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Lancaster Phillip A,
Brown Erin G,
Tedeschi Luis O,
Anderson Robin C,
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Grubbs Judson K.,
Fritchen Aaron N.,
Huff-Lonergan Elisabeth,
Gabler Nicholas K., Lonergan Steven M.
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Ogunade Ibukun M, McCoun Megan
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Masters David G.,
Norman Hayley C., Thomas Dean T.
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Grass silage intake, rumen and blood variables, ultrasonic and body measurements, feeding behavior, and activity in pregnant beef heifers differing in phenotypic residual feed intake1
Lawrence P.,
Kenny D. A.,
Earley B.,
Crews D. H., McGee M.
Journal of Animal Science. 2011 89(10). p.3248
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D'Occhio Michael J.,
Baruselli Pietro S., Campanile Giuseppe
Theriogenology. 2019 125 p.277
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Beauchemin Karen A.,
Ungerfeld Emilio M.,
Abdalla Adibe L.,
Alvarez Clementina,
Arndt Claudia,
Becquet Philippe,
Benchaar Chaouki,
Berndt Alexandre,
Mauricio Rogerio M.,
McAllister Tim A.,
Oyhantçabal Walter,
Salami Saheed A.,
Shalloo Laurence,
Sun Yan,
Tricarico Juan,
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McGee M.,
Welch C. M.,
Ramirez J. A.,
Carstens G. E.,
Price W. J.,
Hall J. B., Hill R. A.
Journal of Animal Science. 2014 92(11). p.5214
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Knott S.A.,
Cummins L.J.,
Dunshea F.R., Leury B.J.
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Lindholm-Perry Amanda K.,
Freetly Harvey C.,
Snelling Warren M.,
Kern John W.,
Keele John W.,
Miles Jeremy R.,
Foote Andrew P.,
Oliver William T.,
Kuehn Larry A., Ludden Paul A.
Gene. 2016 586(1). p.12
Plasma nitrogen isotopic fractionation and feed efficiency in growing beef heifers
Wheadon N. M.,
McGee M.,
Edwards G. R., Dewhurst R. J.
British Journal of Nutrition. 2014 111(9). p.1705
Evaluation of the National Research Council (1996) dry matter intake prediction equations and relationships between intake and performance by feedlot cattle1
McMeniman J. P.,
Defoor P. J., Galyean M. L.
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Bolormaa Sunduimijid,
MacLeod Iona M.,
Khansefid Majid,
Marett Leah C.,
Wales William J.,
Miglior Filippo,
Baes Christine F.,
Schenkel Flavio S.,
Connor Erin E.,
Manzanilla-Pech Coralia I. V.,
Stothard Paul,
Herman Emily,
Nieuwhof Gert J.,
Goddard Michael E., Pryce Jennie E.
Genetics Selection Evolution. 2022 54(1).
Only 7% of the variation in feed efficiency in veal calves can be predicted from variation in feeding motivation, digestion, metabolism, immunology, and behavioral traits in early life
Gilbert M.S.,
van den Borne J.J.G.C.,
van Reenen C.G., Gerrits W.J.J.
Journal of Dairy Science. 2017 100(10). p.8087
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Zhang Feng,
Wang Yining,
Mukiibi Robert,
Chen Liuhong,
Vinsky Michael,
Plastow Graham,
Basarab John,
Stothard Paul, Li Changxi
BMC Genomics. 2020 21(1).
Liver transcriptomic networks reveal main biological processes associated with feed efficiency in beef cattle
Alexandre Pamela A.,
Kogelman Lisette J. A.,
Santana Miguel H. A.,
Passarelli Danielle,
Pulz Lidia H.,
Fantinato-Neto Paulo,
Silva Paulo L.,
Leme Paulo R.,
Strefezzi Ricardo F.,
Coutinho Luiz L.,
Ferraz José B. S.,
Eler Joanie P.,
Kadarmideen Haja N., Fukumasu Heidge
BMC Genomics. 2015 16(1).
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Touitou Florian,
Tortereau Flavie,
Bret Lydie,
Marty-Gasset Nathalie,
Marcon Didier, Meynadier Annabelle
Metabolites. 2022 12(4). p.304
Daily methane emissions and emission intensity of grazing beef cattle genetically divergent for residual feed intake
Velazco J. I.,
Herd R. M.,
Cottle D. J., Hegarty R. S.
Animal Production Science. 2017 57(4). p.627
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Leão Juliana Mergh,
Coelho Sandra Gesteira,
Lage Camila Flávia de Assis,
Azevedo Rafael Alves de,
Lima Juliana Aparecida Mello,
Carneiro Juliana Campos,
Ferreira Alexandre Lima,
Machado Fernanda Samarini,
Pereira Luiz Gustavo Ribeiro,
Tomich Thierry Ribeiro,
Diniz Neto Hilton do Carmo, Campos Mariana Magalhães
Animals. 2021 11(12). p.3436
The differential plasma and ruminal metabolic pathways and ruminal bacterial taxa associated with divergent residual body weight gain phenotype in crossbred beef steers
Idowu Modoluwamu,
Taiwo Godstime,
Sidney Taylor,
Morenikeji Olanrewaju B,
Pech Cervantes Andres,
Estrada-Reyes Zaira M,
Wilson Matthew, Ogunade Ibukun M
Translational Animal Science. 2023 7(1).
Small intestine histomorphometry of beef cattle with divergent feed efficiency
Montanholi Yuri,
Fontoura Ananda,
Swanson Kendall,
Coomber Brenda,
Yamashiro Shigeto, Miller Stephen
Acta Veterinaria Scandinavica. 2013 55(1).
