从畜牧业生产评估气候行动减缓战略的影响:综述--温室气体减排解决方案

Geberemariyam Terefe, Mulugeta Walelegne
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摘要

温室气体 (GHG) 排放的主要来源是反刍动物的肠道发酵和粪便管理。要大幅减少温室气体和牛奶生产中的碳足迹,就必须采用一种包含营养和粪便管理的综合战略组合方法。本综述旨在评估气候行动减缓战略对反刍动物温室气体产生的影响。本综述基于不同的参考文献,包括教科书、期刊、论文集、会议以及通过 Agricola、Agris、CAB Abstracts、Embase、MEDLINE 和 Web of Science 查阅的摘要。研究结果是通过使用奶牛、绵羊和山羊得出的;每个实验中使用的动物数量受到了极大关注,同时还根据甲烷(CH 4 )和氧化亚氮的量化方法做出了决定。如果用淀粉含量较高的玉米青贮代替大麦或苜蓿青贮,每单位牛奶中的肠道 CH 4 可减少 6-8%。饲喂海藻(1.77%-2%,以干物质 [DM] 为基础)的奶牛的肠道 CH 4 排放量从 383 克/天直线下降到 400 克/天。在反刍动物日粮中添加植物脂肪(6%)和椰子油(12 克/天)可使 CH 4 排放量分别减少 21-40% 和 50-61.2%。同样,添加 21.5 克硝酸盐/千克 DM 可减少绵羊的 CH 4 产量(17%)。Bovaer 可以减少奶牛的甲烷排放量(30%)。饲料加工和添加剂是最大限度减少反刍动物温室气体产生的替代策略,但还需要进一步研究添加剂及其对牲畜产出的剩余影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing the impact of climate action mitigation strategies from livestock production: A review – Solution for greenhouse gases mitigation
The main sources of greenhouse gas (GHG) emissions are enteric fermentation from ruminants and manure management. An integrated strategy-combination approach incorporating nutrition and manure management is necessary to dramatically reduce GHGs and the carbon footprint of milk production. The aim of this review was to assess the effect of climate action mitigation strategies on the GHG production of ruminant animals. This review was based on the different references, which are textbooks, journals, proceedings, conferences, and abstracts accessed through Agricola, Agris, CAB Abstracts, Embase, MEDLINE, and the Web of Science. The research findings were done by using dairy cattle, sheep, and goat; the numbers of animals used in each experiment were given the majority of attention, and decisions were also made based on the method used to quantify methane (CH 4 ) and nitrous oxide. Enteric CH 4 per unit of milk was reduced by 6–8% when higher-starch corn silage was used in place of barley or alfalfa silage. Cows fed seaweed (1.77–2%, on dry matter [DM] basis) experienced a linear drop in enteric CH 4 emission from 383 to 400 g/d. Supplementation of vegetable fats (6%) and coconut oil (12 g/day) to ruminant diets can decrease CH 4 emissions by 21–40% and 50–61.2%, respectively. Similarly, the addition of 21.5 g nitrate/kg DM reduces CH 4 yield (17%) in sheep. Bovaer can reduce methane emissions (30%) for dairy cows. Feed processing and additives are alternative strategies to minimize GHG production in ruminants, but further studies on additives and their residual effect on livestock output is needed.
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