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Animal Trait Correlation Database

 Cattle Traits Genetic Correlations

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Environment Correlations:20
Genetic Correlations:110
Phenotypic Correlations:32
Residual Correlations:8

SpeciesTrait ATrait BCorrelationsTest statisticsCorrelation typeReference
CattlePL SCRCIR 0.01  Genetic
CattlePRODAM SCRCIR 0.08  Genetic
CattleBWG SCRCIR 0.23  Genetic
CattlePL SCRCIR 0.19  Genetic
CattlePRODAM SCRCIR 0.30  Genetic
CattleBWG SCRCIR 0.66  Genetic
CattlePUBAGE SCRCIR -0.32  Genetic
CattleSCRCIR SUBFAT 0.19 p<0.05Genetic
CattleBCS SCRCIR -0.13  Genetic
CattleSCRCIR HEIGHT -0.08  Genetic
CattleSCRCIR SUBFAT 0.15  Genetic
CattleDCALV SCRCIR -0.06  Genetic
CattleSCRCIR SUBFAT 0.17  Genetic
CattleRFI SCRCIR 0.07  Genetic
CattleSCRCIR FEEDIN 0.33 p<0.05Genetic
CattleSCRCIR HEIGHT 0.16 p<0.05Genetic
CattleMBW SCRCIR 0.31  Genetic
CattleFCR SCRCIR 0.06  Genetic
CattleRFI SCRCIR 0.15  Genetic
CattleIMF SCRCIR -0.12  Genetic
CattleLMA SCRCIR 0.05  Genetic
CattleADG SCRCIR 0.24 p<0.05Genetic
CattleSCRCIR TSTHY -0.53  Genetic
CattleMARBL SCRCIR 0.01  Genetic
CattleHPG SCRCIR 0.05  Genetic
CattleIMF SCRCIR 0.05  Genetic
CattleAGEFC SCRCIR -0.45  Genetic
CattleSCRCIR STAY 0.12  Genetic
CattleSCRCIR BW 0.40  Genetic
CattleSUBFAT SCRCIR 0.05  Genetic
CattleSCRCIR BW 0.03  Genetic
CattleSCRCIR BW 0.74  Genetic
CattleSCRCIR HEIGHT 0.19  Genetic
CattleSCRCIR SUBFAT 0.31  Genetic
CattleAGEFC SCRCIR -0.46  Genetic
CattleSUBFAT SCRCIR 0.01  Genetic
CattleLMA SCRCIR 0.31  Genetic
CattleLMA SCRCIR 0.33  Genetic
CattleAGEFC SCRCIR -0.50  Genetic
CattleSCRCIR SUBFAT 0.25  Genetic
CattleSCRCIR SCRCIR 0.94  Genetic
CattleBW SCRCIR 0.39 p<0.05Genetic
CattleBW SCRCIR 0.46 p<0.05Genetic
CattleBW SCRCIR 0.39 p<0.05Genetic
CattleBW SCRCIR 0.46 p<0.05Genetic
CattleSTAY SCRCIR 0.55 p<0.05Genetic
CattleLMA SCRCIR 0.29  Genetic
CattleBW SCRCIR 0.55 p<0.05Genetic
CattleAGEFC SCRCIR -0.56 p<0.05Genetic
CattleBW SCRCIR 0.54 p<0.05Genetic
CattleLMA SCRCIR 0.34  Genetic
CattleSUBFAT SCRCIR 0.12  Genetic
CattleSUBFAT SCRCIR 0.26  Genetic
CattleSUBFAT SCRCIR 0.16  Genetic
CattleBW SCRCIR 0.46 p<0.05Genetic
CattleBW SCRCIR 0.48 p<0.05Genetic
CattleSTAY SCRCIR 0.52 p<0.05Genetic
CattleGLENGTH SCRCIR 0.31  Genetic
CattleSUBFAT SCRCIR 0.20  Genetic
CattleGLENGTH SCRCIR 0.05  Genetic
CattleAGEFC SCRCIR -0.35  Genetic
CattleSCRCIR SCRCIR 0.96 p<0.05Genetic
CattleAGEFC SCRCIR 0.10  Genetic
CattleAGEFC SCRCIR 0.06  Genetic
CattleAGEFC SCRCIR -0.13  Genetic
CattleAGEFC SCRCIR -0.13  Genetic
CattleDMI SCRCIR 0.45  Genetic
CattleBW SCRCIR 0.66  Genetic
CattleBW SCRCIR 0.65  Genetic
CattleBW SCRCIR 0.64  Genetic
CattleBW SCRCIR 0.51  Genetic
CattleRFI SCRCIR 0.03  Genetic
CattleBW SCRCIR 0.50  Genetic
CattleSCRCIR SCRCIR 0.90  Genetic
CattleBW SCRCIR 0.50  Genetic
CattleRFI SCRCIR 0.04  Genetic
CattleBW SCRCIR 0.62  Genetic
CattleBW SCRCIR 0.50  Genetic
CattleDMI SCRCIR 0.36  Genetic
CattleLMA SCRCIR 0.35  Genetic
CattleSUBFAT SCRCIR 0.13  Genetic
CattleLMA SCRCIR 0.36  Genetic
CattlePRODAM SCRCIR 0.62  Genetic
CattleSUBFAT SCRCIR 0.02  Genetic
CattleSTAY SCRCIR 0.33  Genetic
CattlePRODAM SCRCIR 0.61  Genetic
CattleSCRCIR SCRCIR 0.91  Genetic
CattleSUBFAT SCRCIR 0.10  Genetic
CattleAGEFC SCRCIR -0.38  Genetic
CattleSUBFAT SCRCIR 0.06  Genetic
CattleSTAY SCRCIR 0.26  Genetic
CattleAGEFC SCRCIR -0.24  Genetic
CattleSUBFAT SCRCIR 0.17  Genetic
CattleSUBFAT SCRCIR 0.11  Genetic
CattleSUBFAT SCRCIR 0.05  Genetic
CattleSUBFAT SCRCIR -0.18  Genetic
CattleLMA SCRCIR 0.24  Genetic
CattleSUBFAT SCRCIR -0.19  Genetic
CattleSUBFAT SCRCIR 0.17  Genetic
CattleLMA SCRCIR 0.00  Genetic
CattleLMA SCRCIR 0.28  Genetic
CattleSCRCIR BW 0.65  Genetic
CattleSCRCIR HEIGHT 0.46  Genetic
CattleSCRCIR BW 0.61  Genetic
CattleSCRCIR BODYCIR 0.61  Genetic
CattleSCRCIR BW 0.64  Genetic
CattleSCRCIR HEIGHT 0.44  Genetic
CattleSCRCIR BW 0.57  Genetic
