Evaluation of rations containing bioconverted cacao pod as fiber source for small ruminant.

This study aimed to evaluate the potential use of bioconverted cacao pod (BCP) as a substitute for forage in the total mixed ration (TMR) for a small ruminant. In the in vitro experiment, the control TMR (30% forage and 70% concentrate) was substituted with two different levels of BCP (15% and 30%) and two different types of BCP ( BCP-pc and BCP-tv). Based on the in vitro evaluation, the best ration was then chosen for the in vivo experiment, in which male goats were fed a control TMR, the TMR containing 15% BCP-pc (RC), and TMR containing 15% bioconverted palm kernel meal (RP). The results showed that TMRs with 15% BCP-pc and BCP-tv substitution had significantly lower gas production and digestibility than the control ration. However, the TMR with 15% or 30% BCP substitution showed no significant difference in rumen fermentation characteristics, methane production, and total protozoa. In the in vivo experiment, the RC showed no significant difference in all nutrient intakes, the average daily gain of animals, feed conversion ratio value, and crude fiber digestibility but reduced dry and organic matter digestibility. In comparison, the RP resulted in reduced parameters. Therefore, the study concluded that BCP-pc at a level of 15% could be used as a substitute for forage in TMR for male goats without compromising the fermentability of rumen, nutrient intakes, and their average daily gain and feed conversion ratio. Overall, this study suggests the potential of BCP-pc as an alternative feed ingredient.

Effects of herbal plant supplementation on rumen fermentation profiles and protozoan population in vitro.

Background and Aim: In the livestock sector, particularly ruminants, an approach to minimize methane emissions can be carried out through a feeding strategy involving herbal plants containing bioactive compounds that can reduce protozoa and decrease methane gas emissions. The aim of this in vitro study was to analyze the effects of herbal plant supplementation on rumen fermentation, total gas, and methane production, in vitro dry matter digestibility (IVDMD), in vitro organic matter digestibility (IVOMD), and protozoa populations within the rumen. Materials and Methods: Two experiments were conducted in this study. Experiment 1 was conducted to determine the most promising herbal plants capable of increasing total gas production and reducing protozoan populations. Three potential herbals selected in Experiment 1 were continued in Experiment 2 as supplements in the palm kernel meal (PKM)-based ration (70% PKM + 30% herbal plants). Results: Experiment 1 revealed that Eurycoma longifolia (EL), Cola acuminata (CLA), and Cassia alata (CSA) were potential herbal candidates for enhancing total gas production and the percentages of IVDMD and IVOMD. In Experiment 2, supplementation with EL, CLA, and CSA significantly increased IVDMD from 62.84% to 70.15%, IVOMD from 61.61% to 53.18%, and NH3 from 13 mM to 17 mM, as well as reduced partial volatile fatty acids and total gas production. In addition, the methane gas and protozoan populations were reduced. Conclusion: The utilization of EL, CLA, and CSA effectively increased the production of total gas, IVDMD, and IVOMD while reducing methane gas protozoa populations in rumen fermentation compared with the control.