Details

Title

Impact of family-based selection on growth performance and immune response of Japanese quail

Journal title

Polish Journal of Veterinary Sciences

Yearbook

2021

Volume

vol. 24

Issue

No 4

Affiliation

Rehman, A. : Department of Poultry Production, Faculty of Animal Production and Technology, University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000 ; Hussain, J. : Department of Poultry Production, Faculty of Animal Production and Technology, University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000 ; Mahmud, A. : Department of Poultry Production, Faculty of Animal Production and Technology,University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000 ; Javed, K. : Department of Livestock Production, Faculty of Animal Production and Technology, University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000 ; Ghayas, A. : Department of Poultry Production, Faculty of Animal Production and Technology, University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000 ; Ahmad, S. : Department of Poultry Production, Faculty of Animal Production and Technology, University of Veterinary and Animal Sciences, Lahore, Pakistan, 54000

Authors

Keywords

weight base selection ; egg base selection ; growth performance ; immune response

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

479-486

Publisher

Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn

Bibliography


Ahmad S, Mehmood S, Javed K, Mahmud A, Usman M, Rehman A, Ishaq HM, Hussain J, Ghayas A (2018) Different selection strategies for the improvement of the growth performance and carcass traits of Japanese quails. Braz J Poult Sci 20: 497-506.

Akram M, Hussain J, Sahota AW, Iqbal A, Sultan A (2012) Genetic gain in 4-week body weight through mass selection in 4 close-bred stocks of Japanese quail. Book of Abstracts. 32nd Congress of Zoology, Lahore, Pakistan, pp 140.

Anthony NB, Nestor KE, Bacon WL (1986) Growth curves of Japanese quail as modified by divergent selection for 4 - week body weight. Poult Sci 65: 1825-1833.

Bayyari GR, Huff WE, Rath NC, Balog JM, Newberry LA, Villines JD, Skeeles JK, Anthony NB, Nestor KE (1997) Effect of the genetic selection of turkeys for increased body weight and egg production on immune and physiological responses. Poult Sci 76: 289-296.

Bhatti BM, Sahota AW (1994) Growth performance and carcass quality of different crosses of chickens. Pak Vet J 14: 250-253.

Caron N, Minvielle F, Desmarais M, Poste LM (1990) Mass Selection for 45-Day Body Weight in Japanese Quail: Selection Response, Carcass Composition, Cooking Properties, and Sensory Characteristics. Poult Sci 69: 1037-1045.

Cheema MA, Qureshi MA, Havenstein GB (2003) A comparison of the immune response of a 2001 commercial broiler with a 1957 random-bred broiler strain when fed representative 1957 and 2001 broiler diets. Poult Sci 82: 1519-1529.

Durmus I, Alkan S, Narinc D, Karabag K, Karslı T (2017) Effects of mass selection on egg production on some reproductive traits in Japanese quail. Eur Poult Sci 81: 1-9.

El-Bayomi KM, El-Tarabany MS, Nasr MA, Roushdy EM (2014) Effect of divergent selection for growth on carcass traits in Japanese quails. Zag Vet J 42: 51-56.

El-Nagar SH, Sharaf MM, Mahmoud S, Basha HA (2016) Effect of selection of Japanese quails for rapid growth on immune function. Alex J Vet Sci 49: 85-90.

Faisal BA, Abdel-Fattah SA, El-Hommosany YM, Abdel-Gawad NM, Ali MFM (2008) Immunocompetence, hepatic heat shock protein 70 and physiological responses to feed restriction and heat stress in two body weight lines of Japanese quail. Int J Poult Sci 7: 174-183.

Ghayas A, Hussain J, Mahmud A, Javed K, Rehman A, Ahmad S, Mehmood S, Usman M, Ishaq HM (2017) Productive performance, egg quality, and hatching traits of Japanese quail reared under different levels of glycerin. Poult Sci 96: 2226-2232.

Havenstein GB, Ferket PR, Scheideler SE, Larson BT (1994) Growth, livability, and feed conversion of 1957 vs 1991 broilers when fed “typical” 1957 and 1991 broiler diets. Poult Sci 73: 1785-1794.

