World Environmental and Water Resources Congress 2018
The Story of Turag River: How Severe Is the Pollution?
Publication: World Environmental and Water Resources Congress 2018: Groundwater, Sustainability, and Hydro-Climate/Climate Change
ABSTRACT
Turag River, passing through the northwestern part of Dhaka City, plays a significant role as the main drainage channel and carries water to the Buriganga River. The major pollution sources of Turag River are untreated effluents from different industrial establishments, domestic, and human waste from surrounding municipalities and slum areas. This study identified and categorized the major sources of pollution and outfalls discharging into Turag River. Evaluation of spatial and temporal variation of surface water parameters was performed throughout a year. Finally, status of heavy metal contamination of different compartments of Turag River such as river water, riverside plants, sediment, phytoplankton, and fish species belonging to different trophic levels was evaluated. Results indicated that currently, Turag River is being polluted by 15 point sources including industrial effluent and municipal sewage. Specific point sources such as Azmeri Knit Composite, Hossain Dyeing, Tongi Bridge waste, Mehmud Industries Limited, and fish market waste were identified within the stretch of the study. Major outfalls included storm sewer pipes, open channels, and small/big private outfalls. Dissolved oxygen was obtained below 4 mg/L in most instances and accordingly, it was difficult to find common aquatic life forms especially during dry season. Levels of biochemical oxygen demand, color, turbidity, total suspended solids, ammonia, and phosphate were obtained beyond the standard water quality ranges especially during dry season. Certain fish species and macro invertebrates were categorized to be endangered comparing current and previous observation. Chromium and lead were detected at negligible levels in the water however, significant concentrations of zinc were obtained in plants, phytoplanktons, and riverside sediments. Pollution load index indicated low level of heavy metal contamination. Bioaccumulation of zinc seemed significant in phytoplanktons whereas moderate level of accumulation was observed in fish species.
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Published In
World Environmental and Water Resources Congress 2018: Groundwater, Sustainability, and Hydro-Climate/Climate Change
Pages: 27 - 39
Editor: Sri Kamojjala, Las Vegas Valley Water District
ISBN (Online): 978-0-7844-8141-7
Copyright
© 2018 American Society of Civil Engineers.
History
Published online: May 31, 2018
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