Evaluation of Growth Functions on Japanese Quail Lines

Evaluation of Growth Functions on Japanese Quail Lines

The aim of present study was to fit the best predictive equation to describe the growth curve of different Japanese quail lines. Moreover the effect of short-term divergent selection on the growth curve parameters was investigated. The quail lines utilized in the current study were two divergently s...

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Bibliographic Details
Published in:The journal of poultry science Vol. 50; no. 1; pp. 20 - 27
Main Authors: Hamid Beiki, Abbas Pakdel, Mohammad Moradi-shahrbabak, Hossein Mehrban
Format: Journal Article
Language:English
Published: Japan Poultry Science Association 01-01-2013
Subjects:
divergent selection
growth curve
japanese quail
Online Access:Get full text
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Summary:The aim of present study was to fit the best predictive equation to describe the growth curve of different Japanese quail lines. Moreover the effect of short-term divergent selection on the growth curve parameters was investigated. The quail lines utilized in the current study were two divergently selected lines for high (HW) and low (LW) 4-wk body weight (BW) and a control line (C). Determination and adjusted determination coefficients, relative error mean and standard deviation, mean square error, Akaike’s information criteria and Schwarz Bayesian information criteria were used to evaluate the accuracy of prediction with the growth functions of Hyperbolastic (H1, H2, H3), Richards, Gompertz, Logistic and Von bertalanffy. Based on model behavior and statistical performance, the Gompertz and Logistic functions were not able to show a suitable fit for all three lines. The overall goodness of fit statistics in the HW line showed that the Richards function has the best fit to the data followed by H3, H2, H1, Von bertalanffy, Gompertz and Logistic functions, respectively. The overall results in the LW and C lines were similar to the HW line, except that Logistic function provided a better fit to the data than Gompertz. The study of growth pattern using Richards function revealed that short-term divergent selection altered the growth trajectory of selected lines through the changing of shape parameters and relative intensity of growth rates.
ISSN:1346-7395
1349-0486
DOI:10.2141/jpsa.0110142