Environmental drivers of zooplankton diversity and composition of Pargwal Wetland, Jammu & Kashmir, India
DOI:
https://doi.org/10.11609/jott.8808.17.8.27333-27345Keywords:
Abundance, degradation, revival efforts, spatial, temporal, variability, wetlandAbstract
This study investigates temporal and spatial variability in zooplankton abundance within Pargwal wetland, the largest wetland in the Jammu region. Water samples were collected from three strategically selected stations and analyzed for physico-chemical parameters including temperature, pH, dissolved oxygen, carbonates, nutrients, and ions. A total of 27 zooplankton species spanning five groups were recorded. Rotifera dominated in terms of abundance and diversity with 15 species, followed by Cladocera with five species, Protozoa with three, and two species each of Ostracoda and Copepoda. Key environmental factors contributing to the dominance of rotifers and cladocerans were high levels of nutrients (nitrates and phosphates), water transparency, and light penetration (due to shallow water depth), and resilience to pollution-induced stress. Rotifers are also known to outcompete other groups when resources are limited or of poor quality. The abundance of pollution-tolerant species indicated overall degradation of this important wetland driven by anthropogenic pressures. This highlights the need for integrated management strategies to safeguard biodiversity for future generations.
References
A.P.H.A (2017). Standard methods for the examination of water and waste water. 23rd ed. American Public Health Association, Inc. Washington D.C., 1976 pp.
Abdulwahab, S. & A.M. Rabee (2015). Ecological factors affecting the distribution of zooplankton community in the Tigris River at Baghdad region, Iraq. Egyptian Journal of Aquatic Research 41: 187–196. https://doi.org/10.1016/j.ejar.2015.03.003
Adoni, A.D. (1985). Work Book on Limnology. Pratibha Publishers, Sagar, 125 pp.
Alekseev, V.R. (2002). Copepoda, pp. 123–187 In: Fernando, C.H. (ed.). Guide to Tropical Freshwater Zooplankton: Identification, Ecology and Impact on Fisheries. Backhuys Publishers, London.
Aslam, M., D.K. Verma, R. Dhakerya, M. Alam & F.A. Ansari (2012). Bioindicator: a comparative study on uptake and accumulation of heavy metals in some plant’s leaves of M.G. Road, Agra, City, India. Research Journal of Environmental and Earth Sciences 4(12): 1060–1070.
BIS (1998). Standards of water for drinking and other purposes. Bureau of Indian Standards, New Delhi, 11 pp.
Breitburg, D.L., J.G. Sanders, C.G. Gilmour, C.A. Matfield, R.W. Osman, G.P. Riedel, S.P. Seitzinger & K.G. Sellner (1999). Variability in responses to nutrients and trace elements and transmission of stressor effects through an estuarine food web. Limnology and Oceanography 44: 837–863.
Contreras, J.J., S.S.S. Sarma, M. Merino-Ibarra & S. Nandini (2009). Seasonal changes in the rotifer (Rotifera) diversity from a tropical high altitude reservoir (Valle de Bravo, Mexico). Journal of Environmental Biology 30(2): 191–195.
Dallas, H. (2008). Water temperature and riverine ecosystems: An overview of knowledge and approaches for assessing biotic responses, with special reference to South Africa. Water SA 34(3): 393–404. https://doi.org/10.4314/wsa.v34i3.180634
de Puelles, M.L.F., V.M.L. Vicente & J.C. Molinero (2014). Seasonal spatial patter and community structure of zooplankton in waters of the Baleares archipelago (Central Western Mediterranean). Journal of Marine Systems 138: 82–94. https://doi.org/10.1016/j.jmarsys.2014.01.001
Dutta, T.K. & R.P. Mondal (2020). Seasonal variation of zooplankton density and physicochemical parameters of a perennial freshwater body, Samudrabundh of Joypur, Bankura, West Bengal, India. Biosciences Biotechnology Research Asia 17(4): 2890. https://doi.org/10.13005/bbra/2890
El-Sherbiny, M.M., A.M. Al-Aidaroos & A. Gab-alla (2011). Seasonal composition and population density of zooplankton in Lake Timsah, Suez Canal, Egypt. Oceanologia 53(3): 837–859. https://doi.org/10.5697/oc.53-3.837
Ezz, S.M.A., A.M.M. Heneash & S.M. Gharib (2014). Variability of spatial and temporal distribution of zooplankton communities at Matrouh beaches, south-eastern Mediterranean Sea, Egypt. Egyptian Journal of Aquatic Research 40: 283–290. https://doi.org/10.1016/j.ejar.2014.10.002
Goldman, C.R. & A.J. Horne (1983). Limnology. McGraw-Hill International Book Company, 464 pp.
