Using In vitro Technique to evaluation adding Nano cobalt to some roughages

S. Mojahed, Etab Abdel-Galil, Hamdy Mossa
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Abstract

This paper is evaluating the addition of nanocobalt on dry matter, organic matter, cellulose and hemicellulose degradability of Invitro gases technique. Nanocobalt as an additive were used as 0, 25, 50, 75, 100 and 125% from the animal requirements on DM basis. The regular ration (1:1 concentrate: clover hay) was incubated for 24 hours. Then 24 and 48 hours of dry matter, organic matter, cellulose and hemicellulose were used to research the impact of adding 25 and 50% nanocobalt to some roughages (rice, bean, wheat, bagasse and peanut) straws using In-vitro disappearance. Results of In-vitro gas indicated that the DMD degradability values were increased (P<0.05) in 50 and 75 %, while the highest of OMD was in 25 and 50 % of nanocobalt. The nanocobalt had no effect on pH, but had a greater influence on the values of ammonia and TVF’s, as well as the degradability of cell wall components with microbial proteins. In control ration, the gas production was high, adding cobalt (100 %) and nanocobalt (25 and 50 %) than other of addition. High values of microbial protein (MP) and microbial protein efficiency (EMP) recorded for all different nanocobalt added. Nanocobalt 25% output gas of DM, NDF, ADF, cellulose and hemicellulose showed increase (P<0.05) compared to any additional levels. It concluded that the addition of nanocobalt increased the production of gas, ammonia, TVF’s, metabolizable energy and degradability of cell wall constituents. It showed that the addition of nanocobalt had a stronger effect on disappearance of all roughages as DM, OM, NDF, ADF, cellulose and hemicellulose. Furthermore, the addition of 25% nanocobalt had a significant effect (P<0.05) on improving In-vitro DM and OM disappearance of all roughages except bagasse had a significant effect in add 50 % nanocobalt.
用体外技术评价纳米钴在某些粗饲料中的添加
本文评价了纳米钴对Invitro气体技术的干物质、有机物、纤维素和半纤维素降解性能的影响。使用纳米钴作为添加剂,在DM基础上为动物需求的0、25、50、75、100和125%。将常规日粮(1:1浓缩物:三叶草干草)孵育24小时。然后用24小时和48小时的干物质、有机物、纤维素和半纤维素,用体外消失法研究了在一些粗饲料(大米、豆类、小麦、蔗渣和花生)吸管中添加25%和50%纳米钴的影响。体外气体测试结果表明,50%和75%的DMD降解率提高(P<0.05),而25%和50%的纳米钴的OMD降解率最高。纳米钴对pH没有影响,但对氨和TVF的值以及细胞壁成分与微生物蛋白质的降解性有更大的影响。在控制比中,添加钴(100%)和纳米钴(25%和50%)的气体产量较高。对于添加的所有不同的纳米钴,记录了高值的微生物蛋白(MP)和微生物蛋白效率(EMP)。纳米钴25%的DM、NDF、ADF、纤维素和半纤维素的输出气体与任何额外水平相比都有所增加(P<0.05)。结果表明,纳米钴的加入增加了气体、氨、TVF的产生、代谢能和细胞壁成分的降解性。结果表明,纳米钴的加入对DM、OM、NDF、ADF、纤维素和半纤维素等粗产物的消失有较强的影响。此外,添加25%纳米钴对改善体外DM有显著作用(P<0.05),除蔗渣外,所有粗料的OM消失对添加50%纳米钴有显著影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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