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
Effect of moderate dietary restriction on visceral organ weight, hepatic oxygen consumption, and metabolic proteins associated with energy balance in mature pregnant beef cows1,2
Wood K. M.,
Awda B. J.,
Fitzsimmons C.,
Miller S. P.,
McBride B.W., Swanson K. C.
Journal of Animal Science. 2013 91(9). p.4245
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
Chemical Group-Based Metabolome Analysis Identifies Candidate Plasma Biomarkers Associated With Residual Feed Intake in Beef Steers
Taiwo Godstime,
Idowu Modoluwamu,
Collins Shelby,
Sidney Taylor,
Wilson Matthew,
Pech-Cervantes Andres, Ogunade Ibukun M.
Frontiers in Animal Science. 2022 2
A meta-analysis of energy and protein requirements for maintenance and growth of Nellore cattle1
Chizzotti M. L.,
Tedeschi L. O., Valadares Filho S. C.
Journal of Animal Science. 2008 86(7). p.1588
Physiological basis for residual feed intake1
Herd R. M., Arthur P. F.
Journal of Animal Science. 2009 87(suppl_14). p.E64
Fermentation of Ammonia Fiber Expansion Treated and Untreated Barley Straw in a Rumen Simulation Technique Using Rumen Inoculum from Cattle with Slow versus Fast Rate of Fiber Disappearance
Griffith Candace L.,
Ribeiro Gabriel O.,
Oba Masahito,
McAllister Tim A., Beauchemin Karen A.
Frontiers in Microbiology. 2016 7
Feed Efficiency in the Beef Industry (2012)
Reducing GHG emissions through genetic improvement for feed efficiency: effects on economically important traits and enteric methane production
Basarab J.A.,
Beauchemin K.A.,
Baron V.S.,
Ominski K.H.,
Guan L.L.,
Miller S.P., Crowley J.J.
Animal. 2013 7 p.303
Identifying differences in feed efficiency among group-fed cattle
Tedeschi L. O.,
Fox D. G.,
Baker M. J., Kirschten D. P.
Journal of Animal Science. 2006 84(3). p.767
Development and validation of a small SNP panel for feed efficiency in beef cattle1
Abo-Ismail M K,
Lansink N,
Akanno E,
Karisa B K,
Crowley J J,
Moore S S,
Bork E,
Stothard P,
Basarab J A, Plastow G S
Journal of Animal Science. 2018 96(2). p.375
Ruminant enteric methane mitigation: a review
Cottle D. J.,
Nolan J. V., Wiedemann S. G.
Animal Production Science. 2011 51(6). p.491
Invited review: Improving feed efficiency in dairy production: challenges and possibilities
Connor E.E.
Animal. 2015 9(3). p.395
Relationships of feedlot performance, feeding behavior, rumen morphometrics, and carcass characteristics of Nellore cattle differing in phenotypic residual feed intake1
Pereira M. C. S.,
Cruz G. D.,
Arrigoni M. D. B.,
Rigueiro A. L. N.,
Silva J.,
Carrara T. V. B.,
Santos P. C. S.,
Cursino L. L., Millen D. D.
Journal of Animal Science. 2016 94(10). p.4287
Evaluation of effects of rumen fluid in combination with probiotic preparations and vanillin on the luminescence of a recombinant strain E. coli
Karimov Il'shat,
Kondrashova Kristina,
Duskaev Galimzhan,
Kvan Olga,
Zhou P.,
He Y., Weerasinghe R.
E3S Web of Conferences. 2020 143 p.02034
Study on the Carcass Yield Grade Traits and Prediction of Retail Product Weight in Hanwoo Beef
Lee Jong-Moon,
Hah Kyoung-Hee,
Kim Jin-Hyong,
Cho Soo-Hyun,
Seong Pil-Nam,
Jung Meyung-Ok,
Cho Yong-Min,
Park Beom-Young,
Kim Dong-Hun, Ahn Chong-Nam
Korean Journal for Food Science of Animal Resources. 2008 28(5). p.604
Genetic parameters for performance, feed efficiency, and carcass traits in Senepol heifers
Novo L.C.,
Gondo A.,
Gomes R.C.,
Fernandes Junior J.A.,
Ribas M.N.,
Brito L.F.,
Laureano M.M.M.,
Araújo C.V., Menezes G.R.O.
Animal. 2021 15(3). p.100160
Candidate serum metabolite biomarkers of residual feed intake and carcass merit in sheep
Goldansaz Seyed Ali,
Markus Susan,
Berjanskii Mark,
Rout Manoj,
Guo An Chi,
Wang Zhiquan,
Plastow Graham, Wishart David S
Journal of Animal Science. 2020 98(10).
Ruminal transcript abundance of the centromere‐associated protein E gene may influence residual feed intake in beef steers
Rathert A. R.,
Meyer A. M.,
Foote A. P.,
Kern R. J.,
Cunningham‐Hollinger H. C.,
Kuehn L. A., Lindholm‐Perry A. K.
Animal Genetics. 2020 51(3). p.453
A hot lunch for herbivores: physiological effects of elevated temperatures on mammalian feeding ecology
Beale Phillipa K.,
Marsh Karen J.,
Foley William J., Moore Ben D.
Biological Reviews. 2018 93(1). p.674
Genetic parameters and genome-wide association study regarding feed efficiency and slaughter traits in Charolais cows
Martin Pauline,
Taussat Sébastien,
Vinet Aurélie,
Krauss Daniel,
Maupetit David, Renand Gilles
Journal of Animal Science. 2019 97(9). p.3684
RAPID COMMUNICATION: Residual feed intake in beef cattle is associated with differences in protein turnover and nutrient transporters in ruminal epithelium
Elolimy Ahmed A,
Abdel-Hamied Emad,
Hu Liangyu,
McCann Joshua C,
Shike Daniel W, Loor Juan J
Journal of Animal Science. 2019 97(5). p.2181
Temperament and dominance relate to feeding behaviour and activity in beef cattle: implications for performance and methane emissions
Llonch P.,
Somarriba M.,
Duthie C.A.,
Troy S.,
Roehe R.,
Rooke J.,
Haskell M.J., Turner S.P.
