Mohammad Javad Khalifeh; Mohsen Sari; Mehdi Dehghan banadaky
Volume 22, Issue 4 , December 2020, , Pages 537-547
Abstract
This experiment was conducted to study the effects of inclusion of sucrose with or without calcium salts of fish oil on growth performance, ruminal fermentation and blood metabolites of fattening Holstein steers. Thirty sixth Holstein bull calves (269±57 kg body weight and 7 months of age) ...
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This experiment was conducted to study the effects of inclusion of sucrose with or without calcium salts of fish oil on growth performance, ruminal fermentation and blood metabolites of fattening Holstein steers. Thirty sixth Holstein bull calves (269±57 kg body weight and 7 months of age) were used in a completely randomized design with a 2×2 factorial arrangement for 128 days. Dietary treatments were 1- control, 2- calcium salts of fish oil (Ca-FO) (2.5 % DM), 3- sucrose (SU)(5% DM), 4- SU and Ca-FO. Average daily gain increased with added SU (P<0.05). Diets containing Ca-FOreduced dry matter intake (DMI) and using SU and Ca-FO together increased DMI in this group (P<0.05). A tendency for higher organic matter digestibility obsereved in bulls fed Ca-FO (P>0.05). An increase in ruminal acetate concentration observed using Ca-FO in the diet, although Lower propionate and higher acetate concentrations were observed in rumen fluid of SU provided bulls (P<0.05). Addition of SU increased ruminal fluid pH (P<0.05). Feeding steers with Ca-FO increased plasma concentration of triglyceride and cholesterol (P<0.05). The results of this study showed that replacing corn grain with sucrose could have stimulatory effect on dry matter intake in Ca-FO containing diet, which have positive effects on average daily gain of fattening steers.
Somayeh Fathi; ali assadi-alamouti; Ahmad Afzalzadeh; Mohammad Ali Norouzian
Volume 19, Issue 3 , November 2017, , Pages 545-555
Abstract
The aim was to evaluate effects of in vitro fermentation of different forages co-incubated with different types of non-fiber carbohydrates (NFC) on gas production, digestibility, microbial biomass, medium pH and ammonia concentration. A completely randomized design with factorial arrangement (9 ...
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The aim was to evaluate effects of in vitro fermentation of different forages co-incubated with different types of non-fiber carbohydrates (NFC) on gas production, digestibility, microbial biomass, medium pH and ammonia concentration. A completely randomized design with factorial arrangement (9 treatments and 3 replicates) were used wherein wheat straw, alfalfa hay and corn silage constituted main forage sources and starch, sucrose and pectin were components of NFC. 0.2 g of each forage samples incubated with 0.3 g of each NFC component for 24 h and gas production, apparent and true digestibility, microbial biomass, pH and ammonia concentration measured. Forage and NFC sources, alone but not in combination, had a significant effect on gas production, digestibility as well as ammonia concentration (p<0.05). The estimated microbial biomass was lower for wheat straw samples (0.14 vs. 0.16 g /g DM digested for other forage samples), but was not affected by NFC and its interaction with forage sources (p<0.05). Also, NFC sources affected medium pH significantly with the lowest values for sucrose while the highest for pectin. Results showed that previously known effects of NFC sources in vivo are also consistently observed in vitro while it was not affected by co-incubation with different forage sources.