Abstract
Abstract. Agronomical and environmental benefits are associated with replacing winter fallow by cover crops (CCs). Yet, the effect of this practice on nitrous oxide (N2O) emissions remains poorly understood. In this context, a field experiment was carried out under Mediterranean conditions to evaluate the effect of replacing the traditional winter fallow (F) by vetch (Vicia sativa L.; V) or barley (Hordeum vulgare L.; B) on greenhouse gas (GHG) emissions during the intercrop and the maize (Zea mays L.) cropping period. The maize was fertilized following integrated soil fertility management (ISFM) criteria. Maize nitrogen (N) uptake, soil mineral N concentrations, soil temperature and moisture, dissolved organic carbon (DOC) and GHG fluxes were measured during the experiment. Our management (adjusted N synthetic rates due to ISFM) and pedo-climatic conditions resulted in low cumulative N2O emissions (0.57 to 0.75 kg N2O-N ha−1 yr−1), yield-scaled N2O emissions (3–6 g N2O-N kg aboveground N uptake−1) and N surplus (31 to 56 kg N ha−1) for all treatments. Although CCs increased N2O emissions during the intercrop period compared to F (1.6 and 2.6 times in B and V, respectively), the ISFM resulted in similar cumulative emissions for the CCs and F at the end of the maize cropping period. The higher C : N ratio of the B residue led to a greater proportion of N2O losses from the synthetic fertilizer in these plots when compared to V. No significant differences were observed in CH4 and CO2 fluxes at the end of the experiment. This study shows that the use of both legume and nonlegume CCs combined with ISFM could provide, in addition to the advantages reported in previous studies, an opportunity to maximize agronomic efficiency (lowering synthetic N requirements for the subsequent cash crop) without increasing cumulative or yield-scaled N2O losses.
Highlights
Improved resource-use efficiencies are pivotal components of sustainable agriculture that meets human needs and protects natural resources (Spiertz, 2010)
Our results highlight the critical importance of the cash crop period on total N2O emissions and demonstrate that the use of nonlegume and – – legume cover crops (CCs) combined with integrated soil fertility management (ISFM) may provide an optimum balance between greenhouse gas (GHG) emissions from crop production and agronomic efficiency
Our study confirmed that the presence of CCs ( V) during the intercrop period increased N2O losses, but the contribution of this phase to cumulative N2O emissions, considering the whole cropping cycle, was low (8–21 %)
Summary
Improved resource-use efficiencies are pivotal components of sustainable agriculture that meets human needs and protects natural resources (Spiertz, 2010). Several strategies have been proposed to improve the efficiency of intensive irrigated systems, where nitrate (NO−3 ) leaching losses are of major concern, during both cash crop and winter fallow periods (Quemada et al, 2013). In this sense, replacing winter intercrop fallow with cover crops (CCs) has been reported to decrease NO−3 leaching via retention of post-harvest surplus inorganic nitrogen (N) (Wagner-Riddle and Thurtell, 1998), improving N use efficiency of the cropping system (Gabriel and Quemada, 2011). Nitrous oxide released from agricultural soils is mainly generated
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