Thumbnail Image

Anand Agricultural University, Anand

Anand Agricultural University (AAU) was established in 2004 at Anand with the support of the Government of Gujarat, Act No.(Guj 5 of 2004) dated April 29, 2004. Caved out of the erstwhile Gujarat Agricultural University (GAU), the dream institution of Sardar Vallabhbhai Patel and Dr. K. M. Munshi, the AAU was set up to provide support to the farming community in three facets namely education, research and extension activities in Agriculture, Horticulture Engineering, product Processing and Home Science. At present there seven Colleges, seventeen Research Centers and six Extension Education Institute working in nine districts of Gujarat namely Ahmedabad, Anand, Dahod, Kheda, Panchmahal, Vadodara, Mahisagar, Botad and Chhotaudepur AAU's activities have expanded to span newer commodity sectors such as soil health card, bio-diesel, medicinal plants apart from the mandatory ones like rice, maize, tobacco, vegetable crops, fruit crops, forage crops, animal breeding, nutrition and dairy products etc. the core of AAU's operating philosophy however, continues to create the partnership between the rural people and committed academic as the basic for sustainable rural development. In pursuing its various programmes AAU's overall mission is to promote sustainable growth and economic independence in rural society. AAU aims to do this through education, research and extension education. Thus, AAU works towards the empowerment of the farmers.

Browse

20131
Reset filters
Subject: Animal Genetics and Breeding × End date: 2014 × Start date: 2012 × Type: Thesis × Thesis Type: M.V.Sc. ×
Reset filters

