Articles citing this paper
Blood cell profiles of steer progeny from parents selected for and against residual feed intake
E. C. Richardson, R. M. Herd, I. G. Colditz, J. A. Archer and P. F. Arthur
42(7) pp.901 - 908
35 articles found in Crossref database.
Feed efficiency and body composition are related to cortisol response to adrenocorticotropin hormone and insulin-induced hypoglycemia in rams
Knott S.A.,
Cummins L.J.,
Dunshea F.R., Leury B.J.
Domestic Animal Endocrinology. 2010 39(2). p.137
Grazed grass herbage intake and performance of beef heifers with predetermined phenotypic residual feed intake classification
Lawrence P.,
Kenny D.A.,
Earley B., McGee M.
animal. 2012 6(10). p.1648
Cardiac function and feed efficiency: Increased right-heart workload in feed inefficient beef cattle
Munro Jasper C.,
Physick-Sheard Peter W.,
Pyle W. Glen,
Schenkel Flávio S.,
Miller Stephen P., Montanholi Yuri R.
Livestock Science. 2019 229 p.159
Effect of selection for growth rate on the rabbit (Oryctolagus cuniculus) immune system and its response after experimental Staphylococcus aureus infection
Moreno-Grua Elena,
Pérez-Fuentes Sara,
Viana David,
Selva Laura,
Martínez-Paredes Eugenio,
Marín-García Pablo Jesús,
Pascual Juan José,
Corpa Juan Manuel, Arnau-Bonachera Alberto
Veterinary Research Communications. 2023 47(3). p.1547
Rams with poor feed efficiency are highly responsive to an exogenous adrenocorticotropin hormone (ACTH) challenge
Knott S.A.,
Cummins L.J.,
Dunshea F.R., Leury B.J.
Domestic Animal Endocrinology. 2008 34(3). p.261
Effects of phenotypic residual feed intake on response to a glucose tolerance test and gene expression in the insulin signaling pathway in longissimus dorsi in beef cattle1
Fitzsimons C.,
Kenny D. A.,
Waters S. M.,
Earley B., McGee M.
Journal of Animal Science. 2014 92(10). p.4616
Hematology parameters as potential indicators of feed efficiency in pigs
Lindholm-Perry Amanda K,
Kuehn Larry A,
Wells James E,
Rempel Lea A,
Chitko-McKown Carol G,
Keel Brittney N, Oliver William T
Translational Animal Science. 2021 5(4).
CONSUMO ALIMENTAR RESIDUAL EM OVINOS
Evaristo de Paula Edson Ferraz,
De Almeida Santana Miguel Henrique,
Gomes Monteiro Alda Lúcia,
Kulik Carlos Henrique,
Kowalski Luciana Helena, Da Cruz Thiago Augusto
Acta Tecnológica. 2013 8(1). p.12
Blood cell and metabolic profile of Nellore bulls and their correlations with residual feed intake and feed conversion ratio
Santana Miguel Henrique de Almeida,
Rossi Junior Paulo,
Almeida Rodrigo de, Schuntzemberger Amanda Massaneira de Souza
Revista Brasileira de Saúde e Produção Animal. 2013 14(3). p.527
Association of residual feed intake with growth and slaughtering performance, blood metabolism, and body composition in growing lambs
Zhang Xiaoxue,
Wang Weimin,
Mo Futao,
La Yongfu,
Li Chong, Li Fadi
Scientific Reports. 2017 7(1).
Stress and immunological response of heifers divergently ranked for residual feed intake following an adrenocorticotropic hormone challenge
Kelly A. K.,
Lawrence P.,
Earley B.,
Kenny D. A., McGee M.
Journal of Animal Science and Biotechnology. 2017 8(1).
Effects of the number of yearling Boer crossbred wethers per automated feeding system unit on feed intake, feeding behavior and growth performance
Gipson T.A.,
Goetsch A.L.,
Detweiler G.,
Merkel R.C., Sahlu T.
Small Ruminant Research. 2006 65(1-2). p.161
Sheep residual feed intake and feeding behaviour: are ‘nibblers’ or ‘binge eaters’ more efficient?
Muir S. K.,
Linden N.,
Knight M.,
Behrendt R., Kearney G.
Animal Production Science. 2018 58(8). p.1459
Relationship of glucocorticoids and hematological measures with feed intake, growth, and efficiency of finishing beef cattle1
Foote A. P.,
Hales K. E.,
Tait R. G.,
Berry E. D.,
Lents C. A.,
Wells J. E.,
Lindholm-Perry A. K., Freetly H. C.
Journal of Animal Science. 2016 94(1). p.275
Ingestive behavior and temperament of Nellore cattle classified for residual feed intake
Aldrighi Julian,
Branco Renata Helena,
Cyrillo Joslaine Noely dos Santos Gonçalves,
Magnani Elaine,
Nascimento Cleisy Ferreira do,
Bonilha Sarah Figueiredo Martins, Mercadante Maria Eugênia Zerlotti
Semina: Ciências Agrárias. 2019 40(1). p.457
Residual feed intake and hematological and metabolic blood profiles of lle de France lambs
Paula Edson Ferraz Evaristo de,
Souza Damaris Ferreira de,
Monteiro Alda Lúcia Gomes,
Santana Miguel Henrique de Almeida,
Gilaverte Susana,
Rossi Junior Paulo, Locatelli Dittrich Rosangela
Revista Brasileira de Zootecnia. 2013 42(11). p.806
Associations of Blood Analysis with Feed Efficiency and Developmental Stage in Grass-Fed Beef Heifers
Cônsolo Nara R. B.,
Munro Jasper C.,
Bourgon Stéphanie L.,
Karrow Niel A.,
Fredeen Alan H.,
Martell Janel E., Montanholi Yuri R.
