Atmospheric Chemistry and Physics (Jan 2006)

The observation of nitric acid-containing particles in the tropical lower stratosphere

  • P. J. Popp,
  • P. J. Popp,
  • T. P. Marcy,
  • T. P. Marcy,
  • E. J. Jensen,
  • B. Kärcher,
  • D. W. Fahey,
  • R. S. Gao,
  • T. L. Thompson,
  • K. H. Rosenlof,
  • E. C. Richard,
  • E. C. Richard,
  • E. C. Richard,
  • R. L. Herman,
  • E. M. Weinstock,
  • J. B. Smith,
  • R. D. May,
  • H. Vömel,
  • J. C. Wilson,
  • A. J. Heymsfield,
  • M. J. Mahoney,
  • A. M. Thompson

Journal volume & issue
Vol. 6, no. 3
pp. 601 – 611

Abstract

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Airborne in situ measurements over the eastern Pacific Ocean in January 2004 have revealed a new category of nitric acid (HNO3)-containing particles in the tropical lower stratosphere. These particles are most likely composed of nitric acid trihydrate (NAT). They were intermittently observed in a narrow layer above the tropopause (18±0.1 km) and over a broad geographic extent (>1100 km). In contrast to the background liquid sulfate aerosol, these particles are solid, much larger (1.7-4.7 µm vs. 0.1µm in diameter), and significantly less abundant (-4 cm-3 vs. 10 cm-3). Microphysical trajectory models suggest that the NAT particles grow over a 6-14 day period in supersaturated air that remains close to the tropical tropopause and might be a common feature in the tropics. The small number density of these particles implies a highly selective or slow nucleation process. Understanding the formation of solid NAT particles in the tropics could improve our understanding of stratospheric nucleation processes and, therefore, dehydration and denitrification.