Effects of type of supplemental carbohydrate and source of supplemental rumen degradable protein on low quality forage utilization by beef steers
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T. Nagaraja | T. Wickersham | D. Johnson | E. Titgemeyer | R. Cochran | D. Llewellyn | J. Arroquy | D.E Johnson
[1] E. Titgemeyer,et al. Effect of increasing proportion of supplemental N from urea in prepartum supplements on range beef cow performance and on forage intake and digestibility by steers fed low-quality forage. , 2002, Journal of animal science.
[2] G. Horn,et al. A collaborative study comparing an in situ protocol with single time-point enzyme assays for estimating ruminal protein degradability of different forages , 2001 .
[3] H. T. Purvis,et al. Effects of supplementing prairie hay with corn and soybean meal on intake, digestion, and ruminal measurements by beef steers. , 2000, Journal of animal science.
[4] T. Nagaraja,et al. Effects of different supplemental sugars and starch fed in combination with degradable intake protein on low-quality forage use by beef steers. , 1999, Journal of animal science.
[5] T. Nagaraja,et al. Effects of level and source of carbohydrate and level of degradable intake protein on intake and digestion of low-quality tallgrass-prairie hay by beef steers. , 1999, Journal of animal science.
[6] D. Johnson,et al. Effects of ruminal administration of supplemental degradable intake protein and starch on utilization of low-quality warm-season grass hay by beef steers. , 1999, Journal of animal science.
[7] P. H. Robinson,et al. Influence of supplemental protein quality on rumen fermentation, rumen microbial yield, forestomach digestion, and intestinal amino acid flow in late lactation Holstein cows , 1998 .
[8] T. Nagaraja,et al. Effect of increasing proportion of supplemental nitrogen from urea on intake and utilization of low-quality, tallgrass-prairie forage by beef steers. , 1997, Journal of animal science.
[9] J. Caton,et al. Influence of energy supplementation on grazing ruminants: requirements and responses. , 1997, Journal of animal science.
[10] E. Titgemeyer,et al. Effect of increasing degradable intake protein on intake and digestion of low-quality, tallgrass-prairie forage by beef cows. , 1996, Journal of animal science.
[11] J. O. Fritz,et al. Evaluation of the potential of supplements to substitute for low-quality, tallgrass-prairie forage. , 1996, Journal of animal science.
[12] G. Fahey,et al. Forage Quality, Evaluation, and Utilization , 1994 .
[13] B. Hull,et al. Digestion in the rumen and total tract of forage-based diets with starch or dextrose supplements fed to Holstein heifers. , 1994, Journal of Dairy Science.
[14] R. Cochran,et al. Performance and forage utilization by beef cattle receiving increasing amounts of alfalfa hay as a supplement to low-quality, tallgrass-prairie forage. , 1994, Journal of animal science.
[15] P. V. Soest,et al. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. , 1991, Journal of dairy science.
[16] A. Mcallan. Carbohydrate and nitrogen metabolism in the forestomach of steers given untreated or ammonia treated barley straw diets supplemented with urea or urea plus fishmeal , 1991 .
[17] R. Merry,et al. In vitro continuous culture studies on the effect of nitrogen source on rumen microbial growth and fibre digestion. , 1990 .
[18] D. Sanson,et al. Intake and digestion of low-quality meadow hay by steers and performance of cows on native range when fed protein supplements containing various levels of corn. , 1990, Journal of animal science.
[19] T. DelCurto,et al. Supplementation of dormant tallgrass-prairie forage: I. Influence of varying supplemental protein and(or) energy levels on forage utilization characteristics of beef steers in confinement. , 1990, Journal of animal science.
[20] D. Johnson,et al. Supplementation of dormant tallgrass-prairie forage: II. Performance and forage utilization characteristics in grazing beef cattle receiving supplements of different protein concentrations. , 1990, Journal of animal science.
