Asian Journal of Research in Animal and Veterinary Sciences

The in vitro gas production technique provides information about kinetics and fermentation characteristics of feedstuffs and diets, and it is a useful indicator of fecal microbial activity.

Aim: The aim of this study was to use the in vitro technique to study gas production kinetics and dry matter degradability of feed samples at different forage to concentrate (F:C) ratios using rabbit inoculum.

Materials and Methods: The treatments (T) were in a Completely Randomized Design with two forage sources namely Horse grass and Calopo mixed at 75:25 (T₁) ratio and F:C ratios 75:25 (T₂), 50:50 (T₃), 25:75 (T₄) and 100:0 (T₅), respectively. Six New Zealand White rabbits (mean body weight [BW] = 0.86kg ±0.04) were used as inoculum donors.

Results: Crude protein of forages was 10.45 and 23.00 for Horse grass and Calopo respectively. The crude protein and crude fiber content of the supplementary concentrate was 17.01 and 6.00% respectively. Highest crude fiber (12.00) was also observed in Calopo. Diets 4 and 5 produced the highest (P<0.05) total gas (ml/200mgDM) and methane (ml/200mgDM) respectively, while in vitro degradability decreased with increasing supplementary concentrate (P<0.05). Sole forage diet resulted in highest dry matter degradability (6.90) and gas production (7.80).

Conclusion: It can be concluded that good quality forage, therefore, could reduce the need for concentrate supplementation.