Abstract
Increased concentration of atmospheric nitrous oxide (N2O), a potent greenhouse gas (GHG), is of great concern due to its impact on ozone layer depletion leading to climate change. Ozone layer depletion allows penetration of ultraviolet radiations, which are hazardous to human health. Climate change culminates in reduced food productivity. Limited empirical studies have been conducted in Sub-Saharan Africa (SSA) to quantify and understand the dynamics of soil N2O fluxes from smallholder cropping systems. The available literature on soil N2O fluxes in SSA is limited; hence, there is a pressing need to consolidate it to ease mitigation targeting and policy formulation initiatives. We reviewed the state of N2O emissions from selected cropping systems, drivers that significantly influence N2O emissions, and probable soil N2O emissions mitigation options from 30 studies in SSA cropping systems have been elucidated here. The review outcome indicates that coffee, tea, maize, and vegetables emit N2O ranging from 1 to 1.9, 0.4 to 3.9, 0.1 to 4.26, and 48 to 113.4 kg N2O-N ha-1 yr−1, respectively. The yield-scaled and N2O emissions factors ranged between 0.08 and 67 g N2O-N kg−1 and 0.01 and 4.1%, respectively, across cropping systems. Soil characteristics, farm management practices, and climatic and environmental conditions were significant drivers influencing N2O emissions across SSA cropping systems. We found that site-specific soil N2O emissions mitigation measures are required due to high variations in N2O drivers across SSA. We conclude that appropriate fertilizer and organic input management combined with improved soil management practices are potential approaches in N2O emissions mitigation in SSA. We recommend that (i) while formulating soil N2O emissions mitigation approaches, in SSA, policymakers should consider site-specific targeting approaches, and (ii) more empirical studies need to be conducted in diverse agroecological zones of SSA to qualify various mitigation options on N2O emissions, yield-scaled N2O emissions, and N2O emission factors which are essential in improving national and regional GHG inventories.
Highlights
Nitrous oxide (N2O), a potent greenhouse gas (GHG) with a global warming potential (GWP) of 265 compared to carbon dioxide (CO2), has attracted much attention globally [1]
Most of the countries in Sub-Saharan Africa (SSA) have continuously used Intergovernmental Panel on Climate Change (IPCC) Tier 1 emission factors (EFs), which tend to overestimate GHG emissions in the region [21, 32, 33]. erefore, in this paper, we reviewed the state of N2O emissions from selected cropping systems, drivers that significantly influence N2O emissions, and probable soil N2O emissions mitigation options in SSA cropping systems
Given the diversity of soil N2O fluxes drivers in SSA, no single mitigation option is applicable across all agroecological conditions. erefore, a targeted approach specific to an agroecological zone is necessary for recommending different SSA interventions
Summary
Nitrous oxide (N2O), a potent greenhouse gas (GHG) with a global warming potential (GWP) of 265 compared to carbon dioxide (CO2), has attracted much attention globally [1]. Agriculture is a significant source of anthropogenic nitrous oxide (N2O) emissions, contributing about 60% of global N2O emissions predominantly from N fertilizers, animal manure, and crop residues left in fields [7, 8]. Ese agricultural soils in SSA contribute between 6% and 19% of total global anthropogenic N2O emissions [12, 13]. Literature on the contribution of different cropping systems on soil N2O fluxes in SSA is limited. In SSA, (i) there are significant variations in N2O emissions across different cropping systems, (ii) environmental factors, climatic conditions, farm management practices, and soil properties directly influence N2O dynamics, and (iii) combination of inorganic and organic fertilizer application serves as best mitigation options for N2O emissions compared to sole application of either organic or inorganic fertilizer
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