This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
ABOU KHADIGA G., MAHMOUD B. Y. F., EL-FULL, E. A., 2018 - Modelling of growth alteration in Japanese quail after a selection experiment for body weight at 4 weeks of age. The Journal of Agricultural Science, 156, 1153-1159.Search in Google Scholar
AKBARIMEHR M., SOLKA M., NOSRATI M., RASOULI B., VAHABI-ASIL O., SEIDAVI A., HOSSEINTABAR-GHASEMABAD B., MARCHEWKA J., SZTANDARSKI P., JASZCZYK A., HORBAŃCZUK K., PETRYKOWSKI S., SIWIEC D., HORBAŃCZUK J.O., 2023 - Multi-strain probiotic improved feed conversion ratio and selected health indicators in Japanese quail. Animal Science Papers and Reports 41, 345-358.Search in Google Scholar
BARBIERI A., ONO R.K., CURSINO L.L., FARAH M.M., PIRES M.P., BERTIPAGLIA T.S., PIRES A.V., CAVANI L., CARREÑO L.O.D., FONSECA R., 2015 - Genetic parameters for body weight in meat quail. Poultry Science, 94, 169-171.Search in Google Scholar
BAYLAN M., 2017 - Effects of different selection methods using body weight on egg yield parameters in Japanese quail. Brazilian Journal of Poultry Science, 19, 623-628.Search in Google Scholar
BAYLAN M., CANOGULLARI S., SAHIN A., COPUR G., BAYLAN M., 2009- Effects of different selection methods for body weight on some genetic parameters. Journal of Animal and Veterinary Advances 8, 1385–1391.Search in Google Scholar
BRODY S., 1945- Bioenergetics and growth. Reinhold Publishing Corp., New York, NT.Search in Google Scholar
CHOMCHUEN K., TUNTIYASAWASDIKUL V., CHANKITISAKUL V., BOONKUM W., 2022 - Genetic evaluation of body weights and egg production traits using a multi-trait animal model and selection index in Thai native synthetic chickens. Animals 12 (3), 335.Search in Google Scholar
DECUYPERE E., BRUGGEMAN V., BARBATO G.F., BUYSE J., 2003 - Growth and reproduction problems associated with selection for increased broiler meat production. Pp: 13-28. In: Poultry Genetics, Breeding and Biotechnology, edited by Muir. W. M. and Aggrey, S. E, CABI Publishing, London.Search in Google Scholar
DUNCAN D.B., 1955- Multiple range and multiple F-tests. Biometrics 11, 1-42.Search in Google Scholar
EL-ATTROUNY M.M., MANAA E.A., RAMADAN S.I., 2020 - Genetic evaluation and selection correlated response of growth traits in Japanese quail. South African Journal of Animal Science, 50, 325-333.Search in Google Scholar
EMAM A.M., ELNESR S.S., EL-FULL E.A., MAHMOUD B.Y., ELWAN H., 2023- Influence of improved microclimate conditions on growth and physiological performance of two Japanese quail lines. Animals 13(6), 1118.Search in Google Scholar
FALCONER D. S., MACKAY T. F. C., 1996 - Introduction to quantitative genetics. 4th Ed. Longman, London.Search in Google Scholar
FARAHAT G. S., MAHMOUD B. Y., EL-KOMY E. M., EL-FULL E. A., 2018 - Alterations in plasma constituents, growth and egg production traits due to selection in three genotypes of Japanese quail. The Journal of Agricultural Science 156, 118-126.Search in Google Scholar
GUILL R., WASHBURN K., 1974 - Genetic changes in efficiency of feed utilization of chickens maintaining body weight constant. Poultry Science 53, 1146-1154.Search in Google Scholar
