Submit or Track your Manuscript LOG-IN

South Asian Journal of Life Sciences

 Research Article

Research Article

South Asian Journal of Life Sciences. 2 (1): 1 – 3

Seasonal Variations in Egg Quality and Yolk Cholesterol in Backyard and Cage Rearing Chicken

Sujatha Tamilvanan*, Vasantha Kumar, Robert Asha Rajini

    Division of Animal Science, Central Agricultural Research Institute, Port Blair, Andaman & Nicobar Islands, India – 744 101, Department of Poultry Science, Madras Veterinary College, Chennai

*Corresponding author:[email protected]

ARTICLE CITATION: Sujatha T, Kumar V and Rajini RA (2014). Sseasonal variations in egg quality and yolk cholesterol in backyard and cage rearing chicken. S. Asian j. life sci. 2 (1): 1 – 3.
Received: 2013–10–04, Revised: 2013–11–28, Accepted: 2013–12–17
The electronic version of this article is the complete one and can be found online at ( http://dx.doi.org/10.14737/journal.sajls/2014/2.1.1.3 ) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited

ABSTRACT

A study was conducted to compare the external and internal egg quality traits, egg composition and yolk cholesterol levels in the eggs of range reared rural birds, to that of urban backyard and commercial cage layer eggs. The rural, urban range and backyard reared birds laid 22–25% smaller eggs as compared to the commercial layer. Furthermore, commercial layers eggs contained higher albumen (62%) and lower yolk (23–28%) when compared with eggs of urban backyard raised birds (55% albumen and 35% yolk). From the above results, it is concluded that total cholesterol in the egg and cholesterol level/g yolk of the range reared rural (180 g and 13.4 g) and urban backyard birds (187 g and 13 g ) were lower when compared to that of commercial layer eggs.(207 g and 14 g). Eggs laid during the monsoon season had lower cholesterol level than those laid during summer. Hence it is inferred based on this study that an intake of cholesterol is comparatively less with consumption of eggs from range reared rural birds.

INTRODUCTION

Poultry eggs have been highly esteemed as a wholesome food with balanced nutritional properties. The high nutritional properties of eggs make them ideal for many people with special dietary requirements. Egg consumption is decreasing in developed countries due to the “cholesterol phobia” although there are definite studies proving that egg consumption and dietary cholesterol intakes are unrelated to either hyper cholesterol or coronary heart diseases (McNamara, 2002). All over the world and particularly in India, the demand for range reared chicken egg is increasing as people believe that these eggs are superior in yolk color as compared to farm reared chicken eggs. Therefore this study was planned to compare the external and internal egg quality traits, egg composition and yolk cholesterol levels in the eggs of range reared rural birds, to that of urban backyard and commercial cage layer eggs under winter and summer.

MATERIALS AND METHODS

A factorial experiment of three rearing systems in two seasons i.e. summer and winter was conducted using eggs from rural range reared birds, backyard urban birds and commercial chicken raised in cages. The eggs from rural poultry were collected from ten villages spread throughout the state of Tamilnadu, India while urban eggs from ten places around Chennai city in the state of Tamilnadu. The commercial eggs were taken from ten wholesale outlets located in Chennai city. 300 eggs each for rural, urban and commercial eggs were collected during each season, (monsoon and summer) comprising of a sum of 900 eggs per season.

90 eggs for each season (30 eggs for each rearing system) were randomly selected and these external and internal egg quality traits were studied. The percentage composition and the total yolk cholesterol of the eggs were measured the eggs where individually weighed by using an electronic balance to the nearest one tenth of a gram. The egg qualities were measured as described by Stadelman (1986).

The shells were washed to remove the sticking albumen and dried in a hot air oven at 110o ± 5oC overnight. After cooling, the shell thickness was measured at the equatorial region, narrow and broad ends by using a Shell thickness gauge to 0.01mm accuracy and the average shell thickness was calculated.

The albumen and yolk were separated and weighed individually using the same electronic balance. The egg shell with the shell membrane was later weighed. Based on the weight, the percent values of the same where calculated.

