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The impact of ammonia on particle formation in the Asian Tropopause Aerosol Layer

by Ehrhart, Sebastian , Curtius, Joachim , Schobesberger, Siegfried , Möhler, Ottmar , Volkamer, Rainer , El Haddad, Imad , Kirkby, Jasper , Kong, Weimeng , Pöhlker, Mira L. , Ruhl, Samuel , Rato, Pedro , Onnela, Antti , Russell, Douglas M. , Yu, Wenjuan , Beckmann, Hannah M. , Yang, Boxing , Flagan, Richard C. , Borrmann, Stephan , Lelieveld, Jos , Wang, Mingyi , Almeida, João , Unfer, Gabriela R. , Caudillo-Plath, Lucía , Simon, Mario , Umo, Nsikanabasi Silas , Pozzer, Andrea , Zheng, Zhensen , Kaniyodical Sebastian, Milin , Gordon, Hamish , Zauner-Wieczorek, Marcel , He, Xu-Cheng , Kunkler, Felix , Harder, Hartwig , Zgheib, Imad , Kohl, Matthias , Stark, Leander , Donahue, Neil M. , Kulmala, Markku , Höhler, Kristina , Christoudias, Theodoros , Xenofontos, Christos

in 704/106/35/824 / 704/172/169/824 / Aerosols / Air masses / Air pollution / Ammonia / Ammonium / Atmospheric Protection/Air Quality Control/Air Pollution / Atmospheric Sciences / Boundary layers / Climate Change/Climate Change Impacts / Climate models / Climatology / Cloud chambers / Composition effects / Condensation nuclei / Convection / Diurnal variations / Earth and Environmental Science / Earth Sciences / Emissions / Influence / Monsoons / Optical analysis / Optical thickness / Pollution dispersion / Regional development / Short wave radiation / Solar radiation / Stratosphere / Tropopause / Troposphere / Wind

2024

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2024

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2024

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Journal Article

The impact of ammonia on particle formation in the Asian Tropopause Aerosol Layer

Ehrhart, Sebastian,

Curtius, Joachim,

Schobesberger, Siegfried,

Möhler, Ottmar,

Volkamer, Rainer,

El Haddad, Imad,

Kirkby, Jasper,

Kong, Weimeng,

Pöhlker, Mira L.,

Ruhl, Samuel,

Rato, Pedro,

Onnela, Antti,

Russell, Douglas M.,

Yu, Wenjuan,

Beckmann, Hannah M.,

Yang, Boxing,

Flagan, Richard C.,

Borrmann, Stephan,

Lelieveld, Jos,

Wang, Mingyi,

Almeida, João,

Unfer, Gabriela R.,

Caudillo-Plath, Lucía,

Simon, Mario,

Umo, Nsikanabasi Silas,

Pozzer, Andrea,

Zheng, Zhensen,

Kaniyodical Sebastian, Milin,

Gordon, Hamish,

Zauner-Wieczorek, Marcel,

He, Xu-Cheng,

Kunkler, Felix,

Harder, Hartwig,

Zgheib, Imad,

Kohl, Matthias,

Stark, Leander,

Donahue, Neil M.,

Kulmala, Markku,

Höhler, Kristina,

Christoudias, Theodoros,

Xenofontos, Christos

2024

Overview

During summer, ammonia emissions in Southeast Asia influence air pollution and cloud formation. Convective transport by the South Asian monsoon carries these pollutant air masses into the upper troposphere and lower stratosphere (UTLS), where they accumulate under anticyclonic flow conditions. This air mass accumulation is thought to contribute to particle formation and the development of the Asian Tropopause Aerosol Layer (ATAL). Despite the known influence of ammonia and particulate ammonium on air pollution, a comprehensive understanding of the ATAL is lacking. In this modelling study, the influence of ammonia on particle formation is assessed with emphasis on the ATAL. We use the EMAC chemistry-climate model, incorporating new particle formation parameterisations derived from experiments at the CERN CLOUD chamber. Our diurnal cycle analysis confirms that new particle formation mainly occurs during daylight, with a 10-fold enhancement in rate. This increase is prominent in the South Asian monsoon UTLS, where deep convection introduces high ammonia levels from the boundary layer, compared to a baseline scenario without ammonia. Our model simulations reveal that this ammonia-driven particle formation and growth contributes to an increase of up to 80% in cloud condensation nuclei (CCN) concentrations at cloud-forming heights in the South Asian monsoon region. We find that ammonia profoundly influences the aerosol mass and composition in the ATAL through particle growth, as indicated by an order of magnitude increase in nitrate levels linked to ammonia emissions. However, the effect of ammonia-driven new particle formation on aerosol mass in the ATAL is relatively small. Ammonia emissions enhance the regional aerosol optical depth (AOD) for shortwave solar radiation by up to 70%. We conclude that ammonia has a pronounced effect on the ATAL development, composition, the regional AOD, and CCN concentrations.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ Ammonia