Golmarvi, D., M.F. Kopourchali, A.M. Moradi, M. Fatemi & R.M. Nadoshan (2018). Study of Zooplankton Species Structure and Dominance in Anzali International Wetland. Open Journal of Marine Science 8: 215–222. https://doi.org/10.4236/ojms.2018.82011
Hans, M.N. & K. Anj (2007). Regional Zooplankton Taxonomy and Identification Training Workshop. Swakopmund, Namibia, 21 pp. https://iwlearn.net/resolveuid/4a747bc0b1929f052c6088d2d58fbad5. Accessed on 7.iv.2024.
Harney, N.V., A.A. Dhamani & R.J. Andrew (2013). Seasonal variation in the physicochemical parameters of Pindavani Pond of Central India. Weekly Science 1(6): 1–8.
Hill-Falkenthal, J., A. Priyadarshi, J. Savarino & M. Thiemens (2013). Seasonal variations in 35S and Δ17O of sulfate aerosols on the Antarctic plateau. Journal of Geophysical Research Atmospheres 118: 9444–9455. https://doi.org/10.1002/jgrd.50716
Holcik, J. & J. Olah (1992). Fish, Fisheries and Water Quality in Anzali Lagoon and Its Watershed. Report Prepared for the Project-Anzali Lagoon Productivity and Fish Stock Investigations. Food and Agriculture Organisation, Rome, FI, 109 pp. https://www.fao.org/3/AD192E/AD192E00.html Accessed on 7.iv.2024.
Hosmani, S.P. (2013). Freshwater algae as bioindicators of water quality. Universal Journal of Environmental Research and Technology 3(4): 473–482.
Hoyer, M.V. & J.R. Jones (1983). Factors affecting the relation between phosphorus and chlorophyll a in mid-western reservoirs. Canadian Journal of Fisheries and Aquatic Sciences 40: 192–199. https://doi.org/10.1139/f83-029
Jeelani, M. & H. Kour (2014). Comparative Studies on Zooplankton in Dal Lake, Kashmir, India. Journal of Academic and Industrial Research 2(9): 534–537.
Jeppesen, E., P. Noges, T. Davidson, J. Haberman, T. Noges, K. Blank, T. Lauridsen, M. Sondergaard, C Sayer, R. Laugaste, L. Johansson, R. Bjerring & S. Amsinck (2011). Zooplankton as indicators in lakes: a scientific-based plea for including zooplankton in the ecological quality assessment of lakes according to the European Water Framework Directive (WFD). Hydrobiologia 676: 279–297. https://doi.org/10.1007/s10750-011-0831-0
Karabin, A. (1985). Pelagic zooplankton (Rotatoria+Crustacea). Variation in the process of lake eutrophication. I. Structural and quantitative features. Ekologia polska 34(4): 567–616.
Liu, H., W. Cheng, P. Xiong, H. Li, Z. Li, J. Ai, D. Yuan, F. Wen, Y. Wan, H. Zou & P. Shu (2023). Temporal variation of plankton and zoobenthos communities in a freshwater reservoir: Structure feature, construction mechanism, associated symbiosis and environmental response. Ecological Indicators 154: 110774. https://doi.org/10.1016/j.ecolind.2023.110774
Manickam, N., P.S. Bhavan, P. Santhanam, P. Chitrarasu & A.A. Jawahar (2012). Zooplankton diversity in a perennial freshwater lake. Diversity and Physiological Processes. Goa University, 25–37 pp.
Manickam, N., P. S. Bhavan, P. Santhanam, T. Muralisankar, V. Srinivasan, S. Radhakrishnan, K. Vijayadevan, P. Chitrarasu & A.A. Jawahar (2014). Seasonal Variations in Zooplankton Diversity in a Perennial Reservoir at Thoppaiyar, Dharmapuri District, South India. Austin Journal of Aquaculture and Marine Biology 1(1): 1–7.
Mathivanan, V., P. Vijayan, S. Sabhanayakm & O. Jayachitra (2007). An assessment of plankton population of Cauvery river with reference to pollution. Journal of Environmental Biology 28: 523–527.
Miah, M.F., S. Roy, E. Jinnat & Z.K. Khan (2013). Assessment of Daphnia, Moina and Cyclops in freshwater ecosystems and the evaluation of mixed culture in laboratory. American International Journal of Research in Formal, Applied & Natural Sciences 4(1): 1–7.
Munawar, M. (1970). Limnological studies on freshwater Ponds of Hyderabad, India II, The Biotope. Hydrobiologia 35: 127–162.
Mushtaq, B., R. Raina, A.R. Yousuf, A. Wanganeo & A. Jehangir (2016). Exploring the various physico-chemical parameters of surface water and sediments of Dal Lake Srinagar, Kashmir. Journal of Fisheries and Aquatic Science 11: 391–401. https://doi.org/10.3923/jfas.2016.391.401
Mustapha, A., B. Driss & B. Mohamed (2013). Seasonal variations in Physico-chemical parameters of Water Body Amghass II Province Ifrane Morocco. Universal Journal of Environmental Research and Technology 3(6): 660–666.
