Yield-scaled mitigation of ammonia emission from N fertilization: the Spanish case

A Sanz-Cobena,G Billen,F Estellés,G Pardo,A Vallejo,D Abalos,E Aguilera,L Lassaletta,J Garnier,M A Sutton,A Del Prado,G Guardia

doi:10.1088/1748-9326/9/12/125005

Abstract

Synthetic nitrogen (N) fertilizer and field application of livestock manure are the major sources of ammonia (NH3) volatilization. This N loss may decrease crop productivity and subsequent deposition promotes environmental problems associated with soil acidification and eutrophication. Mitigation measures may have associated side effects such as decreased crop productivity (e.g. if N fertilizer application is reduced), or the release of other reactive N compounds (e.g. N2O emissions if manure is incorporated). Here, we present a novel methodology to provide an integrated assessment of the best strategies to abate NH3 from N applications to crops. Using scenario analyses, we assessed the potential of 11 mitigation measures to reduce NH3 volatilization while accounting for their side effects on crop productivity, N use efficiency (NUE) and N surplus (used as an indicator of potential N losses by denitrification/nitrification and NO3− leaching/run-off). Spain, including its 48 provinces, was selected as a case study as it is the third major producer of agricultural goods in Europe, and also the European country with the highest increase in NH3 emissions from 1990 to 2011. Mitigation scenarios comprised of individual measures and combinations of strategies were evaluated at a country- and regional level. Compared to the reference situation of standard practices for the year 2008, implementation of the most effective region-specific mitigation strategy led to 63% NH3 mitigation at the country level. Implementation of a single strategy for all regions reduced NH3 by 57% at the highest. Strategies that involved combining mitigation measures produced the largest NH3 abatement in all cases, with an 80% reduction in some regions. Among the strategies analyzed, only suppression of urea application combined with manure incorporation and incorporation of N synthetic fertilizers other than urea showed a fully beneficial situation: yield-scaled NH3 emissions were reduced by 82%, N surplus was reduced by 9%, NUE was increased by 19% and yield was around 98% that of the reference situation. This study shows that the adoption of viable measures may provide an opportunity for countries like Spain to meet the international agreements on NH3 mitigation, while maintaining crop yields and increasing NUE.

Highlights

Agriculture is the main sector responsible for ammonia (NH3) emissions into the atmosphere, accounting for an estimated 94% of the total European emissions in 2011 (European Environment Agency (EEA) 2013)
In agreement with the views developed by Lassaletta et al (2014c), we considered that the cropping system of each region can be characterized by a oneparameter hyperbolic relationship between yield and the effective total N input to the soil, both integrated over all arable land and the duration of a crop rotation cycle: Y = Ymax ⋅ effective fertilization (EFert)/(EFert + Ymax )
Even though Spain as a whole could be seen as a too-much N country, there are provinces differing in terms of N application excess, N accumulation and management, and NH3 emissions

Summary

Introduction

Agriculture is the main sector responsible for ammonia (NH3) emissions into the atmosphere, accounting for an estimated 94% of the total European emissions in 2011 (European Environment Agency (EEA) 2013). Synthetic nitrogen (N) fertilization and field application of livestock manure are the major sources (Bittman et al 2014). NH3 emission from applied N fertilizers produces a substantial loss of the N resource for cropping systems. Volatilized NH3 can cause soil acidification and eutrophication with subsequent loss of overall biodiversity. NH3 leads to the formation of secondary particles with impacts on human health, and indirect emissions of nitrous oxide (N2O) and N oxides following deposition (Asman et al 1998, Erisman et al 2008, García-Gómez et al 2014). NH3 volatilization from agriculture is considered an issue of major environmental and socioeconomic concern (van Grinsven et al 2013)

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