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Multicollinearity Problem and Bias Estimates in Japanese Quail

PJZ_50_2_757-761

 

 

Multicollinearity Problem and Bias Estimates in Japanese Quail

Mustafa Sahin1,*, Esra Yavuz1 and Fatih Uckardes2

1Department of Animal Production, Kahramanmaraş Sütçü İmam University, 46050 Kahramanmaraş, Turkey

2Department of Biostatistics and Medical Informatics, Basic Medical Sciences, Adiyaman University, 02040 Adiyaman, Turkey

ABSTRACT

The aim of this study is to estimate the albumen index value that is one of the interior egg quality traits using the Least Squares (LS), Ridge Regression (RR) and Principal Components Regression (PCR) methods. For this reason, eggs were collected from 20 to 24 weeks of age, non-selected and random-mated Japanese quails. In this study, we investigated the characteristics of egg external quality such as egg width (X1), egg length (X2), Haugh unit (X3), and shape index (X4). The impact of these variables on albumen index was analyzed. Due to the multicollinearity between independent variables, the standard errors and VIF values of the partial regression coefficients in the LS method were found to be quite high. Therefore, the RR and PCR methods were used as an alternative to LS. Compared with LS, PCR and RR led to small standard deviations and more accurate and more reliable partial regression coefficients. As a result, it was concluded that the use of RR and PCR analysis methods could be more accurate instead of the LS method under multicollinearity problem.


Article Information

Received 20 July 2017

Revised 23 October 2017

Accepted 30 December 2017

Available online 27 March 2018

Authors’ Contribution

MS, EY and FU designed the study. EY and MS collected the data while FU and EY analysed and interpreted the data. All the authors participated in writing the manuscript.

Key words

Multicollinearity, Ridge, Principal components, Least squares, Japanese quail.

DOI: http://dx.doi.org/10.17582/journal.pjz/2018.50.2.757.761

* Corresponding author: [email protected]

0030-9923/2018/0002-0757 $ 9.00/0

Copyright 2018 Zoological Society of Pakistan



Introduction

 

Regression analysis is widely used in many disciplines such as Agriculture, Medicine, and Social Sciences, etc. to explain the total variation in the dependent variable and to determine the independent variable or variables that affect the dependent variable. In particular, regression equations are widely used in examining the interrelationships between variables obtained in the field of animal husbandry (Baker et al., 1988; Pinto et al., 2006). In poultry breeding, the use of regression equations in evaluating the internal and external quality characteristics of eggs of chicken and Japanese quails is remarkably widespread (Baker et al., 1988; Mahmood et al., 2014). For example, the egg external quality characteristics such as egg weight, egg length, Haugh unit, and shape index are utilized to estimate the inner quality index of Japanese quail eggs. Thus, these values are used in estimating chick quality both in commercial and breeding stock of eggs (Marks, 1996).

In many studies on animal husbandry, high correlations between independent variables in multiple regression analysis lead to the nearly singular X’X matrix (Düzgüneş et al., 1987). In such cases, the estimates of the partial regression coefficients can logically be expected to be very large, with opposite signs and standard errors being very high. This is called a multicollinearity problem. Ridge regression (RR) and Principal Component Regression (PCR) are the techniques used to obtain more realistic estimates than the multicollinearity-sensitive Least Squares (LS) method (Ergüneş, 2004; Rathert et al., 2011; Üçkardeş et al., 2012).

In that regard, the aim of the present study is to estimate regression coefficients using the RR and PCR methods as an alternative to the LS method, considering that multicollinearity may be a problem in estimating the albumen index from the exterior quality characteristics of eggs.

 

Materials And Methods

Material

Eggs from randomly-mated 20-24-week-old Japanese quails were used in the current study. Quails were fed with starter concentrate containing 24% HP, 2900 kcal/kg ME for the first 3 weeks. Between the 4th and the 6th week, quails were fed with concentrate containing 20% HP, 2800 kcal/kg ME. After the 6th week, they were fed with concentrate containing 17% HP, 2700 kcal/kg ME. During the first 3 weeks, 23 h/day lighting was applied, in the following periods, 16 h lighting and 8 h darkness per day were applied. Eggs were weighed using a scale of 0.1 g sensitivity. The length measurements of eggs were taken with a digital caliper. Egg width (X1), egg length (X2), Haugh unit (X3), and shape index (X4) were analyzed. The albumen index (AI) was determined as described by Alkan et al. (2010).

Methods

Multiple regressions is one of the most commonly used methods to describe relationships between a dependent variable and a set of independent variables. The regression equation takes the following form:

Image67440844.PNG 

Where, Y is the vector of observations on the dependent variable, X is the matrix of observations on the explanatory variables, β is the vector of unknown parameters, and ε is the vector of randomly distributed errors.

