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Journal Abstract Search

267 related items for PubMed ID: 17296777

  • 1.
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  • 2. Effect of divergence in residual feed intake on feeding behavior, blood metabolic variables, and body composition traits in growing beef heifers.
    Kelly AK, McGee M, Crews DH, Fahey AG, Wylie AR, Kenny DA.
    J Anim Sci; 2010 Jan; 88(1):109-23. PubMed ID: 19820067
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  • 3. Growth, carcass quality, and protein and energy metabolism in beef cattle with different growth potentials and residual feed intakes.
    Castro Bulle FC, Paulino PV, Sanches AC, Sainz RD.
    J Anim Sci; 2007 Apr; 85(4):928-36. PubMed ID: 17178805
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  • 4. The relationship of feeding behavior to residual feed intake in crossbred Angus steers fed traditional and no-roughage diets.
    Golden JW, Kerley MS, Kolath WH.
    J Anim Sci; 2008 Jan; 86(1):180-6. PubMed ID: 17785590
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  • 5. Performance, residual feed intake, digestibility, carcass traits, and profitability of Angus-Hereford steers housed in individual or group pens.
    Cruz GD, Rodríguez-Sánchez JA, Oltjen JW, Sainz RD.
    J Anim Sci; 2010 Jan; 88(1):324-9. PubMed ID: 19749019
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  • 6. Grass silage intake, rumen and blood variables, ultrasonic and body measurements, feeding behavior, and activity in pregnant beef heifers differing in phenotypic residual feed intake.
    Lawrence P, Kenny DA, Earley B, Crews DH, McGee M.
    J Anim Sci; 2011 Oct; 89(10):3248-61. PubMed ID: 21622881
    [Abstract] [Full Text] [Related]

  • 7. Enteric methane production from beef cattle that vary in feed efficiency.
    Freetly HC, Brown-Brandl TM.
    J Anim Sci; 2013 Oct; 91(10):4826-31. PubMed ID: 23965389
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  • 10. Relationship between feeding behavior and residual feed intake in growing Brangus heifers.
    Bingham GM, Friend TH, Lancaster PA, Carstens GE.
    J Anim Sci; 2009 Aug; 87(8):2685-9. PubMed ID: 19395511
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  • 12. Effect of breed composition on phenotypic residual feed intake and growth in Angus, Brahman, and Angus x Brahman crossbred cattle.
    Elzo MA, Riley DG, Hansen GR, Johnson DD, Myer RO, Coleman SW, Chase CC, Wasdin JG, Driver JD.
    J Anim Sci; 2009 Dec; 87(12):3877-86. PubMed ID: 19684277
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  • 13. Relationships of feedlot feed efficiency, performance, and feeding behavior with metabolic rate, methane production, and energy partitioning in beef cattle.
    Nkrumah JD, Okine EK, Mathison GW, Schmid K, Li C, Basarab JA, Price MA, Wang Z, Moore SS.
    J Anim Sci; 2006 Jan; 84(1):145-53. PubMed ID: 16361501
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  • 15. Methane emissions, body composition, and rumen fermentation traits of beef heifers differing in residual feed intake.
    Fitzsimons C, Kenny DA, Deighton MH, Fahey AG, McGee M.
    J Anim Sci; 2013 Dec; 91(12):5789-800. PubMed ID: 24146149
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  • 17. Genetic parameters for predicted methane production and potential for reducing enteric emissions through genomic selection.
    Haas Yd, Windig JJ, Calus MP, Dijkstra J, Haan Md, Bannink A, Veerkamp RF.
    J Dairy Sci; 2011 Dec; 94(12):6122-34. PubMed ID: 22118100
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  • 18. Phenotypic and genetic parameters for different measures of feed efficiency in different breeds of Irish performance-tested beef bulls.
    Crowley JJ, McGee M, Kenny DA, Crews DH, Evans RD, Berry DP.
    J Anim Sci; 2010 Mar; 88(3):885-94. PubMed ID: 19966161
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  • 19. Association of SNP of neuropeptide Y, leptin, and IGF-1 genes with residual feed intake in confinement and under grazing condition in Angus cattle.
    Trujillo AI, Casal A, Peñagaricano F, Carriquiry M, Chilibroste P.
    J Anim Sci; 2013 Sep; 91(9):4235-44. PubMed ID: 23881687
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  • 20. Effects of ractopamine hydrochloride on performance, rate and variation in feed intake, and acid-base balance in feedlot cattle.
    Abney CS, Vasconcelos JT, McMeniman JP, Keyser SA, Wilson KR, Vogel GJ, Galyean ML.
    J Anim Sci; 2007 Nov; 85(11):3090-8. PubMed ID: 17609477
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