Animal. 2018 12(12). p.2639
Cattle temperament: Persistence of assessments and associations with productivity, efficiency, carcass and meat quality traits1
Cafe L. M.,
Robinson D. L.,
Ferguson D. M.,
McIntyre B. L.,
Geesink G. H., Greenwood P. L.
Journal of Animal Science. 2011 89(5). p.1452
Infrared thermography as a tool to evaluate body surface temperature and its relationship with feed efficiency in Bos indicus cattle in tropical conditions
Martello Luciane Silva,
da Luz e Silva Saulo,
da Costa Gomes Rodrigo,
da Silva Corte Rosana Ruegger Pereira, Leme Paulo Roberto
International Journal of Biometeorology. 2016 60(1). p.173
Transcriptome analyses reveal reduced hepatic lipid synthesis and accumulation in more feed efficient beef cattle
Mukiibi Robert,
Vinsky Michael,
Keogh Kate A.,
Fitzsimmons Carolyn,
Stothard Paul,
Waters Sinéad M., Li Changxi
Scientific Reports. 2018 8(1).
In search for indirect criteria to improve residual feed intake in sea bass (Dicentrarchus labrax)
Grima Laure,
Vandeputte Marc,
Ruelle François,
Vergnet Alain,
Mambrini Muriel, Chatain Béatrice
Aquaculture. 2010 300(1-4). p.50
Redefining residual feed intake to account for marbling fat in beef breeding programs
Duff C. J.,
van der Werf J. H. J.,
Parnell P. F., Clark S. A.
Animal Production Science. 2021 61(18). p.1837
Towards an improved estimation of the biological components of residual feed intake in growing cattle1
Savietto D.,
Berry D. P., Friggens N. C.
Journal of Animal Science. 2014 92(2). p.467
Review: Selecting for improved feed efficiency and reduced methane emissions in dairy cattle
Løvendahl P.,
Difford G.F.,
Li B.,
Chagunda M.G.G.,
Huhtanen P.,
Lidauer M.H.,
Lassen J., Lund P.
Animal. 2018 12 p.s336
Individual Feed Efficiency Monitoring of Charolaise Candidate Young Bulls in Relation to Feeding Behavior and Self-Performance Test Results
Holló Gabriella,
Nagy-Kiszlinger Henrietta,
Tossenberger János,
Török Márton, Húth Balázs
Animals. 2021 12(1). p.35
Protein metabolism, feed energy partitioning, behavior patterns and plasma cortisol in Nellore steers with high and low residual feed intake
Gomes Rodrigo da Costa,
Sainz Roberto Daniel, Leme Paulo Roberto
Revista Brasileira de Zootecnia. 2013 42(1). p.44
Identification of single nucleotide polymorphisms in genes involved in digestive and metabolic processes associated with feed efficiency and performance traits in beef cattle1,2
Abo-Ismail M. K.,
Kelly M. J.,
Squires E. J.,
Swanson K. C.,
Bauck S., Miller S. P.
Journal of Animal Science. 2013 91(6). p.2512
Impact of selection for residual feed intake on production traits and behavior of mule ducks
Drouilhet L.,
Monteville R.,
Molette C.,
Lague M.,
Cornuez A.,
Canario L.,
Ricard E., Gilbert H.
Poultry Science. 2016 95(9). p.1999
Relationship between residual feed intake and radiated heat loss using infrared thermography in young beef bulls
Thompson S.,
Schaefer A.L.,
Crow G.H.,
Basarab J.,
Colyn J., Ominski K.
Journal of Thermal Biology. 2018 78 p.304
Blood metabolites and fecal starch as indicators of feed efficiency of beef cattle in the feedlot
Fornazari Neto A.,
Martins C.E.N.,
Schwegler E.,
Barcellos J.O.J., Barth A.L.
Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 2021 73(6). p.1260
Input parameters for LiGAPS-beef mechanistic model: an attempt to study Bali cattle production under oil-palm plantation systems
Widi T S M,
Widyas N,
Prabowo B W,
Sumantri I,
Maulana H, Baliarti E
IOP Conference Series: Earth and Environmental Science. 2021 902(1). p.012058
Residual feed intake and relationships with performance of Nellore cattle selected for post weaning weight
Lucila Sobrinho T.,
Branco R.H.,
Bonilha S.F.M.,
Castilhos A.M.,
Figueiredo L.A.,
Razook A.G., Mercadante M.E.Z.
Revista Brasileira de Zootecnia. 2011 40(4). p.929
Carcass Characteristics and Primal Cut Yields of Hanwoo as Affected by Sex
Seo Hyun-Woo,
Ba Hoa Van,
Kim Yoon-Seok,
Kang Sun-Moon,
Seol Kuk-Hwan,
Seong Pil-Nam,
Moon Sung-Sil,
Kim Jin-Hyoung, Cho Soo-Hyun
Journal of Agriculture & Life Science. 2019 53(4). p.77
Effects of genotype and plane of nutrition on growth and carcass characteristics of lambs from hill sheep systems
Speijers M.H.M.,
Carson A.F.,
Dawson L.E.R., Gordon A.W.
Animal. 2009 3(9). p.1232
The relationship between feed efficiency traits and fertility in young beef bulls
Awda B. J.,
Miller S. P.,
Montanholi Y. R.,
Voort G. Vander,
Caldwell T.,
Buhr M. M., Swanson K. C.