Representative samples of the yolk from the eggs were utilised for the calorimetric estimation of total yolk cholesterol using photo electric calorimeter. Yolk cholesterol was extracted and quantified, following the method of Washburn and Nix (1974), a modified procedure of Folch et al. (1956). All the data collected were subjected to analysis of variance for significance according to the methods of Snedecor and Cochran (1989) for a randomised block design. The significance was tested using Duncan’s multiple range test (Duncan, 1955).

RESULTS AND DISCUSSION

The egg laid by the cage raised commercial layer had a significant (P<0.01) higher weight and larger surface area than those of range raised and urban backyard birds. The rural range and urban backyard reared chicken eggs were 22–25% smaller and had 40 – 45 % better surface area when compared to the commercial layer eggs. The commercial layer birds are provided with a well–balanced nutrition and have been bred to provide larger eggs with a large surface area.

The effect of rearing system and season on the external egg quality traits and the interactions are presented in Table–1. The significantly higher value of albumen index and Haugh unit in eggs laid by the rural range and urban backyard birds when compared among themselves, indicates the freshness of eggs. The shell of the commercial layers egg were much significantly (P<0.01) thicker than the other two groups. These findings on albumen index and Haugh unit may be attributed to the place were the eggs are laid, the time of collection and delay in transport. The farm eggs due to delay in transport reaches the retail outlet much later while the urban backyard raised bird eggs were fresh. The finding of freshness with urban backyard raised egg agreed with the findings of Padhi et al. (1998). Season had a definite effect on all the internal egg qualities. Eggs laid during the monsoon season had significantly higher (P<0.01) albumen and yolk index, Haugh unit and thick shells. Environmental changes, such as high temperature, may result in the thinning of albumen, loss of elasticity in the vitelline membrane and ultimately flattening of yolk due to leakage of water from the albumen leaking into the yolk. The shell gets thinner during the summer due to disability of birds to meet out the requirement of calcium and bicarbonate ions. Interaction between rearing system x season was significant with albumen index and yolk index only. Eggs collected from the rural range and urban backyard raised birds during monsoon season had significantly higher (P<0.01) albumen index and yolk index. This could be attributed to the freshness of the eggs and a cooler environmental temperature.

Farm eggs had the highest percent of albumen and the lowest percent of yolk.The effect of rearing system and seasons on the egg composition has been summarized in Table–2. The eggs from the urban backyard reared birds had the highest percent of yolk, the same was observed by Chatterjee et al.(2007) and Yadav et al. (2009) while the range reared rural bird had the highest per cent of shell. Seasons did not have any effect on the percentcomponents of eggs. This agreed with the findings of Izat et al. (1986). The total yolk cholesterol, cholesterol per gram yolk and cholesterol per gram egg is summarized in Table–3. The overall mean values of total yolk cholesterol per gram yolk and cholesterol per gram egg exhibited significant (P<0.01) differences under different rearing systems and seasons while cholesterol per gram egg showed a significant difference (P<0.05) during different seasons. Total yolk cholesterol of eggs collected from rural bird raised on range gave significantly (P<0.01) lower cholesterol levels, while the cholesterol per gram yolk was found to be significantly (P<0.01) lower in the backyard raised urban bird egg. The cholesterol/g egg was significantly (P<0.01) lower in the cage reared commercial layer egg. The commercial layer egg had the highest yolk cholesterol level/egg. Although the per cent yolk was lowest, the total yolk weight of the commercial bird egg was higher than the other village and urban backyard and chicken. Eggs laid during the winter season had significantly (P<0.01) lower cholesterol in total yolk and in per gram of yolk. Correlations of yolk cholesterol with yolk and egg weight was studied and presented in (Table–4). Egg weight and yolk weight with total cholesterol had no significant correlation within rearing systems and seasons.