[21] D. Hennessy,et al. Responses to nitrogen and maize supplements by young cattle offered a low-quality pasture hay , 1987 .
[22] W. Hoover. Chemical factors involved in ruminal fiber digestion. , 1986, Journal of dairy science.
[23] J. Russell,et al. Effect of Carbon-4 and Carbon-5 Volatile Fatty Acids on Digestion of Plant Cell Wall In Vitro , 1985 .
[24] E. Ørskov,et al. Associative effects of mixed feeds. I. effects of type and level of supplementation and the influence of the rumen fluid pH on cellulolysis in vivo and dry matter digestion of various roughages , 1983 .
[25] E. Ørskov,et al. Manipulation of rumen fluid pH and its influence on cellulolysis in sacco, dry matter degradation and the rumen microflora of sheep offered either hay or concentrate , 1983 .
[26] J. Nolan,et al. The roles of energy- or protein-rich supplements in the subtropics for young cattle consuming basal diets that are low in digestible energy and protein , 1983, The Journal of Agricultural Science.
[27] M. Cotta,et al. Effect of Peptides and Amino Acids on Efficiency of Rumen Bacterial Protein Synthesis in Continuous Culture , 1982 .
[28] H. M. Schwartz,et al. Factors affecting the intake and digestion of roughage by sheep fed maize straw supplemented with maize grain , 1980, The Journal of Agricultural Science.
[29] F. Owens,et al. Evaluation of Slow-Release Urea for Winter Supplementation of Lactating Range Cows , 1980 .
[30] F. Owens,et al. Slow ammonia release from urea: rumen and metabolism studies. , 1980, Journal of animal science.
[31] G. Broderick,et al. Automated simultaneous determination of ammonia and total amino acids in ruminal fluid and in vitro media. , 1980, Journal of dairy science.
[32] R. R. Johnson,et al. Microbial Protein Synthesis Low Quality Roughage Rations: Level and Source of Nitrogen , 1977 .
[33] R. R. Johnson,et al. Microbial Protein Synthesis with Low Quality Roughage Rations: Isonitrogenous Substitution of Urea for Soybean Meal , 1977 .
[34] R. R. Johnson. Influence of carbohydrate solubility on non-protein nitrogen utilization in the ruminant. , 1976, Journal of animal science.
[35] E. Payne,et al. The efficacy of protein supplementation in overcoming urea toxicity in sheep , 1976, British Journal of Nutrition.
[36] C. V. Van Nevel,et al. Rumen microbial growth rates and yields: effect of amino acids and protein. , 1976, Journal of dairy science.
[37] F. Sauer,et al. Amino acid biosynthesis in mixed rumen cultures. , 1975, The Biochemical journal.
[38] W. C. Burns,et al. Biuret, urea and natural proteins as nitrogen supplements for low quality roughage for sheep. , 1972, Journal of animal science.
[39] E. E. Bartley,et al. Progress in the utilization of urea as a protein replacer for ruminants. A review. , 1971 .
[40] L. Rittenhouse,et al. Intake and Digestibility of Winter-Range Forage by Cattle with and without Supplements , 1970 .
[41] M. Allison. Biosynthesis of amono acids by ruminal microorganisms. , 1969, Journal of animal science.
[42] L. Satter,et al. In vitro lactate metabolism by ruminal ingesta. , 1968, Applied microbiology.
[43] W. Burroughs,et al. Suction Strainer Technique in Obtaining Rumen Fluid Samples from Intact Lambs , 1962 .
[44] I. J. Belasco. The Role of Carbohydrates in Urea Utilization, Cellulose Digestion and Fatty Acid Formation , 1956 .
[45] E. B. Hart,et al. Utilization of Urea and Growth of Heifer Calves with Corn Molasses or Cane Molasses as the Only Readily Available Carbohydrate in the Ration , 1944 .
[46] William H. Summerson,et al. The colorimetric determination of lactic acid in biological material. , 1941 .