Canadian Journal of Animal Science. 2013 93(2). p.185
Evaluation of updated Feed Saved breeding values developed in Australian Holstein dairy cattle
Bolormaa S.,
MacLeod I.M.,
Khansefid M.,
Marett L.C.,
Wales W.J.,
Nieuwhof G.J.,
Baes C.F.,
Schenkel F.S.,
Goddard M.E., Pryce J.E.
JDS Communications. 2022 3(2). p.114
Relationships among measures of growth performance and efficiency with carcass traits, visceral organ mass, and pancreatic digestive enzymes in feedlot cattle1,2
Mader C. J.,
Montanholi Y. R.,
Wang Y. J.,
Miller S. P.,
Mandell I. B.,
McBride B. W., Swanson K. C.
Journal of Animal Science. 2009 87(4). p.1548
Genomic selection for feed efficiency in dairy cattle
Pryce J.E.,
Wales W.J.,
de Haas Y.,
Veerkamp R.F., Hayes B.J.
Animal. 2014 8(1). p.1
Relationship of residual feed intake and protein efficiency in lactating cows fed high- or low-protein diets
Liu E., VandeHaar M.J.
Journal of Dairy Science. 2020 103(4). p.3177
On the determination of residual feed intake and associations of infrared thermography with efficiency and ultrasound traits in beef bulls
Montanholi Y.R.,
Swanson K.C.,
Schenkel F.S.,
McBride B.W.,
Caldwell T.R., Miller S.P.
Livestock Science. 2009 125(1). p.22
Divergent selection for residual feed intake in group-housed growing pigs: characteristics of physical and behavioural activity according to line and sex
Meunier-Salaün M.C.,
Guérin C.,
Billon Y.,
Sellier P.,
Noblet J., Gilbert H.
Animal. 2014 8(11). p.1898
Evaluation of feeding behaviour traits to predict efficiency traits in pigs using partial least square regression
Ewaoluwagbemiga E.O.,
Bee G., Kasper C.
Animal. 2021 15(10). p.100351
Carcass Characteristics and Primal Cuts Yields by Live Weight of Hanwoo Steers in Gyeongbuk Province
Kim Jin-Hyoung,
Ba Hoa Van,
Seong Pil-Nam,
Kim Yoon-Seok,
Kang Sun-Moon,
Cho Soo-Hyun,
Moon Sung-Sil,
Kang Se-Ju,
Park Beom-Young, Seo Hyun-Woo
Journal of Agriculture & Life Science. 2018 52(2). p.151
Measures of growth and feed efficiency and their relationships with body composition and carcass traits of growing pigs
Arthur P. F.,
Giles L. R.,
Eamens G. J.,
Barchia I. M., James K. J.
Animal Production Science. 2009 49(12). p.1105
Feed Efficiency in the Beef Industry (2012)
Rumen Fluid Metabolomics Analysis Associated with Feed Efficiency on Crossbred Steers
Artegoitia Virginia M.,
Foote Andrew P.,
Lewis Ronald M., Freetly Harvey C.
Scientific Reports. 2017 7(1).
Exploring Genomic Variants Related to Residual Feed Intake in Local and Commercial Chickens by Whole Genomic Resequencing
Liu Jie,
Liu Ranran,
Wang Jie,
Zhang Yonghong,
Xing Siyuan,
Zheng Maiqing,
Cui Huanxian,
Li Qinghe,
Li Peng,
Cui Xiaoyan,
Li Wei,
Zhao Guiping, Wen Jie
Genes. 2018 9(2). p.57
Polymorphisms of PLIN1 and MOGAT1 genes and their association with feed efficiency in Hu sheep
Ma Zongwu,
Wang Weimin,
Zhang Deyin,
Zhang Yukun,
Zhao Yuan,
Li Xiaolong,
Zhao Liming,
Cheng Jiangbo,
Xu Dan,
Yang Xiaobin,
Liu Jia,
He Lijuan,
Chen Zhanyu,
Gong Ping, Zhang Xiaoxue
Gene. 2024 897 p.148072
Improving efficiency in meat production
Brameld John M., Parr Tim
Proceedings of the Nutrition Society. 2016 75(3). p.242
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
Hormonal growth implants affect feed efficiency and expression of residual feed intake-associated genes in beef cattle
Al-Husseini W.,
Gondro C.,
Quinn K.,
Cafe L. M.,
Herd R. M.,
Gibson J. P.,
Greenwood P. L., Chen Y.
Animal Production Science. 2014 54(5). p.550
Liver proteomics unravel the metabolic pathways related to Feed Efficiency in beef cattle
Fonseca Leydiana D.,
Eler Joanir P.,
Pereira Mikaele A.,
Rosa Alessandra F.,
Alexandre Pâmela A.,
Moncau Cristina T.,
Salvato Fernanda,
Rosa-Fernandes Livia,
Palmisano Giuseppe,
Ferraz José B. S., Fukumasu Heidge
Scientific Reports. 2019 9(1).
Effects of physical activity and feed and water restriction at reimplanting time on feed intake patterns, growth performance, and carcass characteristics of finishing beef steers
Helmuth Cory L,
Woerner Dale R,
Ballou Michael A,
Manahan Jeff L,
Coppin Carley M,
Long Nathan S,
Hoffman Ashley A,
Young James Daniel,
Smock Taylor M, Hales Kristin E
Translational Animal Science. 2022 6(1).
