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Proceedings Paper

Seasonal variation of aerosol over Bandung, Indonesia
Author(s): Sri Kaloka Prabotosari; Saipul Hamdi; Agus Nuryanto; Toshikasu Itabe; Kohei Mizutani; Motoaki Yasui; Tomohiro Nagai; Osamu Uchino; Akinori Ichiki
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Paper Abstract

Variation of stratospheric aerosol affects atmospheric minor constituents and climate through changes in the radiation field as well as by dynamic and chemical processes. In order to estimate the impact quantitatively, it is very important to observe stratospheric aerosol vertical distribution and their lime variation To obtain stratospheric aerosol especially in equatorial region a lidar was installed in Bandung (6.9° S; 107.7° E) Indonesia under collaboration between National Institute of Aeronautic and Space (LAPAN), Communication Research Laboratory of Japan and Meteorological Research Institute of Japan. The Lidar transmitter system employ fundamental (1064 nm), second harmonic (532 nm) and third harmonic (355 am) wavelengths ofNd: YAG laser are transmitted. The second harmonic backscatter light and its N2 ranian backscatter light (607 am) are collected by a 28 cm and a 35 cm diameter telescope. In 35 cm telescope system, upper troposphere and stratosphere are observed by photon counting. 532 am light component polarized parallel and perpendicular to the laser light are separately observed to get information about shape of aerosol. Bandung is located at around 750 m above mean sea level and it is surrounded by mountains, therefore clouds are easily formed especially between 10 and 17 km height. Stratospheric aerosol over Bandung are spreaded between 18 and 35 km in altitude and form more than 1 sub layer, below 30 km and upper 30 km. The maximum aerosol concentration is obtained around 22.5 km height. To understand the seasonal variation of stratospheric aerosol we integrated the backscattering coefficients for altitude range 18-35 km and it was obtained that the stratospheric aerosol concentration in 1997 was higher than in 1999. The integrated backscattering coefficient in June was higher than in August. But seems the seasonal variation of integrated backscattering coefficient in Bandung does not so clear determined yet.

Paper Details

Date Published: 13 February 2001
PDF: 8 pages
Proc. SPIE 4153, Lidar Remote Sensing for Industry and Environment Monitoring, (13 February 2001); doi: 10.1117/12.417087
Show Author Affiliations
Sri Kaloka Prabotosari, National Institute of Aeronautics and Space (Indonesia)
Saipul Hamdi, National Institute of Aeronautics and Space (Indonesia)
Agus Nuryanto, National Institute of Aeronautics and Space (Indonesia)
Toshikasu Itabe, Communications Research Lab. (Japan)
Kohei Mizutani, Communications Research Lab. (Japan)
Motoaki Yasui, Communications Research Lab. (Japan)
Tomohiro Nagai, Meteorological Research Institute (Japan)
Osamu Uchino, Meteorological Research Institute (Japan)
Akinori Ichiki, Meteorological Research Institute (Japan)


Published in SPIE Proceedings Vol. 4153:
Lidar Remote Sensing for Industry and Environment Monitoring
Upendra N. Singh; Kazuhiro Asai; Toshihiro Ogawa; Upendra N. Singh; Toshikasu Itabe; Nobuo Sugimoto, Editor(s)

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