Running...
Animal Trait Correlation Database

 Chicken Traits Phenotypic Correlations

Filters
Search: Species:
Value: Format:
Correlation type:
Extended information: data overview by all trait types
(Refer to Filter box on the top right for what's
displayed and options for what's to view)
Phenotypic Correlations:2,186

AFBMDBMWTBRMPBWCOMBLCOMBWCWDRESSPDRTHMPDRTHMWENESCESSESSTIFESTESshapeEWIFIFPMcoPOFNSKINPSKINWTSYFNYFN
ABFP0.93 -0.050.070.12 -0.100.05-0.25-0.05         0.33  0.250.29  
AF  0.22-0.11  0.140.41-0.14 0.26        0.27  0.410.42  
AFE -0.20         -0.072 -0.095   0.117        
AH             -0.10-0.03-0.070.110.15        
ATRFN                     0.02  0.12 
BMD    0.42                    0.22
BMWT       0.720.50          0.12  0.000.34  
BRMP  0.75    -0.050.58          0.02   -0.02  
COMBH     0.600.83                   
COMBL      0.64                   
COMBW                   -0.10      
CW    0.85 0.51 0.440.340.80        -0.08  0.120.52  
DRESSP                   0.10  0.160.23  
DRTHMP    0.34                     
DRTHMW    0.81              -0.10      
EN            -0.070.069   -0.099        
ESC                 0.13        
ESS               0.41 -0.057        
ESSTIF             0.30 0.26 0.06        
EST                 0.12        
ESshape             0.060.130.01 0.02        
IFP    -0.08                 -0.030.09  
MPH                    0.13     
POFN                        0.12 
RFI                  0.13       
SKINP    0.10                     
SKINWT    0.46                     
Hyperlinks on data to further details may be implemented in the near future.
For the current moment, please use Table View to explore further.
Query notes References
Cao H, Zhou W, Tan Y, Xu X, Mao H, Dong X, Xu N, Yin Z (2021), Chronological Expression of PITX2 and SIX1 Genes and the Association between Their Polymorphisms and Chicken Meat Quality Traits, Animals : an open access journal from MDPI, 11(2):445.
Francesch A, Estany J, Alfonso L, Iglesias M (1997), Genetic parameters for egg number, egg weight, and eggshell color in three Catalan poultry breeds, Poultry science, 76 (12): 1627-31.
Wen C, Yan W, Zheng J, Ji C, Zhang D, Sun C, Yang N (2018), Feed efficiency measures and their relationships with production and meat quality traits in slower growing broilers, Poultry science, 97 (7): 2356-2364.
Gervais O, Nirasawa K, Vincenot CE, Nagamine Y, Moriya K (2017), Long-term selection using a single trait criterion, non-destructive deformation, in White Leghorns: Effect over time on genetic parameters for traits related to egg production, Animal science journal, 88 (2): 222-230.
Jiang, M; Fan, W L; Xing, S Y; Wang, J; Li, P; Liu, R R; Li, Q H; Zheng, M Q; Cui, H X; Wen, J; Zhao, G P (2017), Effects of balanced selection for intramuscular fat and abdominal fat percentage and estimates of genetic parameters, Poult Sci, 96(2):282-287.
Shen M, Sun H, Qu L, Ma M, Dou T, Lu J, Guo J, Hu Y, Wang X, Li Y, Wang K, Yang N (2017), Genetic Architecture and Candidate Genes Identified for Follicle Number in Chicken, Scientific Reports, 7(1):16412.
Zerehdaran S, Vereijken A L J, van Arendonk J A M, van der Waaijt E H (2004), Estimation of genetic parameters for fat deposition and carcass traits in broilers, Poultry science, 83 (4): 521-5.
Blanco A E, Icken W, Ould-Ali D, Cavero D, Schmutz M (2014), Genetic parameters of egg quality traits on different pedigree layers with special focus on dynamic stiffness, Poultry science, 93 (10): 2457-63.
Shen M, Qu L, Ma M, Dou T, Lu J, Guo J, Hu Y, Yi G, Yuan J, Sun C, Wang K, Yang N (2016), Genome-Wide Association Studies for Comb Traits in Chickens, PloS one, 11 (7): e0159081.
Podisi B K, Knott S A, Dunn I C, Burt D W, Hocking P M (2012), Bone mineral density QTL at sexual maturity and end of lay, British poultry science, 53 (6): 763-9.

 

 

© 2003-2025: USA · USDA · NRPSP8 · Program to Accelerate Animal Genomics Applications. Contact: Bioinformatics Team