Effect of Suplementation with Concentrates Or Silager on Animal Performance and Efficiency of Microbial Protein Synthesis in the Rumen on Dairy Cows Grazing Autumn Pastures PDF Download
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Author: Miguel Ruiz Albarran
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Miguel Ruiz Albarran
Publisher:
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Category :
Languages : en
Pages :
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Author: Ronald Zom
Publisher:
ISBN:
Category :
Languages : en
Pages : 61
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Two grazing experiments were carried out to investigate the effects of 1. Compartmented continuous grazing 2. Strip grazing and 3. Protein supplementation strategy (Low and High rumen degradable protein (RDP) and high RDP plus additional metabolisable protein) on pasture intake, milk and milk solids yield in spring calving dairy cows. Neither grazing system nor protein supplementation strategy influenced pasture dry matter intake. However, high RDP resulted in higher milk yield and milk protein outputs. Additional high RDP plus additional metabolisable protein did not result in further improvement of milk performance. High RDP and high RDP plus additional metabolisable protein resulted in reduced nitrogen use efficiency. Despite similar diet compositions in both experiments, there were large differences in rumen NH3 and apparent OMD between experiments, suggesting strong year to year effects in rumen fermentation and rumen digestion which were not reflected in the feeding values.
Author: Jorge A. Rodela
Publisher:
ISBN:
Category :
Languages : en
Pages : 90
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Eight ruminally and duodenally cannulated, angus-crossbred cows (665 ± 20.6 kg) grazing winter wheat pasture (WWP) were used in a complete randomized design to evaluate the effects of fish meal (FM) supplementation on forage intake, characteristics of digestion and metabolizable protein of cattle grazing WWP. The experiment was conducted from March 7 through March 19, 2016. Treatments consisted of cows grazing in a single pasture and supplemented with FM to provide: control, no RUP supplement (CON), or FM supplemented at a level calculated to supply 10% of the forage CP intake as RUP (FM). Supplemental FM was placed directly into the rumen cannula once daily at 0700 h. Forage DM, NDF, CP, total OM intake, OM intake expressed as g/kg of BW were not affected (P ≥ 0.44) by FM supplementation. Also, supplemental FM had no effects on microbial protein efficiency (P = 0.34), microbial protein synthesis (P = 0.70), feed protein bypassing rumen fermentation (P = 0.72), or total CP flowing to duodenum (P = 0.07). Moreover, true ruminal, or total tract digestibility of OM, NDF, and CP were not affected (P ≥ 0.38) by FM supplementation. Ruminal pH (6.37, and 6.43 ± 0.09 for CON and FM, respectively), total VFA production (50.2, and 49.7 ± 0.1.74 mM for CON and FM, respectively), acetate (74.4, and 74.6 ± 0.77 mol/100 mol for CON and FM, respectively), propionate (16.7, and 16.1 ± 0.62 mol/100 mol for CON and FM, respectively) and acetate/propionate ratio (4.49 and 4.69 ± 0.22 for CON and FM, respectively) were not affected by FM supplementation (P ≥ 0.49). Although FM supplementation did not decrease forage intake, it failed to improve MP of cows grazing WWP. The results indicate that improvements in performance of cattle grazing WWP should not be expected with supplementing FM at the level supplemented in this experiment
Author: Lyle Mason Rode
Publisher:
ISBN:
Category : Microbial proteins
Languages : en
Pages : 328
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Author: Inka-Donata Niehoff
Publisher: Cuvillier Verlag
ISBN: 3736931352
Category : Science
Languages : en
Pages : 146
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Due to the incorporation of niacin into the coenzymes NAD and NADP, niacin is of great importance for the metabolism of man and animals. Apart from niacin in feed and endogenous formation, microbial niacin synthesis in the rumen is an important source for dairy cows. But the amount synthesized seems to differ greatly, which might be influenced by the ration fed. Many studies revealed a positive impact of a niacin supplementation on rumen protozoa, but microbial protein synthesis or volatile fatty acid production in the rumen showed inconsistent reactions to supplemental niacin. The amount of niacin reaching the duodenum is usually higher when niacin is fed. But not the whole quantity supplemented reaches the duodenum, indicating degradation or absorption before the duodenal cannula. Furthermore, supplementation of niacin did not always lead to a higher niacin concentration in blood. Effects on other blood parameters have been inconsistent, but might be more obvious when cows are in a tense metabolic situation, for example, ketosis or if high amounts are infused post-ruminally, since ruminal degradation appears to be substantial. The same is valid for milk parameters. In the few studies where blood niacin and milk parameters have been investigated, enhanced niacin concentrations in blood did not necessarily affect milk production or composition. These results are discussed in the present review, gaps of knowledge of niacin’s mode of action on the metabolism of dairy cows are identified and directions for future research are suggested.