The vector of partial regression coefficients in Equation 1 is estimated according to the following formula:

Image67440845.PNG 

The condition that this equation is valid is the non-singularity of the X’X matrix. If the X’X matrix, is close to singular, the estimated values obtained by the LS method are logically expected to be very different (usually very large and opposite), causing the variances to inflate and the parameters to become meaningless (Düzgüneş et al., 1987; Albayrak, 2005; Akdeniz and Erol, 2006).

Determination of multicollinearity

Multicollinearity exists when two or more of the predictors in a regression model are moderately or highly correlated. There are many indicators that reveal the existence of multicollinearity. These are respectively listed as follows:

Simple correlation coefficient

The correlation coefficient between the independent variables shows that there is a multicollinearity problem if its absolute value is close to 1 (Albayrak, 2005).

Variance inflation factor (VIF)

One of the most frequently used methods in determining the problem of multicollinearity is the variance inflation factor (VIF). In calculating the VIF values, the determination coefficients are utilized. VIF is given by the following formula:

Image67440845.PNG 

Where, R2j is the coefficient of determination between the jth independent variable and all other independent variables. If VIF ≥ 10, then multicollinearity is assumed (Albayrak, 2005).

Eigenvalues of the X’X matrix

The eigenvalues are defined as the variance explained in the eigenvectors. The eigenvalues of the X’X correlation matrix λ1, λ2, ……… λp obtained by the LS method are used to measure the degree of multicollinearity. Vinod and Ulah (1981) proposed a condition index (CI) based on the largest and smallest eigenvalues:

Image67440845.PNG 

If CI < 10, that means there is little multicollinearity, thus, a serious problem cannot be observed. Multicollinearity is medium-leveled if 10 ≤ CI ≤ 30, while CI > 30 indicates severe multicollinearity (Pagel and Lunneborg, 1985; Gujarati, 1995; Rathert et al., 2011).

Tolerance value

Another factor that is used in determining the multicollinearity is the tolerance value (TV) obtained by equality:

Image67440845.PNG 

The resulting TV value is caused by a larger VIF result. Hence, a small TV value implies the presence of multicollinearity (Albayrak, 2005).

Ridge regression

In the case of multicollinearity, the RR method proposed by Hoerl and Kennard (1970) is an alternative to the LS method. In the RR method, with a positive k bias constant to the diagonal X’X matrix of the equation 2 aims to find appropriate parameter values (Düzgüneş et al., 1987) .

Image67440845.PNG 

When the value of k is zero, the same parameter estimation values as in the LS are obtained. By increasing the value of k in the RR method, a biased estimate is obtained. However, there is a serious reduction in the value of variance.

The optimum k value of ridge estimator

The determination of the k bias constant for the RR model is based on eigenvalues. detected calculating. Many researchers have proposed various formulas to determine k value (Hoerl and Kennard, 1970; Lee and Campbell, 1985; Akdeniz and Erol, 2006). In this study, the following formula proposed by Kurtuluş (2001) was used in determining the optimum k value of Ridge Estimator.

Image67440845.PNG 

Principal component regression

In the case of multicollinearity among independent variables, instead of directly applying the Least Squares method, the variables created by factor analysis that are uncorrelated with each other can be used (Draper and Smith, 1998; Özkan, 2009). In the case of PCR, the estimation equation is obtained as:

Image67440846.PNG 

Where, Dq is the first qeigenvector matrix, and X’X; Ʌq represents the diagonal matrix for the first q eigenvectors of X’X (Al-Hassan and Al-Kassab, 2009). Here the smallest component causing multicollinearity is removed. Eigenvalues are used for this purpose. The component with the eigenvalue closest to zero is removed from the model.

To estimate inner egg quality variables outer egg quality traits LS, RR, and PCR were used; and to do that necessary calculations were performed with NCSS (2007) software Ver. 07.1.12.

 

Table I.- Descriptive statistics results.

Variables

n (min-max)

Mean ± SD

Albumen index, % (Y)

110 (4.77-6.88)

5.88±0.45

Egg width, mm (X1)

110 (18.82-30.25)

24.81±1.96

Egg length, mm (X2)

110 (26.34-38.45)

31.82±2.21

Haugh unit (X3)

110 (78.03-86.71)

82.34±1.61

Shape Index, % (X4)

110 (69.34-86.17)

77.99±4.05

SD, standart deviation.

 

Results and discussion

 

The descriptive statistical results of the parameters of egg internal and external quality are given in Table I. These results are consistent with those reported by Hrnčár et al. (2014). The results of the correlation matrix of the dependent and independent variables are given in Table II. Correlation analysis showed some relationships between the albumen index and independent variables. The albumen index and Haugh index were found to be positively and significantly correlated (r=0.734; P<0.01). It has been found that there was no significant correlation (P>0.05) between the albumen index and other independent variables. In the case of only independent variables, the correlation between egg length and egg width was high (r=0.762; P<0.01). The results obtained are summarized in Poyraz (1989), Akbaş et al. (1996), Alkan et al. (2010), Kul and Şeker (2004), and Rathert et al. (2011). Moreover, a significant positive correlation (P<0.01) was found between egg width and Haugh unit as well as egg width and shape index. These results are consistent with those of Kul and Şeker (2004), while Alkan et al. (2010) found that they were incompatible with their work.

