Results of the present study indicated that administration of B. fibrisolvens In-1 along with a linoleic acid (LA) source is a useful strategy to alter the biohydrogenation pattern in the rumen that subsequently decreased SFA content while increased CLA and unsaturated fatty acids in ruminant's milk.
Aim::A comparative study was conducted on crossbred cattle and buffaloes to investigate the effect of feeding high and low roughage total mixed ration (TMR) diets on rumen metabolites and enzymatic profiles.Materials and Methods::Three rumen-fistulated crossbred cattle and buffalo were randomly assigned as per 3×3 switch over design for 21-days. Three TMR diets consisting of concentrate mixture, wheat straw and green maize fodder in the ratios of (T1) 60:20:20, (T2) 40:30:30, and (T3) 20:40:40, respectively, were fed to the animals ad libitum. Rumen liquor samples were collected at 0, 2, 4, 6, and 8 h post feeding for the estimation of rumen biochemical parameters on 2 consecutive days in each trial.Results::The lactic acid concentration and pH value were comparable in both species and treatments. Feed intake (99.77±2.51 g/kg body weight), ruminal ammonia nitrogen, and total nitrogen were significantly (p<0.05) higher in buffalo and in treatment group fed with high concentrate diet. Production of total volatile fatty acids (VFAs) was non-significant (p>0.05) among treatments and significantly (p<0.05) greater in crossbred cattle than buffaloes. Molar proportions of individual VFAs propionate (C3), propionate:butyrate (C3:C4), and (acetate+butyrate):propionate ([C2+C4]:C3) ratio in both crossbred cattle and buffalo were not affected by high or low roughage diet, but percentage of acetate and butyrate varied significantly (p<0.05) among treatment groups. Activities of microbial enzymes were comparable among species and different treatment groups. A total number of rumen protozoa were significantly (p<0.05) higher in crossbred cattle than buffaloes along with significantly (p<0.05) higher population in animal fed with high concentrate diet (T1).Conclusion::Rumen microbial population and fermentation depend on constituents of the treatment diet. However, microbial enzyme activity remains similar among species and different treatments. High concentrate diet increases number of rumen protozoa, and the number is higher in crossbred cattle than buffaloes.
An experiment was conducted to examine the effect of dietary vanadium supplementation on feed intake, efficiency of nutrient utilization, growth performance, blood biochemical constituents and endocrine status in male Sahiwal calves. The vanadium concentration in some common feed ingredients was also estimated. Twenty male Sahiwal calves were randomly selected and divided on body weight (71±8.06 kg) and age (6±0.82 months) equalization into 4 different groups (n = 5). The treatments were given with 0, 2, 4 and 8 ppm of vanadium in GP-I, GP-II, GP-III and GP-IV, respectively for a duration of hundred and twenty days and subjected to analysis of variance in completely randomized design (CRD). Green fodder and deoiled seed cakes were found rich in vanadium content than grains and by-products. The dietary supplementation of vanadium did not affect the feed intake, digestibility of nutrients, average daily gain and feed efficiency. Plasma glucose level was increased (plessthan0.05) in GP-III and GP-1V without (p>0.05) affecting insulin level .The total protein, AST and ALT were unaffected by V supplementation. GP-IV showed higher (plessthan0.05) IGF-1 levels, whereas GP-III and GP-1V recorded higher (plessthan 0.05) ALP activity in comparison to GP-I (control) and GP-II. The level of triglycerides decreased in a dose dependent way, however, the cholesterol concentration showed a declining (plessthan 0.05) trend with the increasing vanadium concentration in the diet. It may be concluded that the dietary vanadium supplementation elicits the metabolic profile specially glucose and lipid metabolism of growing calves which in turn may have implications on further growth performance.
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