Abstract
Inland open water fisheries around the world are threatened due to growing anthropogenic pressures, climate change and overexploitation of the germplasm resources. Understanding how the floodplain wetland fish diversity responds to these unprecedented challenges is critical for developing alternative management and mitigation strategies in vulnerable wetland ecosystems. This communication elucidates the changing pattern of fish diversity in three moderately impacted tropical floodplain wetlands namely Bhomra, Mathura and Chandania in the lower Ganges basin during the year 2017–2019. Experimental fishing using gill net, drag net and cast net was carried out monthly to assess the fish diversity pattern in the three wetlands. Enviro-climatological parameters were assessed, and the important parameters influencing fish diversity were identified. Most of the critical environment parameters including pH, DO, water temperature were in the favourable range for fish. ANOVA indicated that pH, TDS, conductivity, salinity, transparency, depth and hardness showed significant difference (p < 0.05) among the three wetlands. Thirty-six fish species were recorded from the three wetlands out of which 2 species were vulnerable (VU) and 1 species was near threatened (NT). Species richness declined in all the studied wetlands ranging from 22.85 to 54% from the year 2002. The Canonical Correspondence Analysis showed a varying relationship of climatic and environmental parameters with the occurrence of fishes indicating species-specific adaptive capacity. The study also revealed a decrease in fish production (1991 to 2017) with the decreasing trend in rainfall and the increasing trend in temperature showing enviro-climatological influence. The new information generated would help to manage the wetland resources for sustainable fisheries enhancement and biodiversity conservation.
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References
APHA (1998) Standard methods for the examination of water and wastewater. In: 20th Edition, American Public Health Association, American Water Works Association and Water Environmental Federation, Washington, DC
Bates BC, Kundzewicz ZW, Wu S, Palutikof JP (2008) Climate change and water. Technical paper of the Intergovernmental Panel on Climate Change IPCC Secretariat, Geneva
Carpenter SR, Stanley EH, Zanden MJV (2011) State of the world's freshwater ecosystems: physical, chemical, and biological changes. Annu Rev Environ Resour 36:75–99
Chakraborty I (2002) Study on the aquatic ecology and fisheries of an ox-bow lake in West Bengal. Doctoral dissertation, MSc. Thesis, West Bengal University of Animal and Fishery Sciences, Kolkata. pp 53.
Chu C, Mandrak NE, Minns CK (2005) Potential impacts of climate change on the distributions of several common and rare freshwater fishes in Canada. Divers. Distrib 11(4):299–310
Das MK (2013) Impacts, vulnerability and adaptation of inland fisheries to climate change in India. In: Bhattacharyya T, Pal DK, Sarkar D, Wani SP (eds) Climate change and agriculture, pp. 181–209
Dey SR (2017) Checklist of fish diversity of Patan Wetland, Murshidabad, West Bengal. Harvest 1:50–59
Duraiappah AK, Naeem S, Agardy T, Ash NJ, Cooper HD, Diaz S, Faith DP, Mace G, McNeely JA, Mooney HA, Oteng-Yeboah AA (2005) Ecosystems and human well-being: biodiversity synthesis; a report of the Millennium Ecosystem Assessment.
Erwin KL (2009) Wetlands and global climate change: the role of wetland restoration in a changing world. Wetl Ecol Manag 17(1):71
Ficke AD, Myrick CA, Hansen LJ (2007) Potential impacts of global climate change on freshwater fisheries. Rev Fish Biol Fish 17(4):581–613
Ghosh AS, Ghosh SK, Ghosh M, Ali A (2018a) Studies on biodiversity of selected indigenous fish species, in Beels and Baors of South Bengal and their breeding potential through habitat modification. Int J Fish Aquat 6(4):479–483
Ghosh AS, Ghosh SK, Ghosh M, Ghosh A, Dasgupta M, Bhattcharyya S (2018b) Biodiversity of small indigenous fish in the beels of Nadia and North 24 Parganas Districts of West Bengal. J Inland Fish Soc India 50(1):47–52
Ghosh D, Biswas JK (2017) Fish productivity: Assessing sustainability in a tropical Oxbow lake of Nadia district, West Bengal. India Arch Agri Environ 2:6–20
Gopal B, Shilpakar R, Sharma E (2010) Functions and services of wetlands in the Eastern Himalayas. Climate change impact and vulnerability in the Eastern Himalayas–Technical Report. In International Center for Integrated Mountain Development (ICIMOD), Kathmandu
Hammer Ø, Harper DAT, Ryan PD (2001) PAST: Paleontological statistics software package for education and data analysis. Palaeontol Electron 4(1):9
Hupp CR (2000) Hydrology, geomorphology and vegetation of Coastal Plain rivers in the south-eastern USA. Hydrol Process 14(16–17):2991–3010
IUCN (2020) The IUCN Red List of Threatened Species. Version 2020-2. https://www.iucnredlist.org
Jain SK, Kumar V, Saharia M (2013) Analysis of rainfall and temperature trends in northeast India. Int J Climatol 33(4):968–978
