Water and sediment quality characteristics of medium saline traditional shrimp culture system (bheri)

  • Leesa Priyadarsani Department of Aquatic Animal Health, Faculty of Fishery Sciences, West Bengal University of Animal and Fishery Sciences, Kolkata-700094, West Bengal, India
  • Thangapalam Jawahar Abraham Department of Aquatic Animal Health, Faculty of Fishery Sciences, West Bengal University of Animal and Fishery Sciences, Kolkata-700094, West Bengal, India https://orcid.org/0000-0003-0581-1307
Keywords: Bheri, Penaeus monodon, water quality, sediment quality, physico-chemical parameters

Abstract

Quality of water in shrimp culture ponds depends on several physical, chemical and biological processes. In this study, the physico-chemical characteristics of water and sediment samples from inlet, pond and outlet of a traditional shrimp culture pond, locally called as bheri, were examined for nine months from March to November 2011. Majority of the physicochemical parameters of bheri were well within the optimum levels. The average BOD values in pond water and outlet water were 2.03 ppm and 2.33 ppm, respectively. In pond water, the levels of ammonia were from 0.012 to 0.033 ppm, which was well within the safe level (<0.1 ppm). The present study recorded low levels of nitrite (0.0037 to 0.0043 ppm) and nitrate (0.056 - 0.091 ppm) in pond water, which was within the safe levels recommended for shrimp farming. These physicochemical parameters did not affect the cultured shrimp as there was no incidence of diseases or growth retardation during the culture period. The effluent water characteristics also did not vary much and well within the recommended levels for protecting the coastal ecosystem. It is unlikely that the traditional shrimp culture pose any adverse environmental effect when effluents are discharged into the open coastal ecosystem.

References

Alauddin M and Hamid MA (1999) Coastal aquaculture in South Asia: experiences and lesions. In: Alauddin M and Hasan S (Eds). Development, Governance and Environment in South Asia: A focus on Bangladesh. MacMillan Press, New York.

Ameeri AAA and Cruz EM (1992) Effect of sand substrate on growth and survival of Penaeus semisulcatus (de Haan) juveniles. Journal of Aquaculture in the Tropics 13: 239-244.

Anon (1997) Assessment of Ground Realities Regarding the Impact of Shrimp Farming Activities on Environment in Coastal Areas of Andhra Pradesh and Tamil Nadu: Final Report. Central Institute of Fisheries Education, Mumbai and Central Institute of Brackishwater Aquaculture, Chennai.

APHA/AWWA/WEF (American Public Health Association, American Water Works Association and Water Environment Federation) (2005) Standard Methods for the Examination of Water and Waste Water (20th edition). Washington, USA.

Avnimelech Y and Zohar G (1986) The effect of local anaerobic conditions on growth retardation in aquaculture systems. Aquaculture 58: 167–174.

Baliao D (2000) Environment Friendly Schemes in Intensive Shrimp Farming. SEAFDEC AQD. ISBN 971-8511-46-6.

Banerjea SM (1967) Water quality and soil condition of fish ponds in some states of India in relation to fish production. Indian Journal of Fisheries 14: 115-144.

Banerjee AC and Roychoudhury A (1996) Observations on some physico-chemical features of the Chilka lake. Indian Journal of Fisheries 13: 395-429.

Biao X, Tingyou L, Xipei W and Yi Q (2009) Variation in the water quality of organic and conventional shrimp ponds in a coastal environment from eastern China. Bulgarian Journal of Agricultural Science 15: 47-59.

Boyd CE (1989) Water Quality Management and Aeration in Shrimp Farming. Fisheries and Allied Aquaculture Departmental Series No. 2, Alabama Agricultural Experiment Station, Auburn University, Alabama, 120 pp.

Boyd CE (1995) Bottom Soils, Sediment and Pond Aquaculture. Chapman and Hall, New York.

Boyd CE and Clay JW (1998) Shrimp aquaculture and the environment. Scientific American 278: 42-49.

Boyd CE and Green BW (2002) Coastal water quality monitoring in shrimp farming areas, an example from Honduras. Consortium Program on Shrimp Farming and the Environment. Word Bank, NACA, WWF, FAO.

Briggs MRP and Funge-Smith SJ (1994) A nutrient budget of some intensive marine shrimp ponds in Thailand. Aquaculture and Fisheries Management 25: 789-811.

Chakraborti RI, Ravichandran P, Halder DO, Mondal SK and Sanlui D (1985) Some physicochemical characteristics of Kakdwip brackishwater ponds and their influence on survival, growth and production of Penaeus monodon (Fabricus). Indian Journal of Fisheries 22: 224-235.

Chattopadhyay GN and Mandal LN (1986) Distribution of nitrogen in brackishwater fish pond soils of West Bengal. Indian Journal of Fisheries 27: 140-144.

Chen HC (1985) Water quality criteria for farming the grass shrimp, Penaeus monodon. In: Proceedings of the First International Conference on Culture of Penaeid Prawns/ Shrimps. Taki Y, Primavera JH and Llobrera JA (Eds.), Aquaculture Department, Southeast Asian Fisheries Development Centre, Iloilo City, Philippines, 165 pp.