Author: Claudia Leonardi
Publisher:
ISBN:
Category :
Languages : en
Pages : 156
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Author: Ulises A. Sanchez-Sandoval
Publisher:
ISBN:
Category :
Languages : en
Pages : 84
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Eight Angus cross-bred cows (669 ± 23.2 kg of BW) fitted with duodenal and ruminal cannulas grazing winter wheat pasture (WWP) were used in a split-plot design to evaluate the effects of monensin supplementation and WWP stage of maturity on forage intake, digestive function, metabolizable protein, and ruminal fermentation. Supplemental treatment was the main plot, and stage of maturity was the subplot. Two levels of monensin supplementation: 1) Control (CON; 1.0 kgcow−1d−1 of wheat middling only), and 2) monensin (MON; CON plus 200 mg of monensin); and two stages of WWP maturity: 2) mid-March (MAR; March 13 to March 26; vegetative stage), and 2) early April) (APR; March 27 to April 8; heading stage) of 2017 were compared in a 2 x 2 factorial arrangement of treatments. Cows grazed in a single wheat pasture with supplements deposited directly into their rumens through their rumen cannula at 0700 daily. Monensin supplementation did not affect forage intake (P = 0.64), nutrient flow to duodenum (P ≥ 0.47) or total tract digestion expressed as kg/d (P > 0.45). Although, OM and CP flowing to the duodenum were not affected by monensin supplementation (P ≥ 0.53), microbial OM and microbial CP decreased (P = 0.03) with monensin supplementation. As stage of maturity of WWP advanced, forage intake (P = 0.02), ruminal digestibility of DM and OM (P ≤ 0.05) and total tract digestion expressed as kg/d (P = 0.01) decreased. Also, total duodenal CP (P = 0.01), microbial protein (P = 0.01), and feed protein (bypass protein; P = 0.03) flow decreased with advancing WWP stage of maturity. Monensin supplementation increased (P = 0.01) propionate (18.38, and 20.79 ± 0.55 mol/100 mol), and decreased (P = 0.01) the acetate: propionate ratio (3.26, and 2.73 ± 0.13). Ruminal pH (6.03 and 6.31 ± 0.08), acetate (54.6 and 58.3 ± 0.98 mol/100 mol), and acetate propionate ratio (2.52, and 3.48 ± 0.13) increased (P ≤ 0.04), and propionate (21.9, and 17.3 ± 0.56 mol/100 mol) decreased (P ≤ 0.05) with advancing WWP stage of maturity. Results suggest that monensin increases propionate without affecting forage intake, digestibility or metabolizable protein of cattle grazing WWP. Key words: metabolizable protein, microbial synthesis, monensin, winter wheat pasture
Author:
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 1732
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Author: Pierre J. Gerber
Publisher: Food & Agriculture Organization of the UN (FAO)
ISBN:
Category : Nature
Languages : en
Pages : 240
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The current analysis was conducted to evaluate the potential of nutritional, manure and animal husbandry practices for mitigating methane (CH4) and nitrous oxide (N2O) - i.e. non-carbon dioxide (CO2) - GHG emissions from livestock production. These practices were categorized into enteric CH4, manure management and animal husbandry mitigation practices. Emphasis was placed on enteric CH4 mitigation practices for ruminant animals (only in vivo studies were considered) and manure mitigation practices for both ruminant and monogastric species. Over 900 references were reviewed; simulation and life cycle assessment analyses were generally excluded
Author: Fathi M. Amraga
Publisher:
ISBN:
Category : Cattle
Languages : en
Pages : 76
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Eight ruminally and duodenally cannulated, Angus-crossbred heifers (272 ± 19.2 kg) grazing winter wheat pasture (WWP) were used in a completely randomized design to evaluate effects of wheat middling (WM; offered at 0.4% of BW; as-fed basis) supplementation on metabolizable protein. The experiment was conducted from April 5 through April 19, 2013. Heifers grazed in a single WWP with supplements offered individually, once daily at 0700 h. Forage DM, total OM, NDF intake, and OM intake expressed as g/kg of BW were not affected (P [greater than or equal to] 0.11) by WM supplementation, and total CP intake (P = 0.03) increased with WM supplementation. Supplementation of WM increased the flow of OM, and CP (P [less than or equal to] 0.04) to the small intestine, but not the flow of NDF (P = 0.40). Feed protein flowing to the small intestine was not affected (P = 0.26) and microbial protein tended to increase (P = 0.10) with WM supplementation. Total tract OM, CP, and NDF digestibility were not affected (P [greater than or equal to] 0.13) by WM supplementation. Ruminal pH decreased and total VFA production increased (P = 0.01) with WM supplementation. Ruminal ammonia (P = 0.65), molar proportion of VFA (P [greater than or equal to] 0.11), and acetate to propionate ratio were not affected (P - 0.25) by WM supplementation. Supplementation of WM to cattle grazing WWP improves metabolizable protein by increasing microbial protein synthesis.
