Carrying Capacity for Ruminant Based on Plantation Byproducts and Potency of Enteric Methane Emission

IF 0.3
G. E. Tresia, W. Puastuti, I. Inounu
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Abstract

Feed is one of the main pillars that need to be considered in optimizing production parameters in order to develop an efficient livestock business. Two aspects that need to be considered in order to make agricultural byproducts as a source of feed; those are the availability of raw materials for animal rations with high economic value and the function to  reduce environmental pollution. Methane emissions are not only related to environmental problems, but also reflect the loss of some energy from livestock so that it cannot be used for the production process. The purpose of this paper is to review and estimate the carrying capacity for ruminant based on plantation by-products based feed and potential enteric methane emissions. The availability of feed from agricultural byproducts in Indonesia is estimated at 69.6 million tonnes of dry matter (DM), 34.8 million of total digestible nutrient (TDN), and 5 million tonnes of crude protein (CP)/year so it is estimated that it can accommodate 62.4 million livestock unit (LU) based on the DM availability or 39.1 million LU based on TDN availability or 51.6 million LU based on CP availability. From these calculations, it was found that the carrying capacity for ruminant in Indonesia could still be increased much greater than the current livestock population, namely 21.7-45 million livestock units if all byproducts are used entirely as components in rations. There are two groups of feed originating from plantation byproducts based on the potential for methane emissions produced, namely low (65-73 g CH4 / kg of material) and high (83-103 g CH4 / kg of material). Utilization of plantation byproducts as ruminant feed is expected to overcome the shortage of forage, especially during dry season. Utilization of these byproducts which in line with efforts to reduce methane emissions would enhance the development of livestock populations in friendly environment.
基于人工林副产品和肠道甲烷排放效力的反刍动物承载力
为了发展高效的畜牧业,饲料是优化生产参数需要考虑的主要支柱之一。为了使农业副产品成为饲料来源,需要考虑两个方面;这些都是具有高经济价值和减少环境污染功能的动物口粮原料的可用性。甲烷排放不仅与环境问题有关,而且反映了牲畜的一些能量损失,因此无法用于生产过程。本文旨在基于人工林副产品饲料和潜在的肠道甲烷排放对反刍动物的承载能力进行综述和估算。印度尼西亚农业副产品饲料的可用性估计为每年6960万吨干物质(DM)、3480万吨总可消化养分(TDN)和500万吨粗蛋白质(CP),因此,根据DM可用性,估计可容纳6240万头牲畜单位(LU),根据TDN可用性,估计可容纳3910万头牲畜单位,根据CP可用性,估计可容纳5160万头牲畜单位。从这些计算中可以发现,如果所有副产品都完全用作口粮的组成部分,印度尼西亚反刍动物的运载能力仍然可以比目前的牲畜数量增加得多,即2170 -45万头牲畜。根据产生的甲烷排放潜力,有两组来自人工林副产品的饲料,即低(65-73 g CH4 / kg原料)和高(83-103 g CH4 / kg原料)。利用人工林副产品作为反刍动物饲料有望克服饲料短缺,特别是在旱季。利用这些副产品,与减少甲烷排放的努力相一致,将促进牲畜种群在友好环境中的发展。
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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16 weeks
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