Nitrogen Metabolism and Microbial Protein Synthesis by Local Sheep Fed Diet Containing Hibiscus Leave Meal (HLM) with Different Direct-Fed Microbials (DFM) Supplementation

Risda Amelia Putri Nasution, S. Rahayu, M. Bata
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Abstract

The interaction of Hibiscus Leaf Meal (HLM) and Direct-Fed Microbials (DFM) supplementation on nitrogen metabolism and rumen microbial synthesis by local sheep was investigated. Thirty six male local sheep aged ±2 years, weight 28.01±2.61 kg were fed concentrate (3% of body weight) supplemented with HLM twice a day, amoniated rice-straw (ARS) supplemented with DFM were given ad-libitum were assigned randomly to nine treatment in an experiment of 3×3 factorial design. The first factor (P) was DFM were supplemented in ARS (P0=without DFM, P1=DFMAMS, and P2=DFMRK). Second factor (W) was the level of HLM supplementation in concentrate (W0=0%, W1=0.24% and W2=0.48% of DM consentrate. The study measured variables including nitrogen digestibility (ND), nitrogen retention (NR), microbial protein synthesis (MPS), and Efficiency of microbial protein synthesis (EMPS). There were significant interaction between DFM and HLM suplementation on MPS and EMPS. However, the interaction of ND and NR was non-existent. Based on polynomial graph, the most efficient MPS was achieved on combination between DFMRK and 0.23% HLM about 8.70 gN/day. Despite the absence of interaction (P>0.05) between DFM supplementation and HLM on KN and RN, DFM supplementation significantly affected (P<0.01) Nitrogen metabolism (ND and NR). The treatment without DFM supplementation resulted the highest nitrogen metabolism (ND and NR). This study concludes that HLM without DFM suplementation positively impacted N Metabolism. Combination between 0.23% HLM and DFMRK resulted the most efficient Microbial Protein Synthesis.
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含木槿叶粉(HLM)的地方绵羊日粮添加不同直接饲喂微生物(DFM)后的氮代谢和微生物蛋白质合成
研究了添加芙蓉叶粉(HLM)和直接饲喂微生物制剂(DFM)对本地绵羊氮代谢和瘤胃微生物合成的相互作用。试验采用3×3因子设计,选取36只±2岁、体重28.01±2.61 kg的本地公羊,每天2次饲喂精料(占体重的3%)添加HLM,氨化稻秆(ARS)添加DFM,随机分为9个处理。第一个因素(P)是在ARS中补充DFM (P0=无DFM, P1=DFMAMS, P2=DFMRK)。第二个因素(W)是DM浓缩物中HLM的添加水平(W0=0%, W1=0.24%, W2=0.48%)。研究测量了氮消化率(ND)、氮潴留(NR)、微生物蛋白质合成(MPS)和微生物蛋白质合成效率(EMPS)等变量。在MPS和EMPS上,DFM和HLM添加量之间存在显著的交互作用。而ND与NR之间不存在相互作用。基于多项式图,DFMRK与0.23%的HLM组合的MPS效率最高,约为8.70 gN/day。添加DFM与添加HLM对KN和RN没有交互作用(P< 0.05),但添加DFM显著影响了氮代谢(ND和NR) (P<0.01)。不添加DFM处理的氮代谢(ND和NR)最高。本研究得出结论,不补充DFM的HLM对N代谢有积极影响。0.23%的HLM与DFMRK的组合合成微生物蛋白的效率最高。
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