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Journal article
Using Molasses in a Rice Straw Urea Lime Molasses Mixture to Improve Digestibility and In vitro Metabolite Fermentation
I Gusti Lanang Oka Cakra Anak Agung Ayu Sri Trisnadewi I Made Mudita Anak Agung Putu Putra Wibawa
Volume : 17 Nomor : 12 Published : 2018, November
Pakistan Journal of Nutrition
Abstrak
Abstract Background and Objective: The use of rice straw (RS) directly as a single feed not meet the nutritional needs of livestock. Inhibiting factors of using rice straw as feed for ruminants include the low content of nutrients, problems with digestibility and problems with palatability. To determine the optimal use of molasses in a rice straw urea lime molasses (ULM) mixture, the effect of molasses levels in the rice straw urea lime molasses mixture were studied with the aim of improving the nutrient value, rumen metabolite content, dry matter and organic matter digestibility in-vitro. Materials and Methods: The research was conducted using a completely randomized design with five treatments and four replications. The treatments were A [89% RS, 4% urea (U), 2% lime (L), 5% molasses (M)], B [84% RS, 4% U, 2% L, 10% M], C [79% RS, 4% U, 2% L, 15% M], D [74% RS, 4% U, 2% L, 20% M], and E [69% RS, 4% U, 2% L, 25% M]. The variables observed were the nutrient value, fermentation metabolite level, rumen dry matter digestibility (RDMD), rumen organic matter digestibility (ROMD), in-vitro dry matter digestibility (IDMD) and in-vitro organic matter digestibility (IOMD). Results: Adding a urea lime molasses mixture increased the nutrient value of RS in proportion to the increase in molasses usage, especially considering crude protein (CP). The addition of the ULM mixture to RS could increase the CP content. Similarly, the positive effects of adding the ULM to RS can be seen in metabolite fermentation, based on NH3 levels. Low levels of NH3 are due to its high utilization by rumen microbes. IDMD and IOMD were highest in treatment E. Conclusion: The use of molasses at a concentration of 25% is the best when considering the optimal nutrient content, rumen metabolites, IDMD, and IOMD.