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Atmospheric chemical composition of bulk precipitation in different regions of Gampaha District

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dc.contributor.author Edirisinghe, E. A. C. P
dc.contributor.author Deeyamulla, M. P.
dc.date.accessioned 2022-11-03T10:33:13Z
dc.date.available 2022-11-03T10:33:13Z
dc.date.issued 2022
dc.identifier.citation Edirisinghe E. A. C. P.; Deeyamulla M. P. (2021) Atmospheric chemical composition of bulk precipitation in different regions of Gampaha District, Proceedings of the International Conference on Applied and Pure Sciences (ICAPS 2021-Kelaniya) Volume 2, Faculty of Science, University of Kelaniya Sri Lanka. Page 64. en_US
dc.identifier.uri http://repository.kln.ac.lk/handle/123456789/25546
dc.description.abstract Wet and dry deposition, both referred to as bulk precipitation, are the two methods of removing gases and particulates from the atmosphere. This research primarily focuses on bulk precipitation analysis to evaluate the pollution sources and the extent of seasonal characteristics of precipitation for air quality monitoring in the vicinity of Kerawalapitiya-Yughadhanavi Power Plant, the largest oil-fired power plant, and Sapugaskanda Oil Refinery, the single largest oil refinery in Sri Lanka. During the northeast and first intermonsoon seasons, 30 rainwater samples were collected over a five-month period from November 2021 to March 2022, in Kerawalapitiya (site A), Sapugaskanda (site B), and Kadawatha (site C), all densely populated and heavily industrialized areas, and Keragala (background site D), a rural area in Gampaha district where anthropogenic influence is minimal. Based on volume weighted mean (VWM) pH variation, Kadawatha area showed acidic precipitation (5.21±0.3) during the study period, while sites A (6.81±0.3), B (5.75±0.8) and D (6.12±0.2) had alkaline pH values. The neutralization factors (NFs) for the major cations (Na+, K+, Mg2+,Ca2+, and NH4+) in the precipitation indicated that higher levels of Na+ and NH4+ contributed to the neutralization of the acidic components at sites A and D, respectively. The VWM concentrations of ionic species were determined by ion chromatography followed the order of Na+> Ca2+>SO42-> Mg2+>NO3->Cl->NH4+>K+>Br-> F- in Kerawalapitiya, NO3->SO42->Ca2+>Na+> Cl-> K+> NH4+>Mg2+> Br->F- in Sapugaskanda and SO42->NO3->Na+> K+>Cl->Ca2+>Mg2+>Br->F- in Kadawatha. Nevertheless, Keragala showed a relatively low ionic composition, and it was in the order of NO3->NH4+>Na+>Cl->Ca2+>K+> SO42->Mg2+>Br->F-. There was a reduction in the VWM SO42- concentration in the Sapugaskanda site compared to a previous study done in this area in 2021. This may be due to the time-to-time shutdown of the Sapugaskanda oil refinery during the study period for the first time since 1969. Enrichment factors (EFs) associated with the sea (EFsea)and crust (EFcrust) confirmed that the Cl- ions at all four sites were marine in origin, although Ca2+, K+, and SO42- were not from marine sources. In addition, the values of EFsea and EFcrust for SO42- and NO3- showed greater than 1 in all four sites. This may be due to human activities in the study area. Also, Mg2+ has a significant contribution from both marine and soil at sites B, C, and D, while it is of anthropogenic origin at site-A. VWM metal concentrations determined by ICP-MS revealed that all sites had higher values for Al, Mg, K, and Zn, but lower concentrations of Cd, As, Co, and Cr. The results of this study further confirmed that rainwater analysis is an indirect indicator of air quality in a given area. en_US
dc.publisher Faculty of Science, University of Kelaniya Sri Lanka en_US
dc.subject Air quality, Bulk precipitation, Ionic composition, Monsoon seasons en_US
dc.title Atmospheric chemical composition of bulk precipitation in different regions of Gampaha District en_US


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