Populasi Mikroba Rumen, Fermentabilitas, dan Kecernaan Suplementasi Daun Kelor dalam Ransum Sapi Perah secara In Vitro

Jurnal Ilmu Nutrisi dan Teknologi Pakan Pub Date : 2022-12-31 DOI:10.29244/jintp.20.3.117-122

Rika Zahera, J. Purwanti, D. Evvyernie

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Abstract

This study aimed to evaluate the microbial rumen population, fermentability, and digestibility of Moringa leaf supplementation in dairy cow ration using in vitro and to determine the optimal level of supplementation. The experiment consist of two steps with the first step was microbiology measurement used a Randomized Block Design with 5 treatments level of Moringa leaf extract (P0= control; P1= 5%, P2 = 10%, P3 =15%, P4 =20%) and the second step was in vitro fermentability and digestibility measurement used Randomized Block Design with 7 treatments level of Moringa leaf in dairy cow ration (R0 = control, R1 = R0 + 2.5% Moringa leaf, R2= R0 +5% Moringa leaf, R3 = R0 + 7.5% Moringa leaf, R4= R0+10% Moringa leaf, R5=R0+12.5% Moringa leaf, R6=R0+15% Moringa leaf) which grouped by rumen fluids. Data analysis used analysis of variance and continued with Duncan’s Multiple Range Test. The measured variable were microbial rumen population (bacteria and protozoa), fermentability (N-NH3, VFA), microbial protein synthesis, dry matter digestibility (DMD), and organic matter digestibility (DMO). The results showed Moringa leaf extract significantly decreased bacterial population (p<0.05), but there was no effect on the protozoa population. Moringa leaf supplementation did not affect N-NH3, DMD, and DMO, but significantly influenced VFA concentration and microbial protein synthesis (p<0.01). The higher Moringa leaf supplementation showed decreasing total VFA concentration, but was still within the normal range for rumen fermentation (102.29-126.69 mM). Moringa leaf supplementation showed a quadratic effect on microbial protein synthesis with an optimal supplementation level of 5%, but decreasing at a level of 7.5% still within in normal range. It can be concluded Moringa leaf can be supplemented up to 7.5% in dairy cow ration. Key words: digestibility, fermentability, in vitro, moringa leaf, dairy cow

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瘤胃菌、发酵性和氯化叶子素的微生物数量

本试验旨在通过体外试验评估奶牛日粮中添加辣木叶对瘤胃微生物数量、发酵能力和消化率的影响，确定最佳添加水平。试验分为两步，第一步为微生物学测定，采用随机区组设计，5个处理水平的辣木叶提取物(P0=对照;P1= 5%， P2 = 10%， P3 =15%， P4 =20%)，第二步采用随机区组设计，采用7个处理水平(R0 =对照，R1 =R0+ 2.5%辣木叶，R2= R0+ 5%辣木叶，R3 =R0+ 7.5%辣木叶，R4= R0+10%辣木叶，R5=R0+12.5%辣木叶，R6=R0+15%辣木叶)，按瘤胃液分组，测定奶牛日粮中辣木叶的体外发酵率和消化率。数据分析采用方差分析并继续采用邓肯多元极差检验。测量变量为瘤胃微生物种群(细菌和原生动物)、发酵性(N-NH3、VFA)、微生物蛋白质合成、干物质消化率(DMD)和有机物消化率(DMO)。结果表明，辣木叶提取物显著降低了细菌数量(p<0.05)，但对原生动物数量无显著影响。添加辣木叶对N-NH3、DMD和DMO无显著影响，但对VFA浓度和微生物蛋白合成有显著影响(p<0.01)。辣木叶添加量越高，瘤胃发酵总VFA浓度越低，但仍在正常范围内(102.29 ~ 126.69 mM)。添加辣木叶对微生物蛋白质合成的影响呈二次效应，最佳添加量为5%，但在正常范围内，添加量为7.5%时，微生物蛋白质合成呈下降趋势。由此得出，辣木叶在奶牛日粮中的添加量可达7.5%。关键词:消化率，发酵性，体外培养，辣木叶，奶牛

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Jurnal Ilmu Nutrisi dan Teknologi Pakan

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