Impacts and vulnerability of inland fisheries to climate change in the Ganga River system in India
Keywords:
River Ganga, temperature, rainfall, geographic distribution, fish breeding, drought, cyclone, vulnerability index, adaptationAbstract
Climate change is evident in India as manifested by increased air temperatures, regional variation in the monsoon, frequent occurrence of droughts, and a regional increase in severe storm incidence in coastal states of India. The impacts are evident for freshwater fisheries and fishers of the River Ganga and the water bodies in its plains and deltaic areas. Analysis of time series data for 32 years from published literature and from current investigations showed a 0.99°C increase in the minimum water temperature recorded in the upper stretch of River Ganga and 0.5 to 1.4°C increases in aquaculture water on the Gangetic Plains of West Bengal. The minimum air temperature showed a 15% shift upwards during the colder months of January–February. Rainfall showed a 1% increase in the post monsoon months of September–December. The impacts were manifest in a geographic shift of warm water fish species such as Glossogobius giuris, Xenentodon cancila into the colder stretch of the River Ganga. The breeding of the Indian Major Carps (IMC) has been affected and a consequent decline in fish spawn availability in River Ganga recorded. However a positive impact on breeding in fish farm hatcheries in the Gangetic Plains was evident in the advancement and extension of the breeding period for IMC by 45–60 days. Drought in West Bengal during 2009 was evident in rainfall deficits of 29% and 27% in the districts of North 24 Parganas and Bankura, respectively, in the fish breeding months of March–September and 92% of fish spawn hatcheries were affected. These districts recorded losses on average 61% to 73% of fish spawn during 2009 compared to the previous four years. A study of the potential impact of cyclones and storms on saline water inundation using a digital elevation model generated for coastal district of South 24 Parganas indicated the potential for 3% to 11% submergence of aquaculture areas in response to 1 to 2 meter rises due to sea water incursions. The inland fisheries sector in coming years will face stiff competition for water from the industrial, municipal and agricultural sectors and climate change will compound these problems. Under such a scenario implementation of integrated water resource management involving different stake holders of fresh water would be the most effective management approach.
References
Anonymous. 2004. “India's initial national communication (NATCOM) to the United Nations Framework Convention on Climate Change”. Government of India. (http://www.natcomindia.org/brochure4.pdf.)
CIFRI Annual Report. 1965–2009. “Central Inland fisheries Research Institute (CIFRI)”. Barrackpore, , Kolkata
CIFRI/NPCC Annual Report. 2008–2009. “ICAR Network Project on Impact, Adaptation and Vulnerability of Indian Agriculture to Climate Change. Indian Council of Agricultural Research”. Government of India.
Das, M. K. 2009. “Impact of recent changes in weather on Inland Fisheries in India”. In Global climate change and Indian Agriculture, Edited by: Aggarwal, P. K. 101–103. New Delhi, , India: Indian Council of Agricultural Research.
Das, M. K. and Sharma, A. P. 2010. “Add fisheries and aquaculture management to our solutions for climate change and food security. Bulletin no. 167”. Barrackpore, , Kolkata: Central Inland Fisheries Research Institute (Indian Council of Agricultural Research.
Dey, S., Srivastava, P. K., Maji, S., Das, M. K., Mukhopadhyaya, M. K. and Saha, P. K. 2007. Impact of climate change on the breeding of Indian Major Carps in West Bengal. J. Inland Fish. Soc. India, 39(1): 26–34.
Duan, X., Liu, S., Huang, M., Qui, S., Li, Z., Wang, K. and Chen, D. 2009. Changes in abundance of larvae of the four domestic Chinese carps in the middle reach of the Yangtze River, China, before and after closing of the three gorges dam. Environ. Biol. Fish, 86: 13–22.
Dutta, T., Acharya, S. and Das, M. K. 2005. Impact of water quality on the stress physiology of cultured L. rohita (Ham-Buch). J. Environ. Biol., 26(3): 585–592.
Handbook on Fishery Statistics. 2009. “Department of Fisheries, Aquaculture, Aquatic Resource and Fishing Harbours”. Kolkata, , India: Government of West Bengal.
IMD1980–2010. “Climatic Data”. Pune, , India: India Metrological Department.
Kale, V. S. 2003. Geomorphic effects of monsoon floods on Indian rivers. Nat. Hazards, 28(I): 65–84.
Mall, R. K., Gupta, A., Singh, R., Singh, R. S. and Rathore, L. S. 2006. Water resources and climate change: An Indian perspective. Current Science, 90(12): 1610–1626.
Menon, A. G.K. 1954. Fish geography of the Himalayas. Zoological Survey of India, Calcutta, 11(4): 467–493.
Milwain, G. K., Little, D. C., Kundu, N. and Immink, A J. 2002. “Overview of fish seed production and distribution in West Bengal, India”. Stirling, , U.K.: Institute of Aquaculture, University of Sterling and Kolkata, India: Institute of Wetland Management and Ecological Design (Working Paper).
Mitra, A., Halder, P. and Banerjee, K. 2011. Changes of selected hydrological parameters in Hooghly estuary in response to a severe tropical cyclone (Aila). Indian J. Geomarine Sci., 40(1): 32–36.
Mukherjee, S., Chaudhuri, A., Sen, S. and Homechaudhuri, S. 2012. Effect of Cyclone Aila on estuarine fish assemblages in the Matla River of the Indian Sundarbans. J. Trop. Ecol., 28: 405–415.
Natarajan, A. V. 1989. “Environmental impact of Ganga basin development on gene-pool and fisheries of the Ganga River system”. In Proceedings of the International large river symposium. Can. Spec. Publ. Fish. Aquat. Sci Edited by: Odge, D. P.D. 106
Unnikrishnan, A. S. and Shankar, D. 2007. Are sea-level-rise trends along the coasts of the north Indian Ocean consistent with global estimates?. Global Planet. Change, 57(3–4): 301–307.
USGS. U.S. Geological Survey. (http://dds.cr.usgs.gov/srtm/version1/Eurasia/)
Vass, K. K., Das, M. K., Srivastava, P. K. and Dey, S. 2009. Assessing the impact of climate change on inland fisheries in River Ganga and its plains in India. Aquat. Ecosyst. Health Mgmt., 12(2): 138–151.
Published
Issue
Section
License
Manuscripts must be original. They must not be published or be under consideration for publication elsewhere, in whole or in part. It is required that the lead author of accepted papers complete and sign the MSU Press AEHM Author Publishing Agreement and provide it to the publisher upon acceptance.
