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Talukdar, Debashish, Basumatari, Devajit, Rahman, Shamim. (1400). Monitoring Nature’s Kidneys with the aid of Macrobenthic Assessment: A case study in the city Wetlands of Guwahati, India. , 8(1), 45-56. doi: 10.22059/poll.2021.324514.1106
Debashish Talukdar; Devajit Basumatari; Shamim Rahman. "Monitoring Nature’s Kidneys with the aid of Macrobenthic Assessment: A case study in the city Wetlands of Guwahati, India". , 8, 1, 1400, 45-56. doi: 10.22059/poll.2021.324514.1106
Talukdar, Debashish, Basumatari, Devajit, Rahman, Shamim. (1400). 'Monitoring Nature’s Kidneys with the aid of Macrobenthic Assessment: A case study in the city Wetlands of Guwahati, India', , 8(1), pp. 45-56. doi: 10.22059/poll.2021.324514.1106
Talukdar, Debashish, Basumatari, Devajit, Rahman, Shamim. Monitoring Nature’s Kidneys with the aid of Macrobenthic Assessment: A case study in the city Wetlands of Guwahati, India. , 1400; 8(1): 45-56. doi: 10.22059/poll.2021.324514.1106

Monitoring Nature’s Kidneys with the aid of Macrobenthic Assessment: A case study in the city Wetlands of Guwahati, India

Pollution
دوره 8، شماره 1، فروردین 2022، صفحه 45-56    اصل مقاله (520.19 K)
نوع مقاله: Original Research Paper
شناسه دیجیتال (DOI): 10.22059/poll.2021.324514.1106
نویسندگان
Debashish Talukdar1؛ Devajit Basumatari1؛ Shamim Rahman* 2
1Department of Zoology, Cotton University, P.O.Box 781001, Guwahati, India
2Department of Zoology, D. C. B. Girls’ College, P.O.Box 785001, Jorhat, India
چکیده
Aquatic environments, including wetlands, are one of the most threatened ecosystems worldwide. Considering their ecological importance, wetlands are rightly appraised as ‘natural kidneys’. In this current study, the city wetlands of Guwahati were viewed for the first time through the angle of lesser-explored bottom dwellers. Guwahati, a rapidly expanding metropolis, is the gateway to northeast India, part of an Indian biodiversity hot-spot region. This case study comprised the bridge between abiotic and biotic factors, thus directing the pave for characterization of wetlands through benthos analysis. The study, covering seasons, viz. winter, premonsoon and monsoon, revealed 15 definite taxa belonging to 10 orders. The dominance of Chironomidae and Culicidae in certain wetlands indicated high tolerance of Dipterans in a wide range of aquatic environments, including polluted water bodies. Similarly, the presence of Trichopterans, only in the wetland located distant from the mainland city, marked that with less anthropogenic impacts. The Shannon indices for benthos were in the range from 0.17 to 0.97. Density was found to have a significant positive correlation with dissolved oxygen (r = 0.567) and a negative correlation with free carbon dioxide (r = -0.377). In contrast to significant site- wise variation in density, there was no significant difference in benthic diversity across the sites and no significant seasonal variation of benthic density and diversity from the statistical point of view.
کلیدواژه‌ها
limnology؛ water-quality؛ aquatic-ecosystem؛ bottom-dwellers
مراجع
APHA (1995) Standard Methods for the Examination of Water and Wastewater, 19th edition.

American Public Health Association, Washington, D.C.

Anbuchezhian, R. M., Rameshkumar, G. and Ravichandran, S. (2009). Macrobenthic composition and diversity in the coastal belt of Thondi, southeast coast of India. Global J. Environ. Res. 3(2), 68-75.

Asadujjaman, M., Hossain, M. B., Shamsuddin, M., Amin, M. A. and Azam, A. K. M. (2012). Occurrence and abundance of macrobenthos of Hatiya and Nijhum Dweep Islands, Bangladesh. Middle-East J. Sci. Res., 11(2), 184-188.

Balogun, K. J., Ladigbolu, I. A. and Ariyo, A. A. (2011). Ecological assessment of a coastal shallow lagoon in Lagos, Nigeria: a bio-indicator approach. J. Appl. Sci. Environ. Manag., 15(1), 41-46.

Bhatnagar, A. and Singh, G. (2010). Culture fisheries in village ponds: a multi-location study in Haryana, India. Agric. Biol. J. N. Am., 1(5), 961-968.

Bett, B. J. (2013). Characteristic benthic size spectra: potential sampling artefacts. Mar Ecol Prog Ser., 487, 1-6.

Biswas, S., Mukhopadhyay, P. and Saha, SK (1995). Insecta: Coleoptera: Adephoga : fam Gyrinidae and fam Haliplidae. (In The Director, Zool. Surv of India, Calcutta (Ed), State Fauna Series 3. Fauna West Bengal, (pp. 121–141). Calcutta: Zool. Surv of India.

Bouchard, R. W. (2004). Diptera (Aquatic & Semiaquatic True Flies). (In L. C. Ferrington, Jr. and M. L. Karius (Eds). Guide to aquatic macroinvertebrates of the Upper Midwest, (pp.159- 183) West Virginia: University of Minnesota.

Boyd, C. E., Tucker, C. S., and Somridhivej, B. (2016). Alkalinity and hardness: critical but elusive concepts in aquaculture. Journal of the World Aquaculture Society, 47(1), 6-41.

Carlson, M., Chen, J., Elgie, S., Henschel, C., Montenegro, Á., Roulet, N., Roulet, N., Scott, N., Tarnocai, C. and Wells, J. (2010). Maintaining the role of Canada’s forests and peatlands in climate regulation. The Forestry Chronicle, 86(4), 434-443.