Search Results

Now showing 1 - 1 of 1
  • Thumbnail Image
    ThesisItemOpen Access
    GENETIC STUDY OF PARTIAL AND FULL RECORD OF TWO STRAINS OF WHITE LEGHORN CHICKEN
    (AAU, Anand, 2013) Meshram, Anushree Yuwraj; Joshi, R. S.
    The present study was undertaken to investigate inheritance and association of various economic traits in IWN and IWP strains of White Leghorn which has completed nine generations of Osborne Index selection for improvement of egg production. A total of 849 and 862 pullets of IWN and IWP strains, were generated by mating of 50 sires and 300 dams of each of the two strains and were maintained under All India Coordinated Research Project on Poultry Breeding at the Department of Poultry Science, College of Veterinary Science and Animal husbandry, Anand Agricultural University Anand. Various traits like body weight (BW) in g at 16, 20, 40, 56, 64 and 72 weeks of age, age at first egg (AFE) in days, total egg number produced up to 40, 56, 64 and 72 weeks of age (TEN), egg weight (EW) in g at 28, 40, 56, 64 and 72 week of age, total egg mass produced up to 40, 56, 64 and 72 weeks (TEM) in kg, feed consumption per dozen of egg (FCDE) produced (kg) and feed consumption per kilo of eggs (FCKE) produced (kg) upto various stages were measured for estimation of Least Squares Means (LSMs), heritability (h2), genetic and phenotypic correlations and genetic gain in the egg production . [The least squares means for body weight (g) at 16, 20, 40, 56, 64 and 72 weeks of age were 978.21 ± 7.00, 1250.47 ± 4.55, 1412.59 ± 7.93, 1462.98 ± 9.41, 1477.26 ± 6.81 and 1526.05 ± 9.60g for IWN strain and 1000.84 ± 5.61, 1280.41 ± 6.14, 1483.76 ± 8.48, 1543.62 ± 9.94, 1534.44 ± 10.97 and 1616.10 ± 12.82g for IWP strain, respectively. The body weight at all stages were significantly (P<0.05) higher in IWP strain as compared to IWN strain. Least squares means for AFE (days) were found to be 134.50 ± 0.78 and 138.13 ± 0.59 days in IWN and IWP strains, respectively. Age at first egg was significantly earlier (P<0.05) in IWN than IWP strain.) The LSMs for total egg number produced up to 40, 56, 64 and 72 weeks of age were 119.26 ± 1.03, 210.51 ± 1.03, 251.75 ± 1.56 and 286.39 ± 1.42 eggs in IWN and 115.55 ± 0.79, 205.69 ± 1.33, 243.59 ± 1.35 and 277.70 ± 1.53 eggs in IWP strain, respectively. IWN strain has produced significantly (P<0.05) more eggs number than IWP strain during all stages. The least squares means for egg weight (g) at 28, 40, 56, 64 and 72 weeks of age were 44.84 ± 0.15, 50.36 ± 0.13, 51.68 ± 0.15, 51.62 ± 0.13 and 52.01 ± 0.12g for IWN strain and 46.26 ± 0.12, 52.52 ± 0.12, 53.48 ± 0.15, 53.57 ± 0.15 and 54.51 ± 0.14g for IWP strain, respectively. The mean egg weight recorded at all ages were significantly (P<0.05) higher in IWP strain as compared to IWN strain. The least squares means for egg mass (kg) upto 40, 56, 64 and 72 weeks of age were 6.002 ± 0.048, 10.909 ± 0.062, 12.997 ± 0.082 and 14.893 ± 0.072 kg in IWN strain while 6.061 ± 0.038, 10.986 ± 0.695, 13.040 ± 0.076 and 14.638 ± 0.083 kg in IWP stain, respectively. The LSMs for feed consumed to produce a dozen of eggs (kg) were 1.718 ± 0.016 , 1.782 ± 0.011, 1.804 ± 0.012 and 1.864 ± 0.011 kg in IWN strain whereas 1.735 ± 0.140, 1.784 ± 0.012, 1.842 ± 0.012 and 1.895 ± 0.012 kg in IWP strain during the period of 21- 40, 21-56, 21-64 and 21-72 weeks of age, respectively. The LSMs for feed consumption per kilo of egg up to 40, 56 ,64 and 72 week of age were 2.850 ± 0.026, 2.874 ± 0.221, 2.921 ± 0.020 and 2.995 ± 0.017 kg in IWN and 2.758 ± 0.020, 2.785 ± 0.018, 2.873 ± 0.019 and 3.011 ± 0.019 kg in IWP strain, respectively. No significance difference have been observed between two strains for egg mass and feed consumption either per dozen or kilo of egg produced. Heritability estimates for BW at different ages varies in magnitude from low to high in IWN strain and IWP strain. The estimate of heritability for AFE was high in IWN strain while of moderate magnitude in IWP strain. Heritability estimates were high in IWN strain and lower to moderate magnitude in IWP strains for egg number. Heritability estimates of egg weight at all stages were low to moderate in both the strains. Whereas, the h2 estimates of egg mass shown higher to lower magnitude as the age advanced. Inheritance of feed efficiency trait (FC/DE and FC/KE) has shown erratic trend from higher to lower in IWN strain while it was moderate in IWP strain. Genetic and phenotypic associations of AFE with TEN were found negative and high in magnitude. The genetic correlation of AFE with TEN in IWN strain was beyond parametric range which might be due to sampling error. Association of TEN and BW at various stages were positive and high in magnitude suggesting unfavourable trend in IWN strain while they were negative and varied in magnitude suggesting favourable trend in IWP strain. The genetic association of TEN with EW at various stages was in general negative and moderate to high in magnitude in both the strain. Genetic and phenotypic correlations of TEN with TEM were all positive at each stage and high in magnitude and many were found beyond the parametric range. Correlation between the TEN and FCDE and FCKE were negative which is favourable in direction and high in magnitude at all stages. Genetic correlations between age at first egg and egg weights at different ages were, in general, positive and showed increasing trend from low to high with advancement in age in IWN strain, where as they were positive and high in IWP strain. Genetic association of AFE with BW was negative in both strains indicates low body weight at time of housing increases the age at sexual maturity. Phenotypic correlations shown erratic trend of weakly positive or negative association found in both strain. Genetic association of AFE with other traits such as egg mass, feed consumption per dozen of egg and per kilo of egg in general were negative and high in magnitude Expected genetic gain was highest at 64 weeks age in IWN strain and at 56 weeks age in IWP strain. High relative efficiency to get maximum genetic gain for egg numbers produced was found at 40 weeks of age in both the strain, therefore selection on the basis of 40 weeks egg production seems to be most efficient in improving annual production than direct selection for annual records.