Scotland's Rural College (SRUC), Peter Wilson Building, King's Buildings, West Mains Rd, Edinburgh EH9 3JG, United Kingdom.
Scotland's Rural College (SRUC), Peter Wilson Building, King's Buildings, West Mains Rd, Edinburgh EH9 3JG, United Kingdom.
Int J Parasitol. 2018 Nov;48(13):1017-1021. doi: 10.1016/j.ijpara.2018.06.001. Epub 2018 Aug 11.
Of anthropogenic methane emissions, 40% can be attributed to agriculture, the majority of which are from enteric fermentation in livestock. With international commitments to tackle drivers of climate change, there is a need to lower global methane emissions from livestock production. Gastrointestinal helminths (parasitic worms) are globally ubiquitous and represent one of the most pervasive challenges to the health and productivity of grazing livestock. These parasites influence a number of factors affecting methane emissions including feed efficiency, nutrient use, and production traits. However, their effects on methane emissions are unknown. This is to our knowledge the first study that empirically demonstrates disease-driven increases in methane (CH) yield in livestock (grams of CH per kg of dry matter intake). We do this by measuring methane emissions (in respiration chambers), dry matter intake, and production parameters for parasitised and parasite-free lambs. This study shows that parasite infections in lambs can lead to a 33% increase in methane yield (g CH/kg DMI). This knowledge will facilitate more accurate calculations of the true environmental costs of parasitism in livestock, and reveals the potential benefits of mitigating emission through controlling parasite burdens.
人为甲烷排放中,40%可归因于农业,其中大部分来自牲畜的肠道发酵。随着国际社会应对气候变化驱动因素的承诺,有必要降低畜牧业的全球甲烷排放量。胃肠道寄生虫(寄生虫)在全球范围内普遍存在,是影响放牧牲畜健康和生产力的最普遍挑战之一。这些寄生虫影响着许多因素,包括饲料效率、营养利用和生产特性,从而影响甲烷排放。然而,它们对甲烷排放的影响尚不清楚。据我们所知,这是第一项实证研究表明,疾病会导致牲畜(每公斤干物质摄入量产生的甲烷克数)的甲烷产量增加。我们通过测量寄生虫感染和无寄生虫羔羊的甲烷排放(在呼吸室中)、干物质摄入量和生产参数来做到这一点。这项研究表明,羔羊的寄生虫感染可导致甲烷产量增加 33%(g CH/kg DMI)。这一知识将有助于更准确地计算寄生虫感染对畜牧业的真正环境成本,并揭示通过控制寄生虫负担来减轻排放的潜在好处。