Jayaram KC (1999) The freshwater fishes of the Indian Region. Narendra Publishing House, Delhi, p 551
Karim F, Petheram C, Marvanek S, Ticehurst C, Wallace J, Hasan M (2015) Impact of climate change on floodplain inundation and hydrological connectivity between wetlands and rivers in a tropical river catchment. Hydrol Process 30:1574–1593
Karnatak G, Sarkar UK, Naskar M, Roy K, Gupta S, Nandy SK, Srivastava PK, Sarkar SD, Sudheesan D, Bose AK, Verma VK (2018) Understanding the role of climatic and environmental variables in gonadal maturation and spawning periodicity of spotted snakehead, Channa punctata (Bloch, 1793) in a tropical floodplain wetland India. Environ Biol Fishes 101(4):595–607
Lakra WS, Sarkar UK, Gopalakrishnan A, Kathirvelpandian A (2010a) Treatened freshwater fishes of India. NBFGR, Lucknow, p 20
Lakra WS, Sarkar UK, Kumar RS, Pandey A, Dubey VK, Gusain OP (2010b) Fish diversity, habitat ecology and their conservation and management issues of a tropical River in Ganga basin India. Environ 30(4):306–319
Lianthuamluaia L, Mishal P, Panda D, Sarkar UK, Vikash K, Sandhya KM, Gunjan K, Suman K, Bera AK, Das S, Ali Y (2019) Understanding spatial and temporal patterns of fish diversity and assemblage structure vis-a-vis environmental parameters in a tropical Indian reservoir. Environ Sci Pollut R 26(9):9089–9098
Macusi ED, Abreo NAS, Cuenca GC, Ranara CTB, Cardona LT, Andam MB, Guanzon GC, Katikiro RE, Deepananda KHMA (2015) The potential impacts of climate change on freshwater fish, fish culture and fishing communities. J Nat Stud 14(2): 14–31
Mahapatra BK, Sarkar UK, Lakra WS (2014) A Review on status, potentials, threats and challenges of the fish biodiversity of West Bengal. J Bio Biopros Dev 2(140):2376–3214
Mistry J (2016) Ichthyofaunal diversity of Ahiran Lake in Murshidabad District, West Bengal, India. Inter J Fish Aqua Stud 4(2):15–18
Mitsch WJ, Gosselink JG (1986) The values of wetlands: landscapes and institutional perspectives. Ecol Econ 35(200):25–33
Mondal DK, Kaviraj A (2009) Distribution of fish assemblages in two floodplain lakes of North 24-parganas in West Bengal India. J Fish Aqua Sci 4:12–21
Mukherjee S, Panighrahi AK, Mandal A (2015) Study on the effects of pollution on ichthyofaunal diversity of selected fresh water beels in Nadia District, West Bengal. 558X Indian J. Appl. Res. 5(3): ISSN-2249.555.
Mustapha MK (2013) Potential impacts of climate change on artisanal fisheries of Nigeria. J Earth Sci Clim Chan 4(1):130
Naskar M, Roy K, Karnatak G, Nandy SK, Roy A (2018) Quantifying climate change induced threats to wetland fisheries: a stakeholder-driven approach. Environ Dev Sustain 20(6):2811–2830
Negi RK, Mamgain S (2013) Species diversity, abundance and distribution of fish community and conservation status of Tons river of Uttarakhand State. India J Fish Aqua Sci 8(5):617–626
Nsor CA, Obodai EA (2016) Environmental determinants influencing fish community structure and diversity in two distinct seasons among wetlands of northern region (Ghana). Int J Ecol. https://doi.org/10.1155/2016/1598701
O'Reilly CM, Alin SR, Plisnier PD, Cohen AS, McKee BA (2003) Climate change decreases aquatic ecosystem productivity of Lake Tanganyika. Afr Nat 424(6950):766
Patel JG, Murthy TVR, Singh TS and Panigrahy S (2009) Analysis of the distribution pattern of wetlands in India in relation to climate change. In: Panigrahy S, Shankar RS and Parihar JS (ed.) Proceedings of the workshop on impact of climate change on agriculture. Ahmedabad, India, 17–18 December. International Society for Photogrammetry and Remote Sensing, Ahmedabad
Prasad AGD, Venkataramana GV, Thomas M (2009) Fish diversity and its conservation in major wetlands of Mysore. J Environ Biol 30(5):713–718
Raveendar B, Sharma AP, Gurjar UR, Gugulothu R, Mishra A (2018) Assessment the present status of fish diversity in relation to physicochemical characteristics of Nanaksagar reservoir of Uttrakhand. J Entom Zool Stud 6(2):477–484
Roy R, Tissot L, Argillier C (2018) Environmental drivers of fish spatial distribution and activity in a reservoir with water level fluctuations. Appl Hydroécol. https://doi.org/10.1051/hydro/2018001
Sarkar UK et al (2020) Status, potential, prospects, and issues of floodplain wetland fisheries in India: synthesis and review for sustainable management. Fish Sci Aquac Rev. https://doi.org/10.1080/23308249.2020.1779650
Sarkar UK, Borah BC (2017) Flood plain wetlands of India with special reference to impact of climate change. Wetl Ecol Manag 26(1):1–15
Sarkar UK, Gupta BK, Lakra WS (2010) Biodiversity, ecohydrology, threat status and conservation priority of the freshwater fishes of river Gomti, a tributary of river Ganga (India). Environ 30(1):3–17
Sarkar UK, NagSK, Das MK, Karnatak G, Sudheesan D (2016) Conserving Wetlands - An Effective Climate Change Adaptation in India. Bulletin No. NICRA/CIFRI/2015–16/2, Central Inland Fisheries Research Institute (ICAR), Barrackpore, Kolkata.