Dissection of Koch's residual feed intake: Implications for selection
Aggrey Samuel E., Rekaya Romdhane
Poultry Science. 2013 92(10). p.2600
Relationships of the Microbial Communities with Rumen Epithelium Development of Nellore Cattle Finished in Feedlot Differing in Phenotypic Residual Feed Intake
Silvestre Antonio M.,
Pinto Ana Carolina J.,
Schleifer Werner F.,
Miranda Lidiane S.,
Silva Leandro A. F.,
Casali Daniel M.,
Souza Katia L. R.,
Gasparini Vanessa G. L.,
Cruz Gustavo D.,
Suen Garret, Millen Danilo D.
Animals. 2022 12(7). p.820
Effects of residual feed intake classification and method of alfalfa processing on ewe intake and growth
Redden R. R.,
Surber L. M. M.,
Grove A. V., Kott R. W.
Journal of Animal Science. 2014 92(2). p.830
A review of rumen parameters in bovines with divergent feed efficiencies: What do these parameters tell us about improving animal productivity and sustainability?
Fregulia Priscila,
Neves André Luis Alves,
Dias Roberto Júnio Pedroso, Campos Mariana Magalhães
Livestock Science. 2021 254 p.104761
Performance, feeding behavior and digestibility of nutrients in lambs with divergent efficiency traits
Lima Montelli Natália Ludmila Lins,
Almeida Amélia Katiane de,
Ribeiro Carolina Resende de Freitas,
Grobe Morgana Dayane,
Abrantes Melina Aparecida Felipe,
Lemos Guilherme Silva,
Furusho Garcia Iraides Ferreira, Pereira Idalmo Garcia
Small Ruminant Research. 2019 180 p.50
Systems Biology Reveals NR2F6 and TGFB1 as Key Regulators of Feed Efficiency in Beef Cattle
Alexandre Pâmela A.,
Naval-Sanchez Marina,
Porto-Neto Laercio R.,
Ferraz José Bento S.,
Reverter Antonio, Fukumasu Heidge
Frontiers in Genetics. 2019 10
Residual feed intake of purebred Angus steers: Effects on meat quality and palatability
Baker S. D.,
Szasz J. I.,
Klein T. A.,
Kuber P. S.,
Hunt C. W.,
Glaze J. B.,
Falk D.,
Richard R.,
Miller J. C.,
Battaglia R. A., Hill R. A.
Journal of Animal Science. 2006 84(4). p.938
Genetic and phenotypic relationships of feed intake and measures of efficiency with growth and carcass merit of beef cattle1
Nkrumah J. D.,
Basarab J. A.,
Wang Z.,
Li C.,
Price M. A.,
Okine E. K.,
Crews D. H., Moore S. S.
Journal of Animal Science. 2007 85(10). p.2711
Influence of feed efficiency classification on diet digestibility and growth performance of beef steers1
Russell J. R.,
Minton N. O.,
Sexten W. J.,
Kerley M. S., Hansen S. L.
Journal of Animal Science. 2016 94(4). p.1610
Rumen biohydrogenation and milk fatty acid profile in dairy ewes divergent for feed efficiency
Toral P.G.,
Hervás G.,
Fernández-Díez C.,
Belenguer A., Frutos P.
Journal of Dairy Science. 2021 104(5). p.5569
Rumen fermentation parameters and papillae development in Simmental growing bulls with divergent residual feed intake
Romanzin A.,
Braidot M.,
Beraldo P., Spanghero M.
animal. 2024 18(5). p.101149
Phenotypic and genetic relationships of residual feed intake with performance and ultrasound carcass traits in Brangus heifers1
Lancaster P. A.,
Carstens G. E.,
Crews D. H.,
Welsh T. H.,
Forbes T. D. A.,
Forrest D. W.,
Tedeschi L. O.,
Randel R. D., Rouquette F. M.
Journal of Animal Science. 2009 87(12). p.3887
Influence of Heifer Post-Weaning Voluntary Feed Intake Classification on Lifetime Productivity in Black Angus Beef Females
Wellnitz Krista R.,
Parsons Cory T.,
Dafoe Julia M.,
Boss Darrin L.,
Wyffels Samuel A.,
DelCurto Timothy, Van Emon Megan L.
Animals. 2022 12(13). p.1687
Effects of divergent selection for serum insulin-like growth factor-I concentration on performance, feed efficiency, and ultrasound measures of carcass composition traits in Angus bulls and heifers
Lancaster P. A.,
Carstens G. E.,
Ribeiro F. R. B.,
Davis M. E.,
Lyons J. G., Welsh T. H.
Journal of Animal Science. 2008 86(11). p.2862
Phenotypic and genetic relationships of feeding behavior with feed intake, growth performance, feed efficiency, and carcass merit traits in Angus and Charolais steers1
Chen L.,
Mao F.,
Crews D. H.,
Vinsky M., Li C.
Journal of Animal Science. 2014 92(3). p.974
Evaluation of Ingestive Behavior, Ruminal and Blood Parameters, Performance, and Thermography as a Phenotypic Divergence Markers of Residual Feed Intake in Rearing Dairy Heifers
Lombardi Mayara Campos,
Neto Hilton do Carmo Diniz,
Coelho Sandra Gesteira,
Machado Fernanda Samarini,
Pereira Luiz Gustavo Ribeiro,
Tomich Thierry Ribeiro, Campos Mariana Magalhães
Animals. 2022 12(3). p.331
Weight gain of free-ranging beef cattle grazing in the boreal forest of south-eastern Norway
Tofastrud Morten,
Hessle Anna,
Rekdal Yngve, Zimmermann Barbara
Livestock Science. 2020 233 p.103955
Genome-wide association and pathway analysis of feed efficiency in pigs reveal candidate genes and pathways for residual feed intake
Do Duy N.,
Strathe Anders B.,
Ostersen Tage,
Pant Sameer D., Kadarmideen Haja N.
