微藻和大型藻组合作为一种具有甲烷减排潜力的新型反刍动物饲料替代品

Micro- and Macro-Algae Combination as a Novel Alternative Ruminant Feed with Methane-Mitigation Potential.

作者信息

Ahmed Eslam, Suzuki Kengo, Nishida Takehiro

机构信息

Department of Life and Food Sciences, Obihiro University of Agriculture and Veterinary Medicine, Inada, Obihiro 080-8555, Japan.

Department of Animal Behavior and Management, Faculty of Veterinary Medicine, South Valley University, Qena 83523, Egypt.

出版信息

Animals (Basel). 2023 Feb 22;13(5):796. doi: 10.3390/ani13050796.

DOI:10.3390/ani13050796

PMID:36899652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10000192/

Abstract

This study was conducted to provide alternative high-quality feed and to reduce methane production using a mixture of the minimum effective levels of , EG, and , AT. This study was performed as a 24 h in vitro batch culture. Chemical analysis demonstrated that EG is a highly nutritive material with 26.1% protein and 17.7% fat. The results showed that the supplementation of AT as a feed additive at 1 and 2.5% of the diet reduced methane production by 21 and 80%, respectively, while the inclusion of EG in the diet at 10 and 25% through partially replacing the concentrate mixture reduced methane production by 4 and 11%, respectively, with no adverse effects on fermentation parameters. The mixtures of AT 1% with both EG 10% and EG 25% had a greater reductive potential than the individual supplementation of these algae in decreasing methane yield by 29.9% and 40.0%, respectively, without adverse impacts on ruminal fermentation characteristics. These results revealed that the new feed formulation had a synergistic effect in reducing methane emissions. Thus, this approach could provide a new strategy for a sustainable animal production industry.

摘要

本研究旨在通过使用最低有效水平的EG和AT的混合物来提供替代的高质量饲料并减少甲烷产生。本研究以24小时体外批次培养的方式进行。化学分析表明，EG是一种营养丰富的物质，含有26.1%的蛋白质和17.7%的脂肪。结果表明，在日粮中添加1%和2.5%的AT作为饲料添加剂，分别使甲烷产生量降低了21%和80%，而通过部分替代精料混合物在日粮中添加10%和25%的EG，分别使甲烷产生量降低了4%和11%，且对发酵参数无不利影响。1%的AT与10%和25%的EG的混合物在降低甲烷产量方面比单独添加这些藻类具有更大的还原潜力，分别降低了29.9%和40.0%，且对瘤胃发酵特性无不利影响。这些结果表明，新的饲料配方在减少甲烷排放方面具有协同效应。因此，这种方法可为可持续畜牧业提供一种新策略。

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