CattleSCRCIR BODYCIR 0.58  Genetic
CattleSCRCIR OFSPN 0.268  Genetic
Query notes References
Schenkel FS, Miller SP, Wilton JW (2004), Genetic parameters and breed differences for feed efficiency, growth, and body composition traits of young beef bulls, Can J Anim Sci, 84:177-185.
Buzanskas ME, Pires PS, Chud TCS, Bernardes PA, Rola LD, Savegnago RP, Lôbo RB, Munari DP (2017), Parameter estimates for reproductive and carcass traits in Nelore beef cattle, Theriogenology, 92: 204-209.
Santana M L, Eler J P, Bignardi A B, Ferraz J B S (2013), Genetic associations among average annual productivity, growth traits, and stayability: a parallel between Nelore and composite beef cattle, Journal of animal science, 91 (6): 2566-74.
Vargas, CA; Elzo, MA; Chase, CC; Chenoweth, PJ; Olson, TA (1998), Estimation of genetic parameters for scrotal circumference, age at puberty in heifers, and hip height in Brahman cattle., Journal of animal science, 76 (10): 2536-41.
McAllister CM, Speidel SE, Crews Jr DH, Enns RM (2011), Genetic Parameters for Intramuscular Fat Percentage, Marbling Score, Scrotal Circumference, and Heifer Pregnancy in Red Angus Cattle, J Anim Sci, 89(7):2068-72.
Costa EV, Ventura HT, Veroneze R, Silva FF, Pereira MA, Lopes PS (2020), Estimated genetic associations among reproductive traits in Nellore cattle using Bayesian analysis, Animal reproduction science, 214: 106305.
Ferreira Júnior RJ, Bonilha SFM, Monteiro FM, Cyrillo JNSG, Branco RH, Silva JAIV, Mercadante MEZ (2018), Evidence of negative relationship between female fertility and feed efficiency in Nellore cattle., Journal of animal science, .
Pereira LS, Brunes LC, Baldi F, do Carmo AS, Soares BB, Magnabosco V, da Costa Eifert E, Magnabosco CU (2023), Genetic association between feed efficiency, growth, scrotal circumference, and carcass traits in Guzerat cattle, Tropical animal health and production, 55(2): 132.
Yokoo M J, Lobo R B, Araujo F R C, Bezerra L A F, Sainz R D, Albuquerque L G (2010), Genetic associations between carcass traits measured by real-time ultrasound and scrotal circumference and growth traits in Nelore cattle, Journal of animal science, 88(1): 52-8.
Grossi D A, Venturini G C, Paz C C P, Bezerra L A F, Lôbo R B, Oliveira J A, Munari D P (2009), Genetic associations between age at first calving and heifer body weight and scrotal circumference in Nelore cattle, Journal of animal breeding and genetics , 126(5): 387-93.
Neves HHR, Vargas G, Brito LF, Schenkel FS, Albuquerque LG, Carvalheiro R (2019), Genetic and genomic analyses of testicular hypoplasia in Nellore cattle, PloS one, 14(1): e0211159.
Mamede M M S, Rosa G J M, Eifert E C, Lopes F B, Baldi F, Costa M F, Sainz R D, Carmo A S, Mascioli A S, Magnabosco C U (2023), Estimating genetic parameters of reproductive, carcass, and meat quality traits in Polled Nellore cattle, Tropical animal health and production, 55(2): 119.
Lacerda V V, Campos G S, Roso V M, Souza F R P, Brauner C C, Boligon A A (2018), Effect of mature size and body condition of Nelore females on the reproductive performance, Theriogenology, 118: 27-33.
Bessa AFO, Duarte INH, Rola LD, Bernardes PA, Gonzaga Neto S, Lôbo RB, Munari DP, Buzanskas ME (2021), Genetic evaluation for reproductive and productive traits in Brahman cattle, Theriogenology, 173: 261-268.
Portes JV, Rodrigues GRD, de Vasconcellos Silva JAI, de Paula Freitas A, Mercadante MEZ, Bonilha SFM, Canesin RC, Valente JPS, Cyrillo JNDSG (2024), Effects of inbreeding on production traits and genetic evaluations in Guzerá beef cattle raised under tropical conditions, Tropical animal health and production, 56(4):132.
Russell Chad A, Pollak E John, Spangler Matthew L (2021), Genetic parameter estimates for bull prolificacy and its relationship with scrotal circumference in a commercial beef cattle population, Translational animal science, 5(3): txab128.

 

 

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