Frontiers in Genetics. 2014 5
Genetic variability in residual feed intake in rainbow trout clones and testing of indirect selection criteria (Open Access publication)
Grima Laure,
Quillet Edwige,
Boujard Thierry,
Robert-Granié Christèle,
Chatain Béatrice, Mambrini Muriel
Genetics Selection Evolution. 2008 40(6). p.607
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
Responses of dairy cows with divergent residual feed intake as calves to metabolic challenges during midlactation and the nonlactating period
DiGiacomo K.,
Norris E.,
Dunshea F.R.,
Hayes B.J.,
Marett L.C.,
Wales W.J., Leury B.J.
Journal of Dairy Science. 2018 101(7). p.6474
Relationship between Residual Feed Intake and Production Traits in a Population of F2 Ducks
Zhang Yun-sheng,
Xu Ya-xi,
Fan Wen-lei,
Zhou Zheng-kui,
Zhang Zhi-ying, Hou Shui-sheng
The Journal of Poultry Science. 2019 56(1). p.27
Mitochondrial protein gene expression and the oxidative phosphorylation pathway associated with feed efficiency and energy balance in dairy cattle
Dorji Jigme,
MacLeod Iona M.,
Chamberlain Amanda J.,
Vander Jagt Christy J.,
Ho Phuong N.,
Khansefid Majid,
Mason Brett A.,
Prowse-Wilkins Claire P.,
Marett Leah C.,
Wales William J.,
Cocks Benjamin G.,
Pryce Jennie E., Daetwyler Hans D.
Journal of Dairy Science. 2021 104(1). p.575
Genetics of steer daily and residual feed intake in two tropical beef genotypes, and relationships among intake, body composition, growth and other post-weaning measures
Barwick S. A.,
Wolcott M. L.,
Johnston D. J.,
Burrow H. M., Sullivan M. T.
Animal Production Science. 2009 49(6). p.351
The effect of residual feed intake classification on forage intake by grazing beef cows
Meyer A. M.,
Kerley M. S., Kallenbach R. L.
Journal of Animal Science. 2008 86(10). p.2670
Residual feed intake in beef cattle
Arthur J P.F., Herd R.M.
Revista Brasileira de Zootecnia. 2008 37(spe). p.269
Nellore bulls ( Bos taurus indicus ) with high residual feed intake have increased the expression of genes involved in oxidative phosphorylation in rumen epithelium
Del Bianco Benedeti P.,
Detmann E.,
Mantovani H.C.,
Bonilha S.F.M.,
Serão N.V.L.,
Lopes D.R.G.,
Silva W.,
Newbold C.J., Duarte M.S.
Animal Feed Science and Technology. 2018 235 p.77
Review: Biological determinants of between-animal variation in feed efficiency of growing beef cattle
Cantalapiedra-Hijar G.,
Abo-Ismail M.,
Carstens G.E.,
Guan L.L.,
Hegarty R.,
Kenny D.A.,
McGee M.,
Plastow G.,
Relling A., Ortigues-Marty I.
Animal. 2018 12 p.s321
Application of infrared thermography as an indicator of heat and methane production and its use in the study of skin temperature in response to physiological events in dairy cattle (Bos taurus)
Montanholi Yuri R.,
Odongo Nicholas E.,
Swanson Kendall C.,
Schenkel Flávio S.,
McBride Brian W., Miller Stephen P.
Journal of Thermal Biology. 2008 33(8). p.468
Methods and consequences of including feed intake and efficiency in genetic selection for multiple-trait merit
Barwick Stephen A,
Henzell Anthony L,
Walmsley Brad J,
Johnston David J, Banks Robert G
Journal of Animal Science. 2018 96(5). p.1600
Temperament and performance of Nellore bulls classified for residual feed intake in a feedlot system
GUIMARÃES TIAGO P.,
RESTLE JOÃO,
MOREIRA KÍRIA KAROLLINE G.,
FREITAS NETO MARCONDES D. DE,
SOUZA LEONARDO FREDERICO N.,
MORAES ÉMERSON G., FERNANDES JULIANO JOSÉ R.
Anais da Academia Brasileira de Ciências. 2020 92(3).
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
Hayvan Beslemede Rezidüel Yem Tüketimi
ELFAKİ Mahmoud O. A., KILIÇ Ünal
Hayvansal Üretim. 2024 64(2). p.85
Increasing ewe genetic fecundity improves whole-farm production and reduces greenhouse gas emissions intensities
Harrison Matthew T.,
Jackson Tom,
Cullen Brendan R.,
Rawnsley Richard P.,
Ho Christie,
Cummins Leo, Eckard Richard J.
Agricultural Systems. 2014 131 p.23
Association of mitochondrial function and feed efficiency in poultry and livestock species1
Bottje W. G., Carstens G. E.
Journal of Animal Science. 2009 87(suppl_14). p.E48
Mitochondrial abundance and function in muscle from beef steers with divergent residual feed intakes
Fernandez E.E.,
Oltjen J.W., Sainz R.D.
Animal. 2020 14(3). p.560
FABP1 and SLC2A5 expression levels affect feed efficiency-related traits
Diniz Wellison J.S.,
da Rosa Kamila O.,
Tizioto Polyana C.,
Mourão Gerson B.,
de Oliveira Priscila S.N.,
de Souza Marcela M., Regitano Luciana C.A.
Agri Gene. 2020 15 p.100100
The effect of selection for residual feed intake on scale-activity and scale-exit scores in Yorkshire gilts
Sadler L. J.,
Johnson A. K.,
Nettleton D.,
Lewis C. R. G.,
Young J. M.,
Lonergan S. M., Dekkers J. C. M.
