Costs and benefits of agricultural ammonia emission abatement options for compliance with European air quality regulations

Giannakis, Elias; Kushta, Jonilda; Bruggeman, Adriana; Lelieveld, Jos

doi:10.1186/s12302-019-0275-0

Cited by 86 publications

(48 citation statements)

References 54 publications

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“…Data were obtained via the open access database provided by Airparif, the association responsible for air quality monitoring in the Paris region (https://www.airparif.asso.fr/en/telechargement/ telechargement-polluant). Over the studied period (and the investigated pollution events), PM 2.5 and NO 2 averaged concentrations were 12 (28) and 29 (35) µg/m 3 , respectively. The spatial variability of hourly concentrations, calculated as the standard deviation (SD) of the datasets available for 13 stations (Figure S1), led to an average value of 4 (7) and 22 (17) µg/m 3 , respectively.…”

Section: Iasimentioning

confidence: 97%

Ammonia and PM2.5 Air Pollution in Paris during the 2020 COVID Lockdown

et al. 2021

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During the COVID-19 pandemic, the lockdown reduced anthropogenic emissions of NO2 in Paris. NO2 concentrations recorded in 2020 were the lowest they have been in the past 5 years. Despite these low-NO2 levels, Paris experienced PM2.5 pollution episodes, which were investigated here based on multi-species and multi-platform measurements. Ammonia (NH3) measurements over Paris, derived from a mini-DOAS (differential optical absorption spectroscopy) instrument and the Infrared Atmospheric Sounding Interferometer (IASI) satellite, revealed simultaneous enhancements during the spring PM2.5 pollution episodes. Using the IASI maps and the FLEXPART model, we show that long-range transport had a statistically significant influence on the degradation of air quality in Paris. In addition, concentrations of ammonium (NH4+) and PM2.5 were strongly correlated for all episodes observed in springtime 2020, suggesting that transport of NH3 drove a large component of the PM2.5 pollution over Paris. We found that NH3 was not the limiting factor for the formation of ammonium nitrate (NH4NO3), and we suggest that the conversion of ammonia to ammonium may have been the essential driver.

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Section: Iasimentioning

confidence: 97%

Ammonia and PM2.5 Air Pollution in Paris during the 2020 COVID Lockdown

et al. 2021

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“…Several studies highlighted that the unfavorable geographical context, climate characteristics, and intense anthropogenic activities, such as industry and agriculture, of the Po valley promote a high level of air pollution ( Arvani et al, 2014 ; Diémoz et al, 2019 ; Thunis et al, 2009 ). For example, Giannakis et al (2019) found that the highest PM 2.5 concentration from the agricultural sector in Europe is present in northern Balkan countries and Northern Italy. Similarly, Thunis et al (2019) identified as “hotspots” regions for PM emissions the Po valley and Eastern Europe.…”

Section: Introductionmentioning

confidence: 99%

Describing the trend of ammonia, particulate matter and nitrogen oxides: The role of livestock activities in northern Italy during Covid-19 quarantine

Lovarelli

Conti

et al. 2020

Environmental Research

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Nitrogen oxides (NOx), sulphur oxides (SOx) and ammonia (NH 3 ) are among the main contributors to the formation of secondary particulate matter (PM 2.5 ), which represent a severe risk to human health. Even if important improvements have been achieved worldwide, traffic, industrial activities, and the energy sector are mostly responsible for NOx and SOx release; instead, the agricultural sector is mainly responsible for NH 3 emissions. Due to the emergency of coronavirus disease, in Italy schools and universities have been locked down from late February 2020, followed in March by almost all production and industrial activities as well as road transport, except for the agricultural ones. This study aims to analyze NH 3 , PM 2.5 and NOx emissions in principal livestock provinces in the Lombardy region (Brescia, Cremona, Lodi, and Mantua) to evaluate if and how air emissions have changed during this quarantine period respect to 2016–2019. For each province, meteorological and air quality data were collected from the database of the Regional Agency for the Protection of the Environment, considering both data stations located in the city and the countryside. In the 2020 selected period, PM 2.5 reduction was higher compared to the previous years, especially in February and March. Respect to February, PM 2.5 released in March in the city stations reduced by 19%–32% in 2016–2019 and by 21%–41% in 2020. Similarly, NOx data of 2020 were lower than in the 2016–2019 period (reduction in March respect to February of 22–42% for 2016–2019 and of 43–62% for 2020); in particular, this can be observed in city stations, because of the current reduction in anthropogenic emissions related to traffic and industrial activities. A different trend with no reductions was observed for NH 3 emissions, as agricultural activities have not stopped during the lockdown. Air quality is affected by many variables, for which making conclusions requires a holistic perspective. Therefore, all sectors must play a role to contribute to the reduction of harmful pollutants.

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“…NO3 concentrations are closely correlated with seasonal NH3 emissions suggesting that NH3 availability is the limiting factor controlling NH4 . NO3 prevalence (Giannakis et al, 2019). In the SLOW simulation, coarse NO3 concentrations are of a similar magnitude to fine NO3 concentrations over many industrialised regions.…”

Section: Conclusion and Discussionmentioning

confidence: 74%

Exploring the sensitivity of atmospheric nitrate concentrations to nitric acid uptake rate using the Met Office's Unified Model

Jones

Hill

Rémy³

et al. 2021

Preprint

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Abstract. Ammonium nitrate is a major aerosol constituent over many land regions and contributes to air pollution episodes, ecosystem destruction, regional haze, and aerosol-induced climate forcing. Many climate models that represent ammonium nitrate assume that the ammonium-sulphate-nitrate chemistry reaches thermodynamic equilibrium instantaneously without considering kinetic limitations on condensation rates. The Met Office's Unified Model (UM) is employed to investigate the sensitivity of ammonium nitrate concentrations to the nitric acid uptake coefficient (γ) in a newly-developed nitrate scheme in which first order condensation theory is utilised to limit the rate at which thermodynamic equilibrium is attained. Two values of γ representing fast (γ = 0.193) and slow (γ = 0.001) uptake rates are tested in 20-year global UM integrations. The global burden of nitrate associated with ammonium in the “fast” simulation (0.11 Tg[N]) is twice as great as in the “slow” simulation (0.05 Tg[N]), while the top-of-the-atmosphere radiative impact of representing nitrate is −0.19 Wm−2 in the “fast” simulation and −0.07 Wm−2 in the “slow” simulation. In general, the “fast” simulation exhibits better spatial correlation with observed nitrate concentrations while the “slow” simulation better resolves the magnitude of concentrations. Local near-surface nitrate concentrations are found to be highly correlated with seasonal ammonia emissions suggesting that ammonia is the predominant limiting factor controlling nitrate prevalence. This study highlights the high sensitivity of ammonium nitrate concentrations to nitric acid uptake rates and provides a mechanism for reducing nitrate concentration biases in climate model simulations. The new UM nitrate scheme represents a step-change in aerosol modelling capability in the UK across weather and climate timescales.

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Costs and benefits of agricultural ammonia emission abatement options for compliance with European air quality regulations

Cited by 86 publications

References 54 publications

Ammonia and PM2.5 Air Pollution in Paris during the 2020 COVID Lockdown

Ammonia and PM2.5 Air Pollution in Paris during the 2020 COVID Lockdown

Describing the trend of ammonia, particulate matter and nitrogen oxides: The role of livestock activities in northern Italy during Covid-19 quarantine

Exploring the sensitivity of atmospheric nitrate concentrations to nitric acid uptake rate using the Met Office's Unified Model

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