Impact of Saroda Dam Construction on Biotic and Abiotic Components of the Sabri and Khol River in Kabirdham, Chhattisgarh, India

Authors

  • Annpoorna Sharma Research Scholar, Kalinga University, Raipur, Chhattisagarh, India Author
  • Dr. Manoj Singh Department of Zoology, Kalinga University, Raipur, Chhattisagarh, India Author

Keywords:

River Fragmentation, Ichthyo-Faunal Diversity, Phytoplankton, Gene Pool, Physicochemical Parameters

Abstract

Currently, most of the large rivers worldwide have been fractured due to the construction of hydroelectric dams. The process of damming rivers has a substantial effect, as it not only creates a physical obstruction between areas upstream and downstream, but also poses a considerable danger to the local plant and animal life. In order to comprehend the fundamental alterations in biotic and abiotic factors both upstream and downstream of the dam, we conducted a study on the river near Kabirdham, Chhattisgarh, which has been affected by the Saroda Dam. The construction of the Saroda Dam caused the fragmentation of the river near Kabirdham. This study examined the biotic and abiotic factors of the river in three distinct habitats: S-1 (located upstream of the reservoir site), S-2 (located at the impounded site), and S-3 (located downstream of the dam). The data analysis disclosed substantial disparities across the examined locations. The water temperature, transparency, pH, nitrate, and phosphate increased in the impounded site (S-2), while turbidity, water velocity, DO, free CO2, and alkalinity decreased in the impounded site (S-2) compared to the natural, free-flowing site (S-1) and downstream site (S-3). The richness and density of Chlorophyceae members dramatically increased in the impounded site (S-2) in contrast to the free-flowing site (S-1) and downstream tailwater site (S-3). Great differences in fish assemblages throughout the fragmented habitats were also noted. The impounded site (S-2) had a total of only four fish species documented, while the downstream location (S-3) had sixteen species and the natural free-flowing upstream reservoir site (S-1) had twenty-one species.

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References

Agarwal, N.K., Singh, G and Singh, H. 2011. Present status of Icthyofaunal diversity of Garhwal Himalayan river Bhilangna and its tributaries with reference to changing environment. Environment Conservation Journal, 12(3):101-108.

Agarwal, N.K., Singh H., Singh G. and Charak S.R. 2018a. Bhilangana River Impoundment Consequences to Riverine Environment.

Water Biology, ISBN: 978-93-5056-888-0. Discovery Publishing House Pvt. Ltd., New Delhi (India): 83-95.

Agarwal, N.K., Singh, H., Singh, A. and Singh, G. 2018b .Bhilangana River Regulation for Tehri Hydro Power Project in Central Himalaya: Impact on Planktonic Assemblages. Biojournal, ISSN: 0970-9444. Vol 13(1): 1-10.

Alex, J. H., Rodney, J., Hubert, L., Bill, F. and Marc, B. 2019. Hypolimnetic oxygenation 2: oxygen dynamics in a large reservoir with submerged down-flow contact oxygenation (Speece cone), Lake and Reservoir Management, DOI: 10.1 080/ 10402381.2019.1648612: 323-337.

APHA (American Public Health Association). 2005. Standard methods for the examination of water and wastewater. 21th ed.

Washington (DC): American Public Association, AWWA, WEF.

Atobatele, O.E. and Ugwumba, O.A. 2008. Seasonal variation in the physicochemistry of a small tropical reservoir (Aiba reservoir, Iwo, Osun, Nigeria). African Journal of Biotechnology, 7(12): 1962-1971.

Badola, S.P. 1979. Ecological studies on the Ichthyofauna of some freshwater resources of Garhwal region, D.Phil. Thesis, Garhwal University.

Baoli W., Cong-Qiang L., Fushun W., Xiao-Long L. and Zhong-Liang W. 2015. A decrease in pH downstream from the hydroelectric dam in relation to the carbon biogeochemical cycle. Environ Earth Sci (2015) 73:5299–5306 DOI 10.1007/s12665-014-3779- 3.

Eker, E., Georgieva, L., Senichkina, L. and Kideys, A.E., 1999. Phytoplankton distribution in the western and eastern Black Sea in spring and autumn 1995. ICES Journal of Marine Science 56: 15 – 22.

Hitchings, S.P. and Beebee, T.J.C. 1998. Loss of genetic diversity and fitness in common toad (Bufobufo) populations isolated by inimical habitat. Journal of Evolution Biology 11: 269–283.