HADFIELD J.D., NUTALL A., OSORIO D., OWENS I.P.F., 2007 - Testing the phenotypic gambit: Phenotypic, genetic and environmental correlations of colour. Journal of Evolutionary Biology, 20, 549-557.Search in Google Scholar
HENDERSON C.R., 1973 - Sire evaluation and genetic trends. Journal of Animal Science (Symposium) 10-41.Search in Google Scholar
HILL W.G., 2013 - Genetic correlation. In ‘Brenner’s encyclopedia of genetics’. 2nd Ed., (Eds S Maloy, K Hughes) pp: 237-239.Search in Google Scholar
KATZ-ROSENE R., HEFFERNAN A., ARORA A., 2023 - Protein pluralism and food systems transition: A review of sustainable protein meta-narratives. World Development, Elsevier 161 (C).Search in Google Scholar
KHALDARI M., PAKDEL A., YEGANE H. M., JAVAREMI A.N., BERG P., 2010- Response to selection and genetic parameters of body and carcass weights in Japanese quail selected for 4-week body weight. Poultry Science 89, 1834-1841.Search in Google Scholar
MAHMOUD B.Y.F., ABOU KHADIGA G., EL-FULL E.A., 2015 - Correlated response to selection for some egg performance traits in egg line of Japanese quail. Animal Production Science 56, 913-917.Search in Google Scholar
MAHMOUD B.Y., SEMIDA, D.A., EL-FULL, E.A., EMAM, A.M. 2023 - Genetic evaluation for survival traits in Japanese quail line selected for fast growth rate. Animal Biotechnology 34, 2414-2419.Search in Google Scholar
MEYER K., 2007 - WOMBAT: a tool for mixed model analyses in quantitative genetics by restricted maximum likelihood (REML). J. Zhejiang Univ. Science B8, 11, 815-821.Search in Google Scholar
N.R.C., 1994- Nutrient requirements of domestic animals. Nutrient Requirements of Poultry, 9th Rev. EdWashington, DC: National Academy Press.Search in Google Scholar
NARINÇ D., KARAMAN E., AKSOY T., FIRAT M.Z., 2014 - Genetic parameter estimates of growth curve and reproduction traits in Japanese quail. Poultry Science 93, 24-30.Search in Google Scholar
PEEBLES E., MARKS H., 1991 - Effect of selection on plasma thyroxin concentrations in Japanese quail under thiouracil and protein stress. Poultry Science 70, 641-650.Search in Google Scholar
SAATCI M., OMED H., DEWI I.AP., 2006 - Genetic parameters from univariate and bivariate analyses of egg and weight traits in Japanese quail. Poultry Science 85,185-190.Search in Google Scholar
SAS, 2011- SAS/STAT® 9.3 Statistics user’s guide. Statistical analytical system. SAS Institute Inc, Carry.Search in Google Scholar
SEMIDA D.A.M., 2020- Selection for augmenting early growth rate in Japanese quail. M.Sc. Thesis, Fac., Agric., Fayoum, Univ.Search in Google Scholar
SEZER M., BERBEROGLU E., ULUTAS Z., 2006 - Genetic association between sexual maturity and weekly live-weights in laying-type Japanese quail. South African Journal of Animal Science 36,142-148.Search in Google Scholar
SILVA L.P., RIBEIRO J.C., CRISPIM A.C., SILVA F.G., BONAFÉ C.M., FABYANO F.S., TORRES R.A., 2013- Genetic parameters of body weight and egg traits in meat-type quail. Livestock Science 153, 27-32.Search in Google Scholar
TARTAGLIA L.A., DEMBSKI M., WENG X., DENG N., CULPEPPER J., DEVOS R., RICHARDS G.J., CAMPFIELD L.A., CLARK C.T., DEEDS J., MUIR C., SANKER S., MORIARTY A., MOORE K.J., SMUTKO J.S., MAYS G.G., WOOLF E.A., MONROE C.A., TEPPER R. I., 1995 -Identification and expression cloning of leptin receptor, OB-R. Cell 29, 1263-1271.Search in Google Scholar
