Articles citing this paper
Genetic and phenotypic relationships between insulin-like growth factor-I (IGF-I) and net feed intake, fat, and growth traits in Angus beef cattle
K. L. Moore A C , D. J. Johnston A , H-U. Graser A and R. Herd B
+ Author Affiliations
- Author Affiliations
A The Animal Genetics and Breeding Unit*, University of New England, Armidale, NSW 2351, Australia.
B New South Wales Department of Primary Industries, Armidale, NSW 2351, Australia.
C Corresponding author. Email: kmoore4@une.edu.au
D AGBU is a joint venture of New South Wales Department of Primary Industries and the University of New England.
Australian Journal of Agricultural Research 56(3) 211-218 https://doi.org/10.1071/AR04248
Submitted: 26 October 2004 Accepted: 7 February 2005 Published: 23 March 2005
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Casal A.,
Peñagaricano F.,
Carriquiry M., Chilibroste P.
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Bonakdar E.,
Rahmani H.R.,
Edriss M.A., Sayed Tabatabaei B.E.
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Kundu Shivlal S.,
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Tier B.,
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Micke G.C.,
Sullivan T.M.,
Gatford K.L.,
Owens J.A., Perry V.E.A.
Animal Reproduction Science. 2010 121(3-4). p.208
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McGee M.,
Crews D. H.,
Sweeney T.,
Boland T. M., Kenny D. A.
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Welch C. M.,
Thornton K. J.,
Murdoch G. K.,
Chapalamadugu K. C.,
Schneider C. S.,
Ahola J. K.,
Hall J. B.,
Price W. J., Hill R. A.
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Ortigues-Marty I.,
Taussat S.,
Fossaert C.,
Renand G., Cantalapiedra-Hijar G.
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Associations of blood parameters with age, feed efficiency and sampling routine in young beef bulls
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Diel de Amorim M.,
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Hegarty R. S.,
Parnell P. F.,
Cacho O. J.,
Herd R. M., Griffith G. R.
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Rowghani E., Bottje W. G.
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Nedelkov K.,
Crosson P., McGee M.
Scientific Reports. 2024 14(1).
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Journal of Animal Science. 2007 85(10). p.2401
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Fortes Marina R.S.,
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Biology of Reproduction. 2012 87(3).
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McGee M.,
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Fahey A. G.,
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van den Borne J.J.G.C.,
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Hines H. C.,
Irvin K. M.,
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Villalba D.,
Ripoll G.,
Sauerwein H., Casasús I.
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Carstens G. E.,
Ribeiro F. R. B.,
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Lyons J. G., Welsh T. H.
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Corbet D. H.,
Crisp J. M.,
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Cooper-Prado M. J.,
Long N. M.,
Davis M. P.,
Wright E. C.,
Madden R. D.,
Dilwith J. W.,
Bailey C. L.,
Spicer L. J., Wettemann R. P.
Journal of Animal Science. 2014 92(8). p.3300
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Zheng W.,
Leng X.,
Vinsky M.,
Li C., Jiang H.
Domestic Animal Endocrinology. 2018 64 p.31
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Revista Brasileira de Zootecnia. 2008 37(spe). p.269
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Randel R. D., Welsh T. H.
Journal of Animal Science. 2013 91(3). p.1323
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Montanholi Y.R.,
Schenkel F.S.,
Smith B.A.,
Cant J.P., Miller S.P.
Animal. 2014 8(10). p.1684
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Wolcott M. L.,
Johnston D. J.,
Burrow H. M., Sullivan M. T.
Animal Production Science. 2009 49(6). p.351
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Journal of Animal Science. 2010 88(2). p.552
Invited review: Improving feed efficiency in dairy production: challenges and possibilities
Connor E.E.
Animal. 2015 9(3). p.395
Physiological basis for residual feed intake1
Herd R. M., Arthur P. F.
Journal of Animal Science. 2009 87(suppl_14). p.E64
Effect of castration on carcass quality and differential gene expression of longissimus muscle between steer and bull
Zhou Zheng-Kui,
Gao Xue,
Li Jun-Ya,
Chen Jin-Bao, Xu Shang-Zhong
Molecular Biology Reports. 2011 38(8). p.5307
Genetic mechanisms underlying feed utilization and implementation of genomic selection for improved feed efficiency in dairy cattle
Brito Luiz F.,
Oliveira Hinayah R.,
Houlahan Kerry,
Fonseca Pablo A.S.,
Lam Stephanie,
Butty Adrien M.,
Seymour Dave J.,
Vargas Giovana,
Chud Tatiane C.S.,
Silva Fabyano F.,
Baes Christine F.,
Cánovas Angela,
Miglior Filippo,
Schenkel Flavio S., Plaizier J.
Canadian Journal of Animal Science. 2020 100(4). p.587
Associations of feed efficiency with circulating IGF-1 and leptin, carcass traits and meat quality of lambs
Montelli N.L.L.L.,
Alvarenga T.I.R.C.,
Almeida A.K.,
Alvarenga F.A.P.,
Furusho-Garcia I.F.,
Greenwood P.L., Pereira I.G.
Meat Science. 2021 173 p.108379
Impacts of residual feed intake and pre-natal diet on reproductive potential of bulls
Johnson Chinju,
Fitzsimmons Carolyn,
Colazo Marcos,
Li Changxi,
Kastelic John, Thundathil Jacob
Animal Production Science. 2019 59(10). p.1827
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Bormann J. Minick,
Moser D.W., Marston T.T.
The Professional Animal Scientist. 2010 26(3). p.328
Feed Efficiency in the Beef Industry (2012)
Relationship between body measurements, metabolic hormones, metabolites and residual feed intake in performancetested pedigree beef bulls
Kelly A.K.,
McGee M.,
Crews D.H.,
Lynch C.O.,
Wylie A.R.,
Evans R.D., Kenny D.A.
Livestock Science. 2011 135(1). p.8
