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Items: 1 to 20 of 119

1.

Associations between residual feed intake and apparent nutrient digestibility, in vitro methane producing activity, and volatile fatty acid concentrations in growing beef cattle.

Johnson JR, Carstens GE, Krueger WK, Lancaster PA, Brown EG, Tedeschi LO, Anderson RC, Johnson KA, Brosh A.

J Anim Sci. 2019 Jun 7. pii: skz195. doi: 10.1093/jas/skz195. [Epub ahead of print]

PMID:
31175808
2.

Effect of divergence in phenotypic residual feed intake on methane emissions, ruminal fermentation, and apparent whole-tract digestibility of beef heifers across three contrasting diets.

McDonnell RP, Hart KJ, Boland TM, Kelly AK, McGee M, Kenny DA.

J Anim Sci. 2016 Mar;94(3):1179-93. doi: 10.2527/jas.2015-0080.

PMID:
27065279
3.

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. doi: 10.2527/jas.2013-6956. Epub 2013 Oct 21.

PMID:
24146149
4.

Hot topic: Selecting cattle for low residual feed intake did not affect daily methane production but increased methane yield.

Flay HE, Kuhn-Sherlock B, Macdonald KA, Camara M, Lopez-Villalobos N, Donaghy DJ, Roche JR.

J Dairy Sci. 2019 Mar;102(3):2708-2713. doi: 10.3168/jds.2018-15234. Epub 2019 Jan 11.

5.

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.

PMID:
16361501
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 Jr, McGee M.

J Anim Sci. 2011 Oct;89(10):3248-61. doi: 10.2527/jas.2010-3774. Epub 2011 May 27.

PMID:
21622881
7.

Relationships between postweaning residual feed intake in heifers and forage use, body composition, feeding behavior, physical activity, and heart rate of pregnant beef females.

Hafla AN, Carstens GE, Forbes TD, Tedeschi LO, Bailey JC, Walter JT, Johnson JR.

J Anim Sci. 2013 Nov;91(11):5353-65. doi: 10.2527/jas.2013-6423. Epub 2013 Aug 29.

PMID:
23989881
8.

Effect of sward dry matter digestibility on methane production, ruminal fermentation, and microbial populations of zero-grazed beef cattle.

Hart KJ, Martin PG, Foley PA, Kenny DA, Boland TM.

J Anim Sci. 2009 Oct;87(10):3342-50. doi: 10.2527/jas.2009-1786. Epub 2009 Jun 19.

PMID:
19542500
9.

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. doi: 10.2527/jas.2009-1851. Epub 2009 Apr 24.

PMID:
19395511
10.

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 Jr, Fahey AG, Wylie AR, Kenny DA.

J Anim Sci. 2010 Jan;88(1):109-23. doi: 10.2527/jas.2009-2196. Epub 2009 Oct 9.

PMID:
19820067
11.

Relationships between residual feed intake and hepatic mitochondrial function in growing beef cattle.

Lancaster PA, Carstens GE, Michal JJ, Brennan KM, Johnson KA, Davis ME.

J Anim Sci. 2014 Jul;92(7):3134-41. doi: 10.2527/jas.2013-7409. Epub 2014 Jun 3.

PMID:
24894006
12.

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 PA, Carstens GE, Ribeiro FR, Davis ME, Lyons JG, Welsh TH Jr.

J Anim Sci. 2008 Nov;86(11):2862-71. doi: 10.2527/jas.2008-1083. Epub 2008 Aug 1.

PMID:
18676718
13.

Effects of dietary exogenous fibrolytic enzymes on ruminal fermentation characteristics of beef steers fed high- and low-quality growing diets1.

Kondratovich LB, Sarturi JO, Hoffmann CA, Ballou MA, Trojan SJ, Campanili PRB.

J Anim Sci. 2019 Jul 2;97(7):3089-3102. doi: 10.1093/jas/skz165.

PMID:
31095316
14.

Phenotypic and genetic relationships of residual feed intake with performance and ultrasound carcass traits in Brangus heifers.

Lancaster PA, Carstens GE, Crews DH Jr, Welsh TH Jr, Forbes TD, Forrest DW, Tedeschi LO, Randel RD, Rouquette FM.

J Anim Sci. 2009 Dec;87(12):3887-96. doi: 10.2527/jas.2009-2041. Epub 2009 Aug 28.

PMID:
19717782
15.

Buffalo heifers selected for lower residual feed intake have lower feed intake, better dietary nitrogen utilisation and reduced enteric methane production.

Sharma VK, Kundu SS, Datt C, Prusty S, Kumar M, Sontakke UB.

J Anim Physiol Anim Nutr (Berl). 2018 Apr;102(2):e607-e614. doi: 10.1111/jpn.12802. Epub 2017 Oct 13.

PMID:
29027698
16.

Methane production, rumen fermentation, and diet digestibility of Holstein and Jersey dairy cows being divergent in residual feed intake and fed at 2 forage-to-concentrate ratios.

Olijhoek DW, Løvendahl P, Lassen J, Hellwing ALF, Höglund JK, Weisbjerg MR, Noel SJ, McLean F, Højberg O, Lund P.

J Dairy Sci. 2018 Nov;101(11):9926-9940. doi: 10.3168/jds.2017-14278. Epub 2018 Sep 7.

17.

Effect of dietary fat concentration from condensed corn distillers' solubles, during the growing phase, on beef cattle performance, carcass traits, digestibility, and ruminal metabolism.

Segers JR, Felix TL, Green AR, Maia GN, Ramirez BC, Shike DW.

J Anim Sci. 2015 Aug;93(8):3990-4001. doi: 10.2527/jas.2015-8917.

PMID:
26440179
18.

Repeatability of feed efficiency, carcass ultrasound, feeding behavior, and blood metabolic variables in finishing heifers divergently selected for residual feed intake.

Kelly AK, McGee M, Crews DH Jr, Sweeney T, Boland TM, Kenny DA.

J Anim Sci. 2010 Oct;88(10):3214-25. doi: 10.2527/jas.2009-2700. Epub 2010 Jun 4.

PMID:
20525931
19.
20.

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. doi: 10.2527/jas.2011-4781. Epub 2013 Aug 21.

PMID:
23965389

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