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Volume 10, issue 17 | Copyright

Special issue: Atmospheric brown cloud in the Himalayas

Atmos. Chem. Phys., 10, 8551-8562, 2010
https://doi.org/10.5194/acp-10-8551-2010
© Author(s) 2010. This work is distributed under
the Creative Commons Attribution 3.0 License.

  10 Sep 2010

10 Sep 2010

Aerosol mass and black carbon concentrations, a two year record at NCO-P (5079 m, Southern Himalayas)

A. Marinoni1, P. Cristofanelli1, P. Laj2, R. Duchi1, F. Calzolari1, S. Decesari1, K. Sellegri3, E. Vuillermoz4, G. P. Verza4, P. Villani2, and P. Bonasoni1,4 A. Marinoni et al.
  • 1CNR -ISAC- Institute for Atmospheric Sciences and Climate, Bologna, Italy
  • 2Laboratoire de Glaciologie et Géophysique de l'Environnement, CNRS-University of Grenoble, Grenoble, France
  • 3Laboratoire de Météorologie Physique, CNRS-University of Clermont Ferrand, Clermont-Ferrand, France
  • 4Ev-K2-CNR Committee, Bergamo, Italy

Abstract. Aerosol mass and the absorbing fraction are important variables, needed to constrain the role of atmospheric particles in the Earth radiation budget, both directly and indirectly through CCN activation. In particular, their monitoring in remote areas and mountain sites is essential for determining source regions, elucidating the mechanisms of long range transport of anthropogenic pollutants, and validating regional and global models. Since March 2006, aerosol mass and black carbon concentration have been monitored at the Nepal Climate Observatory-Pyramid, a permanent high-altitude research station located in the Khumbu valley at 5079 m a.s.l. below Mt. Everest. The first two-year averages of PM1 and PM1−10 mass were 1.94 μg m−3 and 1.88 μg m−3, with standard deviations of 3.90 μg m−3 and 4.45 μg m−3, respectively, while the black carbon concentration average is 160.5 ng m−3, with a standard deviation of 296.1 ng m−3. Both aerosol mass and black carbon show well defined annual cycles, with a maximum during the pre-monsoon season and a minimum during the monsoon. They also display a typical diurnal cycle during all the seasons, with the lowest particle concentration recorded during the night, and a considerable increase during the afternoon, revealing the major role played by thermal winds in influencing the behaviour of atmospheric compounds over the high Himalayas. The aerosol concentration is subject to high variability: in fact, as well as frequent "background conditions" (55% of the time) when BC concentrations are mainly below 100 ng m−3, concentrations up to 5 μg m−3 are reached during some episodes (a few days every year) in the pre-monsoon seasons. The variability of PM and BC is the result of both short-term changes due to thermal wind development in the valley, and long-range transport/synoptic circulation. At NCO-P, higher concentrations of PM1 and BC are mostly associated with regional circulation and westerly air masses from the Middle East, while the strongest contributions of mineral dust arrive from the Middle East and regional circulation, with a special contribution from North Africa and South-West Arabian Peninsula in post-monsoon and winter season.

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