Eigenvalues of correlations and condition index are given in Table III. The eigenvalue of PC4 was very close to zero and the condition index was bigger than 30 indicating that there was a serious multicollinearity problem in the LS model. These results are similar to presented by Üçkardeş et al. (2012).

 

Table II.- Correlation matrix of dependent and independent variables.

Variables

AI (Y)

EW (X1)

EL (X2)

HU (X3)

SI (X4)

AI (Y)

1

 

 

 

 

EW (X1)

-0.086ns

1

 

 

 

EL (X2)

-0.169ns

0.762**

1

 

 

HU (X3)

0.734**

0.420**

0.327**

1

 

SI (X4)

0.09ns

0.508**

-0.167ns

0.209*

1

EI, Albumen index; EW, egg width; EL, egg length; HU, Haugh unit; SI, shape index; ns, P>0.05; *, P<0.05; **, P<0.01.

 

Table III.- Eigenvalues of correlations and condition index in LS method.

No

Eigenvalue

Condition ındex

PC1

2.13

1

PC2

1.15

1.36

PC3

0.71

1.73

PC4ψ

0.0015

37.99

ψmulticollinearity.

 

The least square method, principal component regression and ridge regression values are given in Table IV. Multicollinearity was found in the parameters egg width (βˆ1), egg length (βˆ2) and shape index (βˆ4) through LS method. However, multicollinearity was not found in PCR and RR method.

 

Table IV.- Estimation equation of exterior egg quality characteristics received from LS, PCR and RR analyses standard errors, VIF and TV values.

 

LS

PCR

RR (k=0.02)

βˆ ± S (βˆ)

VIF

TV

βˆ ± S (βˆ)

VIF

TV

βˆ ± S (βˆ)

VIF

TV

βˆ0

-1.92±4.713ns

~

~

-12.12

~

~

-10.969

~

~

βˆ1

0.36±0.189ns

308.77

0.0032

-0.05±0.00

0.361

0.021

-0.02±0.015

1.8

0.00

βˆ2

-0.38±0.146*

236.11

0.004

-0.05±0.00

0.484

0.055

-0.07±0.013

1.5

0.00

βˆ3

0.26±0.014**

1.218

0.821

0.26±0.014

1.215

1.215

0.253±0.014

1.1

0.82

βˆ4

-0.13±0.060*

133.28

0.0075

-0.00±0.004

0.680

0.768

-0.01±0.006

1.2

0.0

*, P<0.05; **, P<0.01; ns~, not revealed; LS, least square; PCR, principal component regression; RR, ridge regression; VIF, variance inflation factor; TV, tolerance value.

 

The VIF values for the parameters egg width (βˆ1), egg length (βˆ2) and shape index (βˆ4) were found to be very high in the LS method. Likewise, the results in Table IV indicated that standard errors of LS regression parameters were too high. Whereas, The VIF values of these parameters were found close to one in the PCR and the RR methods. And also, standard errors of regression parameters of PCR and RR methods were too low. These results are consistent with those of Aktan (2004), Rathert et al. (2011) and Üçkardeş et al. (2012). The measures of goodness of fit values (R2) of LS, PCR and RR are given in Table V. These values of estimation equation received from LS, PCR, and RR methods were very near to each other (76.8%, 75.7%, and 73.8%, respectively).

As a result, in this study, parameter estimates, variance inflation factor, and tolerance values were obtained using the LS, PCR ,and RR, methods. All three models including independent variables that affect the albumen index were examined in a comparative way.

 

Table V.- Results of regression determination coefficient, mean square errors, and ANOVA test obtained by LS, PCR and RR methods.

Variables

R2

MSE

ANOVA F

P

LS

0.77

0.22

86.98

0.00

PCR

0.78

0.05

81.89

0.00

RR

0.74

0.05

73.94

0.00

LS, least square; PCR, principal component regression; RR, ridge regression; R2, determination coefficient; MSE, mean square errors.

 

Conclusion

 

In the present study, the variance inflation factors obtained using the Least Squares method were very high, whereas those resulting from Ridge Regression and Principal Components Regression were very low. This clearly demonstrated the existence of multicollinearity for the LS method. The application of the RR or PCR estimators from the biased estimation methods gave more consistent and safer results instead of the regression equation generated by the LS method. Particularly, when we compared the RR and PCR methods, which are predominantly biased estimators, we concluded that the RR and PCR methods are better than the LS in terms of the determination coefficient and mean square errors. As a result, PCR and RR lead to more accurate and more reliable estimation equations than LS method.

 

Statement of conflict of interest

We declare that we have no conflict of interest.

 

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Pakistan Journal of Zoology

October

Pakistan J. Zool., Vol. 56, Iss. 5, pp. 2001-2500

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