Kundu and Singh (1991) agreed with the present result that they observed a high yolk cholesterol level but low cholesterol / g egg in Rhode Island Red and the indigenous bird from range and the urban backyard birds lay a smaller egg compared to the hybrid layer raised under the intensive rearing system. Turk and Barnett (1971) also observed lower cholesterol concentrations in caged layer.,

McNaughton (1978) opined that the backyard raised urban bird had the lowest cholesterol/g yolk followed by the range reared rural bird Although genetics play an important role on cholesterol levels in the egg (Campo, 1995), the low cholesterol / g yolk of range reared and urban backyard birds might be Most probably due to consumption of the greens, kitchen wastes and herbs. Harris and Wilcox (1963) also observed that eggs collected during summer had the highest concentration of cholesterol / egg and cholesterol / g yolk as reported in the present study. During heat stress, an increase in plasma corticosteroid might have triggered triglyceride and cholesterol level in the blood and further, the lag period between clutches might have attributed to massive accumulation of cholesterol in eggs laid during summer. In contrary, Season did not show any significant correlations as per Ansah et al., (1985) and Kundu and Singh (1991).

CONCLUSION

Based on this study, it is inferred that we consume comparatively less cholesterol as we take eggs from range reared rural and backyard birds irrespective of summer and winter seasons.

REFERENCES

Ansah GA, Chan CW, Touchburn SP and Buckland RB (1985). Selection for low yolk cholesterol in Leghorn–type chickens. Poult.Sci. 64:1–6.
http://dx.doi.org/10.3382/ps.0640001

Campo JI (1995). Comparative yolk cholesterol content in four Spanish breeds of hens an F2 cross, and a White. Leghorn population. Poult. Sci.74: 1061–1067.
http://dx.doi.org/10.3382/ps.0741061
PMid:7479482

Chatterjee RN, Rai RB, Kundu A, Senani S and Sunder J (2007). Egg quality traits of indigenous breeds of chicken of Andaman and Nicobar Islands. Ind. Vet. J. 84: 206–208.

Duncan DB (1955). Multiple range and multiple "F" test. Biometrics, 1: 1.
http://dx.doi.org/10.2307/3001478

Folch J, Lees M and Stanley SH (1956). A simple method for the isolation and purification of total lipides from animal tissues. J.Biochem. 226: 497–505.

Harris PC and Wilcox FH (1963). Reducing shell egg cholesterol content. Overview, genetic approaches, and nutritional strategies. Poult. Sci.42:183–188

Izat AL, Gardner FA and Mellore DB (1986). The effect of age of bird and season of the year on egg quality. II. Haugh units and compositional attributes. Poult. Sci.65: 726–738.
http://dx.doi.org/10.3382/ps.0650726

Kundu A and Singh RP (1991). Egg yolk cholesterol in various avian species of commercial importance. Ind. J. Poult. Sci. 26: 152–155.

McNamara DJ (2002). Eggs, Plasma cholesterol and Heart Disease Risk. In: Eggs and Health Promotion. Ed. R.R.Watson. Lowa state press, 2121 State Avenue, Ames, Iowa. Pp. 71–81.

McNaughton JI (1978) . Effect of dietary fiber on egg yolk, liver, and plasma cholesterol concentrations of the laying hen.J. Nutr. 108, 1842–1848.
PMid:712428

Pathi MK, Rai RB, Senani S and Saha v (1998). Assessment of Egg quality in different breeds of chicken. Ind. J.poult.Sci. 33: 113–115

Snedecor GW and Cochran WG (1989). Statistical methods (8th Ed.) Iowa State University Press.

Stadelman WJ (1986). The preservation of quality in shell eggs. In W.J. Stadelman. O.J.Cotteril, Eds. Egg science and Tech. Avi.Publishing Corn Inc Westport, Connecticut, U.S.A

Turk DE and Barnett BD (1971). Cholesterol Content of Market Eggs. Poult. Sci. 50: 1303–1306.
http://dx.doi.org/10.3382/ps.0501303
PMid:5106713

Washburn KW and Nix DF (1974). Genetic basis of yolk cholesterol content. Poult. Sci. 53: 109–115.
http://dx.doi.org/10.3382/ps.0530109
PMid:4833026

Yadav SN, Kumar Y, Singh B, Ghosh AK and kaur N 2009. Evaluation of egg quality traits of chickens reared under backyard system in western Uttar Pradesh. Ind. J. Poult. Sci. 44: 261–262.

South Asian Journal of Life Sciences

December

S. Asian J. Life Sci., Vol. 12

Featuring

Click here for more

Subscribe Today

Receive free updates on new articles, opportunities and benefits


Subscribe Unsubscribe