Research Progress on Greenhouse Gas Emissions From Livestock in Sub-Saharan Africa Falls Short of National Inventory Ambitions

IF 2.1 Q3 SOIL SCIENCE
M. Graham, K. Butterbach‐Bahl, C. J. L. du Doit, D. Korir, S. Leitner, L. Merbold, A. Mwape, P. Ndung'u, D. Pelster, M. Rufino, T. J. van der Weerden, A. Wilkes, C. Arndt
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引用次数: 5

Abstract

Livestock are an important source of livelihoods in agricultural systems in sub-Saharan Africa (SSA), while also being the largest source of national greenhouse gas (GHG) emissions in most African countries. As a consequence, there is a critical need for data on livestock GHG sources and sinks to develop national inventories, as well as conduct baseline measurements and intervention testing to mitigate GHG emissions and meet ambitious national climate goals. Our objective was to review studies on GHG emissions from livestock systems in SSA, as well as soil carbon storage in livestock-dominated systems (i.e., grasslands and rangelands), to evaluate best current data and suggest future research priorities. To this end, we compiled studies from SSA that determined emission factors (EFs) for enteric methane and manure emissions, along with studies on soil organic carbon (SOC) stocks in SSA. We found that there has been limited research on livestock GHG emissions and SOC relative to national ambitions for climate change mitigation in SSA. Enteric methane emission factors (EFs) in low productivity cattle systems may be lower than IPCC Tier 1 default EFs, whereas small ruminants (i.e. sheep and goats) had higher EFs compared to IPCC Tier 1 EFs. Manure EFs were equal to or lower than IPCC Tier 1 EFs for deposited manure (while grazing), manure applied as fertilizer, and manure management. SOC stocks for grasslands and rangelands in SSA show broad agreement with IPCC estimates, but there was a strong geographic bias and many studies did not report soil type, bulk density, or SOC stocks at >30 cm depth. In general, the largest data gaps included information for manure (quantity, quality, management), small ruminants, agropastoral/pastoralist systems, and in general from West Africa. Future research should focus on filling major data gaps on locally appropriate mitigation interventions and improving livestock activity data for developing Tier 2 GHG inventories in SSA. At the science-policy interface, all parties would benefit from enhanced coordination within the research community and between researchers and African governments to improve Tier 2 inventories and harmonize measurement for mitigation in livestock systems in SSA.
撒哈拉以南非洲牲畜温室气体排放研究进展达不到国家清单目标
牲畜是撒哈拉以南非洲农业系统的重要生计来源,同时也是大多数非洲国家国家温室气体(GHG)排放的最大来源。因此,迫切需要关于牲畜温室气体源和汇的数据,以编制国家清单,并进行基线测量和干预测试,以减轻温室气体排放,实现雄心勃勃的国家气候目标。我们的目标是回顾SSA牲畜系统温室气体排放的研究,以及牲畜主导系统(即草原和牧场)土壤碳储量的研究,以评估当前最佳数据并建议未来的研究重点。为此,我们收集了来自SSA的研究,确定了SSA肠道甲烷和粪便排放的排放因子(EFs)以及SSA土壤有机碳(SOC)储量的研究。我们发现,与SSA国家减缓气候变化目标相关的牲畜温室气体排放和有机碳研究有限。低生产力牛系统的肠道甲烷排放因子(EFs)可能低于IPCC第1级默认EFs,而小型反刍动物(即绵羊和山羊)的EFs高于IPCC第1级EFs。对于沉积的粪便(放牧时)、用作肥料的粪便和粪便管理,粪便效应等于或低于IPCC第一级效应。SSA草原和牧场的有机碳储量与IPCC的估计基本一致,但存在强烈的地理偏差,许多研究没有报告土壤类型、体积密度或bb0 ~ 30cm深度的有机碳储量。总的来说,最大的数据缺口包括粪肥(数量、质量和管理)、小反刍动物、农牧/畜牧系统以及西非的信息。未来的研究应侧重于填补适合当地的缓解干预措施方面的主要数据空白,并改进牲畜活动数据,以便在非洲南部地区编制第二级温室气体清单。在科学政策方面,所有各方都将受益于研究界内部以及研究人员与非洲政府之间加强协调,以改善第2级清单,并协调非洲南部地区牲畜系统的缓解措施。
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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CiteScore
1.90
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0.00%
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