Genetic Parameter Estimates of Growth Curve and Feed Efficiency Traits in Japanese Quail

Genetic Parameter Estimates of Growth Curve and Feed Efficiency Traits in Japanese Quail

This study aimed to estimate heritabilities for weekly body weight traits, the Gompertz growth curve parameters, and feed efficiency characteristics, as well as genetic correlations among characteristics. A total of 700 Japanese quails with pedigree records were used in this study. Body weight and f...

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Bibliographic Details
Published in:Animals (Basel) Vol. 13; no. 11; p. 1765
Main Authors: Kaya Başar, Ebru, Narinç, Doğan
Format: Journal Article
Language:English
Published: Basel MDPI AG 26-05-2023
MDPI
Subjects:
Analysis
Asymptotic properties
Bayesian analysis
Bayesian inference
Body weight
Costs (Law)
Covariance matrix
Efficiency
Eggs
Estimates
Feed conversion
feed conversion efficiency
Feed efficiency
Feeds
genetic correlation
Genetic relationship
Gompertz growth model
Growth
Growth models
Heritability
Humidity
Livestock
Normal distribution
Parameter estimation
Poultry
Quails
Wildfowl
Japan
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Summary:This study aimed to estimate heritabilities for weekly body weight traits, the Gompertz growth curve parameters, and feed efficiency characteristics, as well as genetic correlations among characteristics. A total of 700 Japanese quails with pedigree records were used in this study. Body weight and feed consumption were measured individually on a weekly basis. Using weekly body weight data, the growth model parameters were estimated for each bird using the Gompertz nonlinear regression model. Multi-trait variance-covariance matrices were obtained with Bayesian inference using the Gibbs sampler. While estimates of high heritability (0.59 to 0.61) were found for weekly body weight traits, estimates of moderate heritability (0.23 to 0.37) were determined for feed intake and feed conversion efficiency traits. The estimated heritabilities for the parameters of the Gompertz model and inflection point coordinates were moderate (0.37 to 0.47). While genetic correlations between feed intake and body weight characteristics were positive and moderate (0.28 to 0.49), the genetic correlations between feed conversion efficiency and body weight traits were positive and strong (0.52 to 0.83). It has been concluded that the moderate negative genetic relationship between feed conversion efficiency and body weight may constrain selection studies. Due to the weak genetic correlation between the asymptotic body weight parameter of the Gompertz model and the feed conversion efficiency, it is thought that the total genetic gain will be greater if the mature weight parameter is also used as a selection criterion in genetic improvement studies.
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ISSN:2076-2615
2076-2615
DOI:10.3390/ani13111765