Chien YH (1992) Water quality requirements and managements for marine shrimp culture. In: Proceedings of the Special Session in Shrimp Farming. Wyban J (Ed.), World Aquaculture Society, Baton Rouge, LA USA. pp. 30-42.

Chin TS and Chen JC (1987) Acute toxicity of ammonia to larvae of the tiger prawn Penaeus monodon. Aquaculture 66: 247-253.

Chiu YN (1988) Water quality management for intensive prawn ponds. In: Chiu YN, Santos LM and Juliano RO (Eds.) Technical Considerations for the Management and Operation of Intensive Prawn Farms. VP Aquaculture Society, Iloilo city, Philippines, pp. 102-128.

Das B, Khan YS and Das P (2004) Environmental impact of aquaculture-sedimentation and nutrient loadings from shrimp culture of the southeast coastal region of the Bay of Bengal. Journal of Environmental Sciences (China) 16: 466-470.

Das SK and Saksena DN (2001) Farm management and water quality in relation to growth of Penaeus monodon in modified extensive shrimp culture system. Journal of the Inland Fisheries Society of India 33: 55-61.

Das SK, Sahoo JK and Saksena DN (2001) Sediment characteristics and benthic biomass in relation to growth of Penaeus monodon Fabricius in low saline confined pond. Indian Journal of Fisheries 48: 55-61.

FAO (2013) Report of the FAO/MARD Technical Workshop on Early Mortality Syndrome (EMS) or Acute Hepatopancreatic Necrosis Syndrome (AHPNS) of Cultured Shrimp (under TCP/VIE/3304). Hanoi, Viet Nam, on 25–27 June 2013. FAO Fisheries and Aquaculture Report No. 1053. Rome, 54 pp.

Flegel TW (2009) Current status of viral diseases in Asian shrimp aquaculture. The Israeli Journal of Aquaculture - Bamidgeh 61(3): 229-239.

Hussenot J and Martin JLM (1995) Assessment of the quality of pond sediment in aquaculture using simple, rapid techniques. Aquaculture International 3: 123-133.

Islam ML, Alam MJ, Rehman S and Ahmed SU (2004) Water quality, nutrient dynamics and sediment profile in shrimp farms of the Sundarbans mangrove forest, Bangladesh. Indian Journal of Marine Science 33: 170-176.

Jhingran VG Natarajan AV Banerjea SM and David A (1969) Methodology on reservoir fisheries investigations in India. Bulletin of the Central Inland Fisheries Research Institute, Barrackpore 12: 1-109.

Karthikeyan J and Srimurali M (1995) Environmental impact analysis statement and environmental management plan report of a proposed aqua farm at Nellore in Andhra Pradesh. Indian Journal of Environmental Health 37: 251-264.

Khodami S, Attaran-Fariman G, Ghasemzadeh J and Mortazavi MS (2011) Comparison of different nitrogen compounds in three different environments of the Gwatar shrimp farms complex in the Gwatar Gulf region (Baluchestan-Iran). Iranian Journal of Fisheries Science 10: 663-677.

Krishnani KK, Gupta BP, Muralidhar M, Saraswathy R, Pillai SM, Ponnusamy K and Nagavel A (2011) Soil and water characteristics of traditional paddy and shrimp fields of Kerala. Indian Journal of Fisheries 58: 71-77.

Kuhn DD, Smith SA and Flick Jr GJ (2011) High nitrate levels toxic to shrimp. Global Aquaculture Advocate Nov/Dec 2011: 36-37.

Law AT (1988) Water quality requirements for Penaeus monodon culture. In: Proceedings of the Seminar on Prawn Farming in Malaysia, Malaysian Fisheries Society, Serdang, Malaysia. pp. 53-65.

Limsuwan C (1994) Shrimp disease and health management. In: Subasinghe RP and Shariff M (Eds.) Diseases in Aquaculture: The Current Issues. Pub-8, Malaysian Fish. Soc., Kuala Lumpur, Malaysia, pp. 71-96.

López-Téllez NA, Vidal-Martínez VM and Overstreet RM (2009) Seasonal variation of ectosymbiotic ciliates on farmed and wild shrimp from coastal Yucatan, Mexico. Aquaculture 287: 271–277.

Moore JW (1991) Inorganic Contaminants of Surface Water: Research and Monitoring Priorities. Springer-Verlag, New York.

Pillai NGK and Kathia PK (2004) Evolution of Fisheries and Aquaculture in India. Central Marine Fisheries Research Institute, Kochi, India. 240 pp.

Sharmila R, Abraham TJ and Sundararaj V (1996) Bacterial flora of semi-intensive pond-reared Penaeus indicus (H. Milne Edwards) and the environment. Journal of Aquaculture in the Tropics 11: 193-203.

Smith CE and Russo RC (1975) Nitrite induced methaemoglobinemia in rainbow trout. Progressive Fish Culturist 37: 150-152.

Published
2016-02-24
How to Cite
Priyadarsani, L., & Abraham, T. J. (2016). Water and sediment quality characteristics of medium saline traditional shrimp culture system (bheri). Journal of Fisheries, 4(1), 309-318. https://doi.org/10.17017/j.fish.108