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Long-Term Source Apportionment of Ammonium in PM<sub>2.5</sub> at a Suburban and a Rural Site Using Stable Nitrogen Isotopes

Hiroto Kawashima, Otoha Yoshida, Nana Suto

2022Environmental Science & Technology19 citationsDOI

Abstract

Ammonia gas (NH3) is an important alkaline air pollutant and a precursor to particulate matter, and its source has been thought to be agricultural, but in recent years, nonagricultural sources have been suspected. In this study, stable nitrogen isotope ratios of ammonium (δ15N–NH4+) in fine particulate matter (PM2.5) were measured at a suburban site and a rural site in Japan. Then, the long-term sources of NH4+ were identified using the δ15N–NH3 and an isotopic mixing model. The results showed that the averaged contribution from nonagricultural sources was 67% at the suburban site and 78% at the rural site. We also reanalyzed NH3 data collected at the same location. The result showed that the averaged contribution of nonagricultural sources to NH3 was 39%. This result is reasonable because bottom-up estimates are close to the contribution, and the NH3 emissions are affected by warm season activities in the rural site. It was first found that the sources vary greatly, depending on the gas and particles. Back-trajectory results suggested that PM2.5 measured at the rural site was derived from the Asian continent. We inferred that the NH4+ had been formed on the continent and that these particles thus represent transboundary pollution.

Topics & Concepts

ParticulatesIsotopes of nitrogenEnvironmental scienceAmmoniumApportionmentδ15NPollutionNitrogenAtmospheric sciencesAmmoniaEnvironmental chemistryStable isotope ratioAir pollutionHydrology (agriculture)Chemistryδ13CEcologyGeologyPhysicsGeotechnical engineeringOrganic chemistryQuantum mechanicsLawBiologyPolitical scienceAtmospheric chemistry and aerosolsOdor and Emission Control TechnologiesAtmospheric and Environmental Gas Dynamics
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