Sarkar UK, Pathak AK, Sinha RK, Sivakumar K, Pandian AK, Pandey A, Dubey VK, Larka WS (2012) Freshwater fish biodiversity in the River Ganga (India): changing pattern, threats and conservation perspectives. Rev Fish Biol Fish 22:251–272
Sharma N (2013) Brahmaputra flooding and possible technical solutions. In: Borah Bibha Chetia, Bhattacharyya HC (eds) Strategy for developing fisheries in flood affected areas of Assam. Assam Agricultural University, Assam.
Sharp GD (1987) Climate and fisheries: cause and effect or managing the long and short of it all. South Afr J Mar Sci 5(1):811–838
Sinha CP (2011) Climate change and its impacts on the wetlands of North Bihar. India Lakes Reser Res Manag 16(2):109–111
Stalnaker CB (1979) The use of habitat structure preferenda for establishing flow regimes necessary for maintenance of fish habitat. The ecology of regulated streams. Springer, Boston, pp 321–337
Sugunan VV, Vinci GK, Bhattacharjya BK, Hassan MA (2000) Ecology and fisheries of beels in West Bengal. ICAR-CIFRI, Kolkata, p 53
Suresh VR, Chitranshi VR (2011) Floodplain wetland fisheries. In: Trivedi TP (ed) Handbook of fisheries and aquaculture. ICAR, New Delhi, pp 275–301
Takatert N, Sanchez-Pérez JM, Trémolières M (1999) Spatial and temporal variations of nutrient concentration in the groundwater of a floodplain: effect of hydrology, vegetation and substrate. Hydrol Process 13(10):1511–1526
Talwar PK, Jhingran AG (1991) Inland fishes of India and adjacent countries. Oxford-IBH Publishing Co Pvt Ltd, New Delhi, p 1158
UNESCO Case studies on climate change and world heritage. UNESCO World Heritage Centre, Paris, (2007).
Vega-Cendejas ME, de Santillana MH, Norris S (2013) Habitat characteristics and environmental parameters influencing fish assemblages of karstic pools in southern Mexico. Neotrop Ichthyol 11(4):859–870. https://doi.org/10.1590/S1679-62252013000400014
Vishwanath W, Mahanta PC, Anganthoibi N, Sarma D (2011) Coldwater fishes of india-an atlas, directorate of coldwater fisheries research (ICAR). Bhimtal, Uttarakhand
Whiting PJ, Pomeranets M (1997) A numerical study of bank storage and its contribution to streamflow. J Hydrol 202(1–4):121–136
Woodward G, Perkins DM, Brown LE (2010) Climate change and freshwater ecosystems: impacts across multiple levels of organization. Philos Trans R Soc Lond B Biol Sci 12:2093–2106
Wrona FJ, Prowse TD, Reist JD, Hobbie JE (2006) Climate change effects on aquatic biota, ecosystem structure and function. Ambio 35:359–369
Acknowledgements
Authors are grateful to the Director, ICAR-CIFRI, Barrackpore, for providing the facilities to carry out the research work. The financial support given by ICAR, New Delhi, for funding project NICRA is also greatly acknowledged.
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Sarkar, U.K., Bakshi, S., Lianthuamluaia, L. et al. Understanding enviro-climatological impact on fish biodiversity of the tropical floodplain wetlands for their sustainable management. Sustain. Water Resour. Manag. 6, 96 (2020). https://doi.org/10.1007/s40899-020-00445-0
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DOI: https://doi.org/10.1007/s40899-020-00445-0