Genetic
PigADG SUBCFAT 0.04  Genetic
PigADG D105 -0.97  Genetic
PigNSTBT ADG -0.03  Genetic
PigHEIGHT ADG 0.77  Genetic
PigAFR ADG 0.28  Genetic
PigFEEDIN ADG 0.96  Genetic
PigADG TNUM 0.07  Genetic
PigADG SUBCFAT 0.10  Genetic
PigADG FEEDT -0.22  Genetic
PigADG FEEDIN 0.60  Genetic
PigADG TNUM 0.02  Genetic
PigADG FEEDT -0.26  Genetic
PigADG SUBCFAT 0.57  Genetic
PigADG FEEDIN -0.10  Genetic
PigADG SUBCFAT 0.13  Genetic
PigADG BW -0.68  Genetic
PigADG SHOUWT 0.35 p<0.05Genetic
PigADG BW 0.87 p<0.05Genetic
PigCANNON ADG 1.00  Genetic
PigNSTBT ADG 0.13  Genetic
PigNVOCBT ADG -0.11  Genetic
PigADG IGF1 0.22  Genetic
PigADG IGF1 0.26  Genetic
PigD30 ADG -1.00  Genetic
PigLMDEP ADG 0.28  Genetic
PigD100 ADG -0.92  Genetic
Query notes References
Suzuki K, Irie M, Kadowaki H, Shibata T, Kumagai M, Nishida A (2005), Genetic parameter estimates of meat quality traits in Duroc pigs selected for average daily gain, longissimus muscle area, backfat thickness, and intramuscular fat content, Journal of animal science, 83 (9): 2058-65.
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.
Windig J J, Mulder H A, Ten Napel J, Knol E F, Mathur P K, Crump R E (2012), Genetic parameters for androstenone, skatole, indole, and human nose scores as measures of boar taint and their relationship with finishing traits, Journal of animal science, 90 (7): 2120-9.
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.
Bereskin B (1986), A genetic analysis of feed conversion efficiency and associated traits in swine, Journal of animal science, 62 (4): 910-7.
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.
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.
Li W, Wang Z, Luo S, Wu J, Zhou L, Liu J (2022), Genome-Wide Association Analysis and Genetic Parameters for Feed Efficiency and Related Traits in Yorkshire and Duroc Pigs, Animals : an open access journal from MDPI, 12(15):1902.
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 , .
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.
Yang R, Guo X, Zhu D, Tan C, Bian C, Ren J, Huang Z, Zhao Y, Cai G, Liu D, Wu Z, Wang Y, Li N, Hu X (2021), Accelerated deciphering of the genetic architecture of agricultural economic traits in pigs using a low-coverage whole-genome sequencing strategy, GigaScience, 10(7):giab048.
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.
Cai W, Casey D S, Dekkers J C M (2008), Selection response and genetic parameters for residual feed intake in Yorkshire swine, Journal of animal science, 86 (2): 287-98.
Zhou S, Ding R, Meng F, Wang X, Zhuang Z, Quan J, Geng Q, Wu J, Zheng E, Wu Z, Yang J, Yang J (2021), A meta-analysis of genome-wide association studies for average daily gain and lean meat percentage in two Duroc pig populations, BMC genomics, 22 (1): 12.
Alam M, Chang HK, Lee SS, Choi TJ (2021), Genetic Analysis of Major Production and Reproduction Traits of Korean Duroc, Landrace and Yorkshire Pigs, Animals, 11(5):1321.
Ogawa S, Ohnishi C, Ishii K, Uemoto Y, Satoh M (2020), Genetic relationship between litter size traits at birth and body measurement and production traits in purebred Duroc pigs, Animal science journal, 91 (1): e13497.

 

 

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