Hussain J (2014) Response to Selection for three week body weight in Japanese quail for three generations. Ph.D. Thesis. Department of Poultry Production, University of Veterinary and Animal Sciences, Lahore, Pakistan pp 13.

Hussain J, Akram M, Sahota AW, Javed K, Ahmad HA, Mehmood S, Ahmad S, Sulaman R, Rabbani I, Jatoi AS (2013) Selection for higher three-week body weight in Japanese quail: 1. Effect on growth performance. J Anim Plant Sci 23: 1496-1500.

Hussain J, Akram M, Sahota AW, Javed K, Ahmad HA, Mehmood S, Jatoi AS, Ahmad S (2014) Selection for higher three weeks body weight in Japanese quail: 2. Estimation of genetic parameters. J Anim Plant Sci 24: 869-873.

Jatoi AS, Sahota AW, Akram M, Javed K, Jaspal MH, Hussain J, Mirani AH, Mehmood S (2013) Effect of different body weight categories on the productive performance of four closebred flocks of Japanese quails (Coturnix coturnix japonica). J Anim Plant Sci 23: 7-13.

Kankova Z, Drozdova A, Klobetzova Z, Lichovnikova M, Zeman M (2019) Development and reactivity of the immune system of Japanese quail lines divergently selected for the shape of the growth curve. Br Poult Sci 60: 700-707.

Kapczynski DR, Afonso CL, Miller PJ (2013) Immune responses of poultry to Newcastle disease virus. Dev Comp Immunol 41: 447-453.

Khaldari M, Pakdel A, Yegane M, Javaremi AN, Berg P (2010) Response to selection and genetic parameters of body and carcass weights in Japanese quail selected for 4- week body weight. Poult Sci 89: 1834-1841.

Koenen ME, Boonstra-Blom AG, Jeurissen SH (2002) Immunological differences between layer and broiler-type chickens. Vet Immun Im-munopathol 89: 47-56.

Li Z, Nestor KE, Saif YM, Anderson JW, Patterson RA (2001) Effect of selection for increased body weight in turkeys on lymphoid organ weights, phagocytosis, and antibody responses to fowl cholera and Newcastle disease-inactivated vaccines. Poult Sci 80: 689-694.

Mohammed MS, Gupta BR, Narasimha RG, Rajasekhar RA (2006) Genetic evaluation of the performance of Japanese quails. Indian J Poult Sci 41: 129-133.

Narinç D, Aksoy T (2012) Effects of mass selection based on phenotype and early feed restriction on the performance and carcass characteris-tics in Japanese quails. Kafkas Uni Vet Fak Derg 18: 425-430.

Nestor K, Bacon WL (1982) Divergent selection for body weight and yolk precursor in Cotournix cotournix Japonica. 3. Correlated responses in mortality, reproduction traits and adult body weight. Poult Sci 61: 2137-2142.

Parks JR (1971) Phenomenology of animal growth. NC State Univ, Raleigh.

Paxton H, Anthony NB, Corr SA, Hutchison JR (2010) The effects of selective breeding on the architectural properties of the pelvic limb in broiler chickens: a comparative study across modern and ancestral populations. J Anat 217: 153-166.

Paxton H, Daley MA, Corr SA, Hutchinson JR (2013) The gait dynamics of the modern broiler chicken: a cautionary tale of selective breed-ing. J Exp Biol 216: 3237-3248.

Pym RAE (1990) Nutritional genetics. In: Poultry breeding and genetics. Crawford RD, Elsevier Amsterdam, pp 209-237.

Rauw WM (2012) Immune response from a resource allocation perspective. Front Genet 3: 267.

Van der Most PJ, De Jong B, Parmentier HK, Verhulst S (2011) Trade-off between growth and immune function: a meta analysis of selection experiments. Funct Ecol 25: 74-80.

Date

2021.12.30

Type

Article

Identifier

DOI: 10.24425/pjvs.2021.139972
×