Koshy, Kanayathu and Oltmans, S. and Johnson, B.J. and Harris, J.M. and Vömel, H. and Thompson, A.M. and Simon, P. and Bendura, R.J. and Logan, J.A. and Hasebe, F. and Shiotani, M. and Kirchhoff, V.W.J.H. and Maata, Matakite and Sami, Gopal and Samad, Ansari and Tabudravu, Jioji N. and Enriquez, H. and Agama, M. and Cornejo, J. and Paredes, F. (2001) Ozone in the Pacific tropical troposphere from ozonesonde observations. Journal of Geophysical Research, 106 (D23). 32, 503-32, 525. ISSN 0148-0227
Full text not available from this repository.Abstract
Ozone vertical profile measurements obtained from ozonesondes flown at Fiji, Samoa, Tahiti, and the Galapagos are used to characterize ozone in the troposphere over the tropical Pacific. There is a significant seasonal variation at each of these sites. At sites in both the eastern and western Pacific, ozone mixing ratios are greatest at almost all levels in the troposphere during the September-November season and smallest during March–May. The vertical profile has a relative maximum at all of the sites in the midtroposphere throughout the year (the largest amounts are usually found near the tropopause). This maximum is particularly pronounced during the September–November season. On average, throughout the troposphere, the Galapagos has larger ozone amounts than the western Pacific sites. A trajectory climatology is used to identify the major flow regimes that are associated with the characteristic ozone behavior at various altitudes and seasons. The enhanced ozone seen in the midtroposphere during September-November is associated with flow from the continents. In the western Pacific this flow is usually from southern Africa (although 10-day trajectories do not always reach the continent) but also may come from Australia and Indonesia. In the Galapagos the ozone peak in the midtroposphere is seen in flow from the South American continent and particularly from northern Brazil. High ozone concentrations within potential source regions and flow characteristics associated with the ozone mixing ratio peaks seen in both the western and eastern Pacific suggest that these enhanced ozone mixing ratios result from biomass burning. In the upper troposphere, low ozone amounts are seen with flow that originates in the convective western Pacific.
Item Type: | Journal Article |
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Subjects: | G Geography. Anthropology. Recreation > GE Environmental Sciences |
Divisions: | Faculty of Science, Technology and Environment (FSTE) > School of Biological and Chemical Sciences Faculty of Science, Technology and Environment (FSTE) > Institute of Applied Science |
Depositing User: | Ms Mereoni Camailakeba |
Date Deposited: | 17 Nov 2001 23:44 |
Last Modified: | 03 Jul 2017 23:59 |
URI: | https://repository.usp.ac.fj/id/eprint/2825 |
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