Animal Production Science. 2016 56(11). p.1875
Relationships between residual feed intake and hepatic mitochondrial function in growing beef cattle1
Lancaster P. A.,
Carstens G. E.,
Michal J. J.,
Brennan K. M.,
Johnson K. A., Davis M. E.
Journal of Animal Science. 2014 92(7). p.3134
Effect of totally replacing hay by wood chips and feed delivery system on performance, behavior and carcass traits of finishing steers
Beretta Virginia,
Simeone Alvaro,
Franco Juan,
Bentancur Oscar,
Casaretto Adolfo,
Mondelli Santiago, Valdez Guillermo
Livestock Science. 2021 243 p.104384
The Ruminant Farm Systems Animal Module: A Biophysical Description of Animal Management
Hansen Tayler L.,
Li Manfei,
Li Jinghui,
Vankerhove Chris J.,
Sotirova Militsa A.,
Tricarico Juan M.,
Cabrera Victor E.,
Kebreab Ermias, Reed Kristan F.
Animals. 2021 11(5). p.1373
Expression of the Ovine Gene and the Relationship Between Its Polymorphism and Feed Efficiency Traits
Zeng Xiwen,
Wang Weimin,
Zhang Deyin,
Li Xiaolong,
Zhang Yukun,
Zhao Yuan,
Zhao Liming,
Wang Jianghui,
Xu Dan,
Cheng Jiangbo,
Li Wenxin,
Zhou Bubo,
Lin Changchun,
Yang Xiaobin,
Zhai Rui,
Ma Zongwu,
Liu Jia,
Cui Panpan,
Weng Xiuxiu,
Wu Weiwei,
Zhang Xiaoxue, Zheng Wenxin
DNA and Cell Biology. 2023 42(4). p.194
Radiated temperature from thermal imaging is related to feed consumption, growth rate and feed efficiency in grower pigs
Cook Nigel,
Chabot Brady,
Liu Tong,
Froehlich Denise,
Basarab John, Juarez Manuel
Journal of Thermal Biology. 2020 94 p.102747
Growth performance, reproductive parameters and fertility measures in young Nellore bulls with divergent feed efficiency
Rossi Guilherme Fazan,
Bastos Natália Marins,
Vrisman Dayane Priscila,
Rodrigues Naiara Nantes,
Vantini Roberta,
Garcia Joaquim Mansano,
Dias Erika Aline Ribeiro,
Simili Flávia Fernanda,
Guimarães André Lasmar,
Canesin Roberta Carrilho,
Mercadante Maria Eugênia Zerlotti,
Freitas-Dell’Aqua Camila de Paula,
Athayde Flávia Regina Florencio de,
Monteiro Fabio Morato, Mingoti Gisele Zoccal
Animal Reproduction. 2022 19(3).
RUMINANT NUTRITION SYMPOSIUM: Use of genomics and transcriptomics to identify strategies to lower ruminal methanogenesis1,2,3
McAllister T. A.,
Meale S. J.,
Valle E.,
Guan L. L.,
Zhou M.,
Kelly W. J.,
Henderson G.,
Attwood G. T., Janssen P. H.
Journal of Animal Science. 2015 93(4). p.1431
Characterization and evaluation of residual feed intake measured in mid- to late-gestation mature beef cows and relationships with circulating serum metabolites and linear body measurements
Wood K. M.,
Montanholi Y. R.,
Fitzsimmons C. F.,
Miller S. P.,
McBride B. W., Swanson K. C.
Canadian Journal of Animal Science. 2014 94(3). p.499
Relationships between residual feed intake and feedlot performance, profitability, and carcass traits in Brahman cattle
Favero R.,
Mizubuti I.Y.,
Gomes R.C.,
Ribeiro E.L.A.,
Pereira E.S.,
Prado-Calixto O.P.P.,
Massaro Júnior F.L., Santos A.P.S.
Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 2018 70(2). p.525
Digestion and metabolism of low and high residual feed intake Nellore bulls
Bonilha Sarah Figueiredo Martins,
Branco Renata Helena,
Mercadante Maria Eugênia Zerlotti,
dos Santos Gonçalves Cyrillo Joslaine Noely,
Monteiro Fábio Morato, Ribeiro Enilson Geraldo
Tropical Animal Health and Production. 2017 49(3). p.529
Partitioning of energy and nitrogen in lactating primiparous and multiparous Holstein–Friesian cows with divergent residual feed intake
Marett L. C.,
Williams S. R. O.,
Hayes B. J.,
Pryce J. E., Wales W. J.
Animal Production Science. 2017 57(7). p.1499
Identification of Microbial Genetic Capacities and Potential Mechanisms Within the Rumen Microbiome Explaining Differences in Beef Cattle Feed Efficiency
Auffret Marc D.,
Stewart Robert D.,
Dewhurst Richard J.,
Duthie Carol-Anne,
Watson Mick, Roehe Rainer
Frontiers in Microbiology. 2020 11
Residual feed intake of Nellore calves is not repeatable across pre and post weaning periods
Souza Luana Lelis,
Bis Flávia Cristina,
Sakamoto Leandro Sannomiya,
Broleze Danielly Fernanda,
Batalha Camila Delveaux Araújo, Mercadante Maria Eugênia Zerlotti
Ciência Rural. 2021 51(6).
Feedlot performance, feed efficiency reranking, carcass traits, body composition, energy requirements, meat quality and calpain system activity in Nellore steers with low and high residual feed intake
Gomes R.C.,
Sainz R.D.,
Silva S.L.,
César M.C.,
Bonin M.N., Leme P.R.