Clarkson, B. R., Ausseil, A. G. E. and Gerbeaux, P. (2013). Ecosystem services in New Zealand: conditions and trends. (In Dymond, John R. (Ed.), Wetland ecosystem services (pp. 192- 202). New Zealand: Manaaki Whenua Press)

Cybulski, J. S., Clements, J. and Prakash, M. (2014). Foldscope: origami-based paper microscope. PloS ONE, 9(6), 1-11

Das, A. C., Baruah, B. K., Baruah, D. and Sengupta, S. (2003). Study on Wetlands of Guwahati City: 2. Water Quality of Rivers and Drains. Poll. Res., 22(1), 117-119.

Desta, H., Lemma, B. and Fetene, A. (2012). Aspects of climate change and its associated impacts on wetland ecosystem functions: A review. J. Am. Sci., 8(10), 582-596.

Fatima, M., Ahmad, U., Bhat, B. N., Hassan, T. and Parveen, S. (2017). Benthos Composition and Abundance in Lentic Ecosystems. J. Fisheries Livest Prod, 5(3), 2-8.

Garg, R. K., Rao, R. J. and Saksena, D. N. (2009). Correlation of molluscan diversity with physico-chemical characteristics of water of Ramsagar reservoir, India. Int. J. Biodivers. Conserv., 1(6), 202-207.

Gogoi, L. (2013). Degradation of natural resources and its impact on environment: a study in Guwahati City, Assam, India. IJSRP, 3(12), 1-7.

Goswami, U. C., Basistha, S. K., Bora, D., Shyamkumar, K., Saikia, B. and Changsan, K. (2012). Fish diversity of North East India, inclusive of the Himalayan and Indo Burma biodiversity hot-spots zones: A checklist on their taxonomic status, economic importance, geographical distribution, present status and prevailing threats. Int. J. Biodivers. Conserv., 4(15), 592-613.

Irin, B. R., Mansur, M. A., and Rahman, M. S. (2017). Study on abundance of benthic macroinvertebrates in relation to soil texture types of sediment in three ponds. Int. J. Agril. Res. Innov. & Tech, 7(2), 27-35.

Kabir, H. A. and Parveen, S. (2013). Benthic insect diversity in the sewage fed pond of Aligarh Region. Int. J. Biodivers. Conserv., 5(4), 209-214.

Khiratkar, S., Waware, S, K. and Kamdi, R, R. (2017). Study on benthos abundance in freshwater Labhansarad dam of warora taluka, district-chandrapurMaharashtra India. IJRBAT., 5 (3), 118-122.

Kumar, A. and Khanna, V. (1983). A review of the taxonomy and ecology of Odonata larvae from India. Oriental insects, 17(1), 127-157.

Mairs, D. F. (1966). A total alkalinity atlas for Maine lake waters. Limnology and Oceanography, 11(1), 68-72.

Pawar, P. R. and Al-Tawaha, A. R. M. S. (2017). Species diversity and distribution of marine bivalves from coastal transitional ecosystem of Uran, Navi Mumbai, India. Advances in Environmental Biology, 11(4), 1-12.

Pešić, V., Gadawski, P., Gligorović, B., Glöer, P., Grabowski, M., Kovács, T., Murányi, D., Płóciennik, M. and Šundić, D. (2018). The diversity of the Zoobenthos communities of the Lake Skadar/Shkodra basin. (In Pešić, V., Karaman, G. and Kostianoy A. G (Eds.). The Skadar/Shkodra Lake Environment, Handbook of Env. Chem. (pp 255-293). Switzerland AG: Springer)

Pritchard, D., Ali, M. and Papayannis, T. (2016). Guidance: rapid cultural inventories for wetlands. Ramsar Culture Network. 1-27. Retrieved June 12, 2021 from https://www.ramsar.org

Rai, P. K., Sharma, A. P. and Tripathi, B. D. (2007). Urban environment status in Singrauli Industrial region and its eco-sustainable management: A case study on heavy metal pollution (Paper presented at the conference of Urban planning and environment, strategies and challenges. McMillan Advanced Research Series)

Sarang, N. and Sharma, L. L. (2009). Macrobenthic fauna as bioindicator of water quality in Kishore Sagar Lake, Kota (Rajasthan) India. In Proceedings of International Lake Environment Committee 13th Conference, Wuhan, (pp.1-17)

Sarker, J., Tanmay, M. H., Rahman, F., Patwary, M. S. A. and Rima, N. N. (2016). Assessment of coastal water pollution in Greater Noakhali-Bangladesh. J Coast Zone Manag, 19(2), 1-7.

Sharma, B. K. (2012). Phytoplankton diversity of a floodplain lake of the Brahmaputra River basin of Assam, north-east India. Indian J. Fish, 59(4), 131-139.

Snelgrove, P.V. (1998).The biodiversity of macrofaunal organisms in marine sediments. Biodiversity and Conservation, 7(9), 1123-1132.

Sun, Y., Takemon, Y. and Yamashiki, Y. (2019). Freshwater spring indicator taxa of benthic invertebrates. Ecohydrology & Hydrobiology, 2(4), 622-631.

Wilhm, J. L. and Dorris, T. C. (1966). Species diversity of benthic macroinvertebrates in a stream receiving domestic and oil refinery effluents. American Midland Naturalist, 76(2), 427-449.

Xu, T., Weng, B., Yan, D., Wang, K., Li, X., Bi, W., Li, M., Cheng, X. and Liu, Y. (2019).

Wetlands of international importance: status, threats, and future protection. Int. J. Environ. Res. Public Health, 16(10), 1-23.

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