Abstract
Effect of period of adaptation and levels of monensin were studied for microbial fermentation/ digestibility to find out the optimum period of adaptation of monensin in rumen and suitable level of monensin in wheat straw+concentrate and wheat straw+ UMMB diet. The mean digestibility of dry matter was decreased upto T-3 treatment (49.17%), however, digestibility of DM was affected upto period (P-2). NDF digestibility was affected due to treatment under P1 and P2 (p<0.05). Average digestibility of ADF was increased to 53.33% at T-3 level of monensin and P4 days of adaptation. TVFA (mmole/100 ml) were decreased from 9.49 in T-1 to 7.70 in T-7. Periods were not effectives except P2 (14 days of adaptation). Similarly, total gas was decrease with the increase of monensin levels in diet. Although acetate percentage in TVFA was not affected either due to level of monensin or period of adaptation but propionate was increased due to increase in monensin at 21 days of adaptation (P-3). Butyrate (%) was decreased significantly in T-2 to T-6 as compared to T-1 group. Total gas was significantly (p<0.01) higher in group T-1 (control) and it reduced significantly in T-5, however, differences in gas production between group T-3, T-5 and T-7 at P-1 was not significant. Methane production was reduced on P-3 and P-4 level of adaptation due to treatment. The overall result indicated that 21 days of adaptation with monensin was sufficient to mask the inhibiting effect of monensin to cell wall digestibility and 35 ppm monensin is optimum to reduce methane production and increase propionate productions. (Asian-Aust. J. Anim. Sci. 2005. Vol 18, No. 3 : 320-325)
Highlights
MATERIALS AND METHODSDuring the last two decades, a number of active compounds have been discovered that when fed, can further improve the efficiency of production by increasing propionate production and decreasing methane production in ruminants
In vitro studies indicated that when urea molasses mineral block (UMMB) was butyrate after fermentation of carbohydrate (Chen and supplemented with wheat straw, DM, NDF and ADF Wolin, 1979)
In vitro study using rumen fluid monensin enriched UMMB treatments was due to mark from animals not previously exposed to monensin shows reduction in gas production of monensin enriched that the marked inhibition of DM and cell wall digestibility treatments in P I as microbes in the rumen liquor occurred when rumen microbes are suddenly exposed to experienced monensin treatment for the first time
Summary
Division of Dairy Cattle Nutrition, National Dairy Research Institute, Karnal: 132001 (Haryana), India. The mean digestibility of dry matter was decreased upto T-3 treatment (49.17%), digestibility of DM was affected upto period (P-2). Average digestibility of ADF was increased to 53.33% at T-3 level of monensin and P4 days of adaptation. Periods were not effectives except P2 (14 days of adaptation). Total gas was decrease with the increase of monensin levels in diet. Acetate percentage in TVFA was not affected either due to level of monensin or period of adaptation but propionate was increased due to increase in monensin at 21 days of adaptation (P-3). The overall result indicated that 21 days of adaptation with monensin was sufficient to mask the inhibiting effect of monensin to cell wall digestibility and 35 ppm monensin is optimum to reduce methane production and increase propionate productions.
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