Livestock Science. 2012 150(1-3). p.265
Proteomic analysis of adipose tissue revealing differentially abundant proteins in highly efficient mid-lactating dairy cows
Ben Meir Yehoshav A.,
Daddam Jayasimha R.,
Kra Gitit,
Kamer Hadar,
Portnick Yuri,
Levin Yishai, Zachut Maya
Scientific Reports. 2022 12(1).
Genetics of behavioural adaptation of livestock to farming conditions
Canario L.,
Mignon-Grasteau S.,
Dupont-Nivet M., Phocas F.
Animal. 2013 7(3). p.357
Characterization of water intake and water efficiency in beef cattle1,2
Ahlberg Cashley M,
Allwardt Kristi,
Broocks Ashley,
Bruno Kelsey,
Taylor Alexandra,
Mcphillips Levi,
Krehbiel Clint R,
Calvo-Lorenzo Michelle,
Richards Chris J,
Place Sara E,
Desilva Udaya,
Vanoverbeke Deborah L,
Mateescu Raluca G,
Kuehn Larry A,
Weaber Robert,
Bormann Jennifer, Rolf Megan M
Journal of Animal Science. 2019 97(12). p.4770
Performance and carcass quality of Czech Fleckvieh, Charolais and Charolais × Czech Fleckvieh bulls fed diets based on different types of silages
Bartoň L.,
Kudrna V.,
Bureš D.,
Zahrádková R., Teslík V.
Czech Journal of Animal Science. 2007 52(9). p.269
Associação entre eficiência alimentar e ganho em acabamento de carcaça de bovinos da raça Nelore
Gomes M.M.A.,
Faria C.U.,
Bezerra B.S.B.R.,
Miguel J.M.,
Borges G.C., Mendes E.D.M.
Arquivo Brasileiro de Medicina Veterinária e Zootecnia. 2019 71(6). p.2017
A Hypothesis and Review of the Relationship between Selection for Improved Production Efficiency, Coping Behavior, and Domestication
Rauw Wendy M.,
Johnson Anna K.,
Gomez-Raya Luis, Dekkers Jack C. M.
Frontiers in Genetics. 2017 8
POSSIBILITIES OF APPLICATION OF FEED EFFICIENCY AND REPRODUCTION TRAITS IN DAIRY CATTLE BREEDING OF UKRAINE
Ruban S. Yu.,
Danshin V. O., Fedota A. M.
Animal Science and Food Technology. 2019 10(3). p.41
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 3. Feed efficiency and feeding behaviour of feedlot-finished animals
Schutt K. M.,
Arthur P. F., Burrow H. M.
Animal Production Science. 2009 49(6). p.452
Residual feed intake in beef cattle and its association with carcass traits, ruminal solid-fraction bacteria, and epithelium gene expression
Elolimy Ahmed A.,
Abdelmegeid Mohamed K.,
McCann Joshua C.,
Shike Daniel W., Loor Juan J.
Journal of Animal Science and Biotechnology. 2018 9(1).
Utilization of macrominerals and trace elements in pregnant heifers with distinct feed efficiencies
Dias R.S.,
Montanholi Y.R.,
Lopez S.,
Smith B.,
Miller S.P., France J.
Journal of Dairy Science. 2016 99(7). p.5413
Exploring Biological Impacts of Prenatal Nutrition and Selection for Residual Feed Intake on Beef Cattle Using Omics Technologies: A Review
Foroutan Aidin,
Wishart David S., Fitzsimmons Carolyn
Frontiers in Genetics. 2021 12
Effect of moderate forced physical activity on behaviour, lameness and osteochondrosis in growing pigs from two divergent lines selected for feed efficiency
Boudon A.,
Karhapää M.,
Siljander-Rasi H.,
Cantaloube E.,
Brossard L.,
Le Floc'h N., Meunier-Salaün M.C.
Animal - Open Space. 2022 1(1). p.100010
Carcass and Meat Quality Traits in Young Bulls Fed Virginia Fanpetals Silage
Nogalski Zenon,
Starczewski Maciej,
Purwin Cezary,
Pogorzelska-Przybyłek Paulina,
Sobczuk-Szul Monika, Modzelewska-Kapituła Monika
Annals of Animal Science. 2020 20(3). p.1127
The effect of selection for residual feed intake on general behavioral activity and the occurrence of lesions in Yorkshire gilts1
Sadler L. J.,
Johnson A. K.,
Lonergan S. M.,
Nettleton D., Dekkers J. C. M.
Journal of Animal Science. 2011 89(1). p.258
Characterization of feed efficiency traits and relationships with feeding behavior and ultrasound carcass traits in growing bulls
Lancaster P. A.,
Carstens G. E.,
Ribeiro F. R. B.,
Tedeschi L. O., Crews D. H.
Journal of Animal Science. 2009 87(4). p.1528
Predicting feedlot cattle performance from intake of dry matter and NEg early in the feeding period
Silvestre A.M.,
Cruz G.D.,
Owens F.N.,
Pereira M.C.S.,
Hicks R.B., Millen D.D.
Livestock Science. 2019 223 p.108
Suckler cow efficiency – breed by environment interactions in commercial herds under various natural production conditions
Wetlesen M. S.,
Åby B. A.,
Vangen O., Aass L.
Acta Agriculturae Scandinavica, Section A — Animal Science. 2018 68(4). p.161
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
KCNJ11 gene expression is associated to feed consumption and growth traits in Nelore beef cattle
Diniz Wellison J.S.,
Rosa Kamila O.,
Coutinho Luiz L.,
Tizioto Polyana C.,
de Oliveira Priscila S.N.,
de Souza Marcela M.,
Chaves Amália S.,
Lanna Dante P.D.,
Mourão Gerson B., Regitano Luciana C.A.
Agri Gene. 2018 9 p.1
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
