Abstract
Belgaum city is a developmental hub of Karnataka State in India. In the recent time, the Government of Karnataka has planned to set up many processing industries in the vicinity of Belgaum to meet the growing needs of the region and to ease out the pressure on the already existing industrial hubs in Karnataka State. Ghataprabha, a tributary of river Krishna, is one of the major sources of water supply to Belgaum city and adjoining areas. During the last decade, a lot of anthropogenic activities such as unplanned agricultural activities are ongoing in many parts of the catchment. Therefore, people of Belgaum are more concerned about the quality of water in Ghataprabha river. Considering the significance of water quality of the river, surface water samples were collected during Pre- and Post-monsoon season from selected locations and analyzed for both physical and chemical constituents in the laboratory. The results indicate that the chemical parameters such as bicarbonates, sulphates, chlorides, sodium, potassium, calcium and magnesium are within the permissible limits. QUAL2E model was applied to assess the impact of point and non-point sources of pollution on the river water quality. Results show that the water quality conditions are highly acceptable all along the river stretch. Further, the variation of DO–BOD5 with river discharge was also estimated. Also, a significant variations in DO (decrease in DO) with the increase in river flow was observed. However, at the downstream end, considerable improvement in DO was noticed which is attributed to the damming effect of the reservoir.
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References
APHA (1992). Standard method for examination of water and wastewater. Washington DC: American Public Health Association.
Brown, L. C., & Barnwell Jr., T. O. (1987). The enhanced stream water quality models QUAL2E-UNCAS. Documentation and users manual. U.S. EPA/600/3-87/007.
Churchill, M. A., Elmore, H. L., & Buckingham, R. A. (1962). The prediction of re-aeration rates. International Journal of Air and Water Pollution, 6, 467–504.
Ghosh, N. C., & McBean, E. A. (1998). Water quality modeling of the Kali River, India. International Journal of Water, Air and Soil Pollution, 102, 91–103.
Langbein, W. B., & Darum, W. H. (1967). The aeration capacity of streams. U.S. Geological Survey (p. 542). Washington, D.C.: Circular.
O’ Connor, D. J., & Dobbins, W. E. (1958). Mechanism of reaeration in natural streams. Transactions ASCE, 123, 641–684.
Owens, M., Edwards, R. W., & Gibbs, J. W. (1964). Some reaeration studies in streams. International Journal of Air and Water Pollution, 8, 469–486.
Pawar, M. G. (2000). Evaluation of surface water quality parameters and water quality modeling using QUAL2E model. Belgaum, Karnataka, India: Visvesvaraya Technological University, M. Tech Dissertation.
Purandara, B. K., & Choubey, V. K. (1996). Hydrological land use study of Ghataprabha catchment using IRS-1A data. Asian-Pacific Remote Sensing and GIS Journal, 8(2), 5–10.
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Purandara, B.K., Varadarajan, N., Venkatesh, B. et al. Surface water quality evaluation and modeling of Ghataprabha River, Karnataka, India. Environ Monit Assess 184, 1371–1378 (2012). https://doi.org/10.1007/s10661-011-2047-1
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DOI: https://doi.org/10.1007/s10661-011-2047-1