Hoeinghaus, D.J., Winemiller, K.O. and Agostinho, A.A. 2008. Hydro geomorphology and river impoundment affect food-chain length indiverse Neotropical food webs. Oikos, 117: 984–995.

ICOLD, 2000. Dams and the Environment International Commission on Large Dams, Boulevard Haussmann, Paris, France: 1-7. Jhingran, V.G. 1982. Fish and fisheries of India 2ndedition. Hindustan Publishing Corporation (India), Delhi.

Jayaram, K.C. 2010. The freshwater fishes of the Indian region. Narendra Publishing House. Delhi 110 006 (India).

Johnson, P.T.J., Olden, J.D. and Zanden, M.J.V. 2008. Dam Invaders: impoundments facilitate biological invasions into freshwaters.

Frontiers in Ecology and the Environment, 6: 357–363.

Kondolf, G.M. 1997. Hungry Water: Effects of Dams and Gravel Mining on River Channels. Environmental Management 21(4): 533-551.

Lakra, V.S., Sarkar, U.K., Kumar, R.S., Pandey, A., Dubey, V.K. and Gusain .O.P. 2010. Fish diversity, habitat ecology and their conservation and management issues of a tropical River in Ganga basin, India. Environmentalist, DOI 10.1007/s10669-010- 9277-6.

Larsen, T.H., Williams, N.M. and Kremen, C. 2005. Extinction order and altered community structure rapidly disrupt ecosystem functioning. Ecology Letters. 8: 538–547.

Ligon, F.K., Dietrich, W.E. and Trush, W.J. 1995. Downstream Ecological Effects of Dams. Bioscience, 45(3):183-192.

Liu, J.K. and Yu, Z.T. 1992. Water quality changes and effects on fish populations in the Hanjiang River, China, following hydroelectric dam construction. Regulated Rivers: Research & Management, 7(4): 359-368.

Mitra, A. and Zaman, S. 2016. Physical Processes in the Marine and Estuarine Ecosystems. In: Basics of Marine and Estuarine Ecology. Springer, New Delhi.

Needham, J.G., and Needham, R.R. 1962. A guide to the study of freshwater biology. Holden- Day, Inc. San Francisco California: 108

Noël, S., Ouellet, M., Galois, P. and Lapointe, F.J. 2007. Impact of urban fragmentation on the genetic structure of the eastern red- backed salamander. Conservation Genetics 8: 599–606.

Okogwu, O.I. and Ugwumba, O.A. 2013.Seasonal dynamics of phytoplankton in two tropical rivers of varying size and human impact in Southeast Nigeria. Rev. Biol. Trop. Int. J. Trop. Biol. ISSN-0034-7744. Vol. 61 (4): 1827-1840.

Pathak, S.K. and Mudgal, L.K. 2005. Limnology and Biodiversity of fish fauna in Virla Reservoir M.P. (India). Environment conservation journal, 6(1):41-45

Singh, H. 2015. Impoundment of the Bhilangana River for the Tehri Dam Reservoir: Hydro-biological study with special reference to Habitat alteration and Fisheries development, D.Phil. Thesis, Garhwal University.

Singh, H. 2018. Habitat fragmentation due to Tehri dam construction reduces fish species diversity among Bhilangana river, Uttrakhand, India, The Asian Journal of Animal Science, AJAS, Volume 13, Issue 2: 62-67

Singh, H.R., Badola, S.P. and Dobriyal, A.K. 1987. Geographical distributional list of Ichthyofauna of the Garhwal Himalaya with some new records. J. Bombay Nat. Hist. Soc., 84(1): 126-132.

Sugunan, V.V. 1991.Changes in the Phytoplankton species diversity indices due to the artificial impoundment in river Krishna Nagarjuna Sagar. J. Inland Fish. Soc. India, 23(1): 64-74.

Tilak, R. 1987. The Fauna of India, Pisces (Teleostomi), Subfamily Schizothoracinae. Zoological Survey of India.

Trivedy, R.K., and P.K., Goel. 1986. Chemical and biological methods for water pollution studies. Environmental publications, Aligarh.

Ward, J.V. and Stanford, J.A. 1995. Ecological connectivity in alluvial river ecosystems and its disruption by flow regulation.

Regulated Rivers: Research & Management, 11(1): 105–119.

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Published

30-07-2024

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Research Articles

How to Cite

Impact of Saroda Dam Construction on Biotic and Abiotic Components of the Sabri and Khol River in Kabirdham, Chhattisgarh, India. (2024). International Journal of Scientific Research in Science and Technology, 11(4), 244-253. https://ijsrst.com/index.php/home/article/view/IJSRST241141

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