Nassar, M.Z., H.R. Mohamed, H.M. Khiray & S.H. Rashedy (2014). Seasonal fluctuations of phytoplankton community and physico-chemical parameters of the north western part of the red Sea. Egyptian Journal of Aquatic Research 40(4): 395–403. https://doi.org/10.1016/j.ejar.2014.11.002
Paleolog, A., S. Radwan, W. Kowalik, C. Kowalczyk, R. Stryjecki & W. Zwolski (1997). Water invertebrates in Janowski forests landscape park. UMCs Publications, Lublin.
Razak, S.B.A. & Z. Sharip (2019). Spatio-temporal variation of zooplankton community structure in tropical urban waterbodies along trophic and urban gradients. Ecological Processes 8: 44. https://doi.org/10.1186/s13717-019-0196-2
Saba, F. & D.N. Sadhu (2015). Zooplankton diversity of Garga Reservoir of Bokaro, Jharkhand, India. International Journal of Bioassays 4(4): 3792–3795.
Sahni, K. & S. Yadav (2012). Seasonal variations in physico-chemical parameters of Bharawas Pond Rewari, Haryana. Asian Journal of Experimental Sciences 26(1): 61–64.
Slâdeček, V. (1983). Rotifers as indicators of water quality. Hydrobiologia 100: 169–201. https://doi.org/10.1007/BF00027429
Sharma, M. (2018). Studies on the association of aquatic invertebrates with macrophytes in some water bodies of Jammu region. Ph.D. Thesis. University of Jammu, Jammu.
Sharma, N. & S. Kour (2021). First report of three species of the genus Diaphanosoma (Crustacea: Cladocera: Sididae) from Jammu waters (J&K), India. Journal of Threatened Taxa 13(9): 19324–19337. https://doi.org/10.11609/jott.6604.13.9.19324-19337
Shchapov, K. & T. Ozersky (2023). Opening the black box of winter: Full-year dynamics of crustacean zooplankton along a nearshore depth gradient in a large lake. Limnology and Oceanography 68: 1438–1451. https://doi.org/10.1002/lno.12355
Singh, B.K. (2004). Biodiversity, Conservation and Management. Mangaldeep Publications, Jaipur, India.
Singh, R. (2022). Diversity of aquatic insects and their role in biomonitoring pollution status of some water bodies of Jammu division. Ph.D. Thesis, University of Jammu, Jammu.
Sivakami, R. P. Sugumar, P. Sumithra & S. Amina (2013). Rotifer Diversity and Its Seasonal Variation of Two Perennial Temple Ponds of Tiruchirappalli, Tamil Nadu. Asia Pacific Journal of Research 2: 157–162.
Sivakumar, K. & K. Altaff (2004). Ecological indices of freshwater copepods and cladocerans from Dharmapuri District, Tamilnadu, India. Zoo’s Print Journal 19(5): 1466–1468. https://doi.org/10.11609/JoTT.ZPJ.1019.1466-8
Sreenivasan, A. (1967). The limnology of fish production in two lakes in Chinglipat (Madras). Hydrobiologia 32: 131–144.
Steinberg, D.K. & R.H. Condon (2009). Zooplankton of the York River. Journal of Coastal Research 57: 66–79. https://doi.org/ 10.2112/1551-5036-57.sp1.66
Sultana, S., S. Khan, S.M. Hena, M.S. Ahmed, M.S. Sultana, M.S.N. Akhi, Y. Mahmud & M.M. Hossain (2023). Seasonal dynamics of zooplankton in a eutrophic fish pond of Bangladesh in relation to environmental factors. Journal of Aquatic & Marine Biology 12(2): 129–136. https://doi.org/10.15406/jamb.2023.12.00365
Tamot, S. & P. Sharma (2006). Physico-chemical status of Upper Lake (Bhopal, India) water quality with special reference to Phosphate and Nitrate concentration and their impact on lake ecosystem. Asian Journal of Experimental Sciences 20(1): 151–158.
Toruan, R.L. (2021). Zooplankton diversity in Lake Tondano, Indonesia. International Symposia on Aquatic Sciences and Resources Management 744 (2021): 012092. https://doi.org/10.1088/1755- 1315/744/1/012092
Umamaheshwari, S. & N. Saravanan (2009). Water quality of Cauvery river basin in Tiruchirappalli, India. International Journal of Lakes and Rivers 2(1): 1–20.
Wetzel, R.G. (2001). Limnology: Lakes and River Ecosystems. 3rd Edition. Academic Press, 1006 pp.
WHO (World Health Organization). (1992). International Standards for Drinking water. Geneva, Switzerland.
Ziadi, B., A. Dhib, S. Turki & L. Aleya (2015). Factors driving the seasonal distribution of zooplankton in a eutrophicated Mediterranean Lagoon. Marine Pollution Bulletin 97: 224–233. https://doi.org/ 10.1016/j.marpolbul.2013.06.021
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