Animals. 2018 8(8). p.133
Hematological profile of beef cattle with divergent residual feed intake, following feed deprivation
Gomes Rodrigo da Costa,
Siqueira Renata Farinelli de,
Ballou Michael Alan,
Stella Tiago Roberto, Leme Paulo Roberto
Pesquisa Agropecuária Brasileira. 2011 46(9). p.1105
Post-weaning blood transcriptomic differences between Yorkshire pigs divergently selected for residual feed intake
Liu Haibo,
Nguyen Yet T.,
Nettleton Dan,
Dekkers Jack C. M., Tuggle Christopher K.
BMC Genomics. 2016 17(1).
Correlations between feed intake, residual feed intake and methane emissions in Maternal Composite ewes at post weaning, hogget and adult ages
Muir S.K.,
Linden N.,
Kennedy A.,
Knight M.I.,
Paganoni B.,
Kearney G.,
Thompson A.N., Behrendt R.
Small Ruminant Research. 2020 192 p.106241
Endocrine and hematological responses of beef heifers divergently ranked for residual feed intake following a bovine corticotropin-releasing hormone challenge
Kelly A. K.,
Earley B.,
McGee M.,
Fahey A. G., Kenny D. A.
Journal of Animal Science. 2016 94(4). p.1703
Genetic variation in residual feed intake is associated with body composition, behavior, rumen, heat production, hematology, and immune competence traits in Angus cattle1
Herd Robert M,
Velazco Jose I,
Smith Helen,
Arthur Paul F,
Hine Brad,
Oddy Hutton,
Dobos Robin C, Hegarty Roger S
Journal of Animal Science. 2019 97(5). p.2202
Heart rate proxies for feed efficiency and other complex traits according to the invasiveness of routine interventions in beef bulls
Martell J.E.,
Munro J.C.,
Sargolzaei M., Montanholi Y.R.
Livestock Science. 2019 230 p.103844
Feeding behavior and stress response explain individual differences in feed efficiency in juveniles of Nile tilapia Oreochromis niloticus
Martins Catarina I.M.,
Conceição Luis E.C., Schrama Johan W.
Aquaculture. 2011 312(1-4). p.192
Genetics of residual feed intake in growing pigs: Relationships with production traits, and nitrogen and phosphorus excretion traits1
Saintilan R.,
Mérour I.,
Brossard L.,
Tribout T.,
Dourmad J. Y.,
Sellier P.,
Bidanel J.,
van Milgen J., Gilbert H.
Journal of Animal Science. 2013 91(6). p.2542
Intake of conserved and grazed grass and performance traits in beef suckler cows differing in phenotypic residual feed intake
Lawrence P.,
Kenny D.A.,
Earley B., McGee M.
Livestock Science. 2013 152(2-3). p.154
Feed efficiency and maternal productivity of Bos indicus beef cows
Broleze Danielly Fernanda,
Souza Luana Lelis,
Zorzetto Mariana Furtado,
Savegnago Rodrigo Pelicioni,
Negrão João Alberto,
Bonilha Sarah Figueiredo Martins,
Mercadante Maria Eugênia Zerlotti, Duarte Marcio de Souza
PLOS ONE. 2020 15(6). p.e0233926
The importance of body composition in explaining variation in feed conversion efficiency and residual feed intake between meat sheep at two different ages
Knott S A,
Cummins L J,
Leury B J, Dunshea F R
Proceedings of the British Society of Animal Science. 2006 2006 p.153
Effect of Holstein–Friesian genetic group on peripartum and early lactation haematological and acute phase proteins profiles, health and fertility
Olmos G.,
Boyle L.,
Horan B.,
Berry D.P.,
Sayers R.,
Hanlon A., Mee J.F.
Animal. 2009 3(7). p.1013
Effect of divergence in residual feed intake on feeding behavior, blood metabolic variables, and body composition traits in growing beef heifers1
Kelly A. K.,
McGee M.,
Crews D. H.,
Fahey A. G.,
Wylie A. R., Kenny D. A.
Journal of Animal Science. 2010 88(1). p.109
Impact of animal health and welfare research within the CRC for Cattle and Beef Quality on Australian beef production
Colditz I. G.,
Watson D. L.,
Kilgour R.,
Ferguson D. M.,
Prideaux C.,
Ruby J.,
Kirkland P. D., Sullivan K.
Australian Journal of Experimental Agriculture. 2006 46(2). p.233
Identification of candidate proteins regulated by long-term caloric
restriction and feed efficiency in longissimus dorsi muscle in
Korean native steer
Jung Usuk,
Kim Minjeong,
Wang Tao,
Lee Jae-Sung,
Seo Seongwon, Lee Hong-Gu
Journal of Animal Science and Technology. 2022 64(2). p.330
Relationships of nutritional plane and feed efficiency with sexual development and fertility related measures in young beef bulls
Bourgon S.L.,
Diel de Amorim M.,
Chenier T.,
Sargolzaei M.,
Miller S.P.,
Martell J.E., Montanholi Y.R.
Animal Reproduction Science. 2018 198 p.99
Relationships between feeding behaviour, activity, dominance and feed efficiency in finishing beef steers
Haskell Marie J.,
Rooke John A.,
Roehe Rainer,
Turner Simon P.,
Hyslop James J.,
Waterhouse Anthony, Duthie Carol-Anne
Applied Animal Behaviour Science. 2019 210 p.9
Compilations and updates on residual feed intake in sheep
Ferreira Josiel,
Chay-Canul Alfonso Juventino,
De Barbieri Ignácio, da Costa Ricardo Lopes Dias
Tropical Animal Health and Production. 2024 56(5).
