THE STUDY OF VARIOUS PARAMETERS AFFECTING THE SHRIMP FARMING AND THEIR CORRELATION WITH ORGANIC LOADING AND BIOMASS PRODUCTION

Authors

  • Krunal Kahar Author

Keywords:

Ecological Pollution, Shrimp Farming, Parameters Involved In Shrimp Farming, Organic Loading, Biomass, Chlorophyll, Correlation

Abstract

This research paper provides a comprehensive analysis of the correlation between water quality parameters and shrimp farming practices performed in Navsari district, as well as their environmental impact. By synthesizing existing literature, taking samples from various sites of district and conducting correlation analysis on empirical data, the study highlights the importance of maintaining optimal water quality conditions for sustainable shrimp aquaculture. The findings contribute to a deeper understanding of the complex interactions between water quality parameters such as Nitrates, Nitrites and phosphates with environmental outcomes, and the implications for improving aquaculture management practices and promoting environmental sustainability for the given constraints of water management, geography and practices.

References

https://gaic.gujarat.gov.in/writereaddata/images/pdf/27-Shrimp-Aqua-Culture.pdf

https://agritech.tnau.ac.in/fishery/fish_cul_brackish_shrimps_feed.html

Simon J Funge-Smith, Matthew R.P Briggs,Nutrient budgets in intensive shrimp ponds: implications for sustainability, Aquaculture, Volume 164, Issues 1–4, 1998, Pages 117-133, ISSN 0044-8486, https://doi.org/10.1016/S0044-8486(98)00181-1.

Primavera 1,H. 1199 3) A critical review of shrimp pond culture in the Philippines. Reviews in Fisheries Snenir 1. 151-201.

Casillas-Hernández, R., Nolasco-Soria, H., García-Galano, T., Carrillo-Farnes, O., PáezOsuna, F., 2007. Water quality, chemical fluxes and production in semi-intensive Pacific white shrimp (Litopenaeus vannamei) culture ponds utilizing two different feeding strategies. Aquacultural Engineering 36, 105–114.

Chen, J.C., Kou, Y.Z., 1992. Effects of ammonia on growth and molting of Penaeus japonicus juveniles. Aquaculture 104, 249–260.

Chen, J.C., Lin, C.Y., 1992. Oxygen consumption and ammonia-N excretion of Penaeus chinensis juveniles exposed to ambient ammonia at different salinity levels. Comp. Biochem. Physiol. 102, 287–291.

Cheng, W., Liu, C.H., Hsu, J.P., Chen, J.C., 2002. Effect of hypoxia on the immune response of giant freshwater prawn Macrobrachium rosenbergii and its susceptibility to pathogen Enterococcus. Fish Shellfish Immunol. 13, 351–365.

Boyd, C.E., 1990. Water quality in warmwater fish ponds. Agricultural Experimentation. Auburn University, Opelika, Alabama, USA. 359p.

Gao, S., Pan, L., Huang, F., Song, M., Tian, C., & Zhang, M. (2018). Metagenomic insights into the structure and function of intestinal microbiota of the farmed Pacific white shrimp (Litopenaeus vannamei). Aquaculture. doi:10.1016/j.aquaculture.2018.09.026

Metinapituk S 2004 Oxygen Dynamics of Black Tiger Shrimp Intensive Culture Ponds (Masters thesis Kasetsart University, Bangkok, Thailand).

Anongponyoskun M, Choksuchart A, Salaenoi J, Aranyakananda P 2012 Dissolved Oxygen Budget for Pacific White Shrimp (Litopenaeus vannamei) Culture in Earthen Ponds Kasetsart J. (Nat. Sci.) 46: 751 – 758.

Prasad BSRV, Srinivasu PDN, Sarada Varma P, Raman AV, Ray S 2013 Dynamics of Dissolved Oxygen in relation to Saturation and Health of an Aquatic Body: A Case for Chilka Lagoon, India Journal of Ecosystems Volume 2014, Article ID 526245, 17 pages.

Chen J, Kou T 1998 Hemolymph acid-base balance, oxyhaemocyanin, and protein levels of Macrobrachium rosenbergii at different concentrations dissolved oxygen J Crustacean Biol. 18: 437-441

Denisse AR, Díaz F 2011 Effect of Different Oxygen Concentrations on Physiological Energetics of Blue Shrimp, Litopenaeus stylirostris (Stimpson) The Open Zoology Journal:1, 4, 1-8

Barcellos, D., Queiroz, H. M., Nóbrega, G. N., Filho, R. L. d. O., Santaella, S. T., Oteri, X. L. & Ferreira, T. O. ;Phosphorus enriched effluents increase eutrophication risks for mangrove systems in northeastern Brazil. Marine Pollution Bulletin.,142, 58–63.

Trott, L. & Alongi, D.The impact of shrimp pond effluent on water quality and phytoplankton biomass in a tropical mangrove estuary. Marine Pollution Bulletin 40, 947–951.

Jackson, C., Preston, N., Thompson, P. J. & Burford, M. Nitrogen budget and effluent nitrogen components at an intensive shrimp farm. Aquaculture 218, 397–411.

Roversi, F. Analysis of the Influence of Shrimp Farming Activity on Hydro-Morphodynamic and Water Quality Aspects of Coastal Water Bodies: A Case Study in the Guaraíras Lagoon System, RN. Thesis (Doctorate in Oceanic Engineering), COPPE, Federal University of Rio de Janeiro.

Cardoso-Mohedano, J. G., Lima-Rego, J., Sanchez-Cabeza, J. A., Ruiz-Fernández, A. C., Canales- Delgadillo, J., Sánchez.,Flores, E. I. & Páez-Osuna, F. Sub-tropical coastal lagoon salinization associated to shrimp ponds effluents. Estuarine, Coastal and Shelf Science 203, 72–79.

Páez-Osuna, F.The environmental impact of shrimp aquaculture: a global perspective. Environmental Pollution 112, 229–231.

Green, B., & Ward, G. H. (2011). Ultimate biochemical oxygen demand in semi-intensively managed shrimp pond waters. Aquaculture, 319(1-2), 253–261. doi:10.1016/j.aquaculture.2011.06.

Primavera, J. H. (2006). Overcoming the impacts of aquaculture on the coastal zone. Ocean & Coastal Management, 49(9-10), 531-545.

Shiau, S. Y., & Lin, Y. H. (2005). A review of the nutritional requirements of cultured shrimp Litopenaeus vannamei. Aquaculture, 248(1-4), 98-119.

Larkum, A. W., Douglas, S. E., & Raven, J. A. (2007). Photosynthesis in algae. Dordrecht: Springer.

Govindjee. (1995). Sixty-three years since Kautsky: Chlorophyll a fluorescence. Australian Journal of Plant Physiology, 22(2), 131-160.

Sathyendranath, S., Stuart, V., Nair, A., Oka, K., Nakane, T., Bouman, H., ... & Platt, T. (2009). Carbon-to-chlorophyll ratio and growth rate of phytoplankton in the sea. Marine Ecology Progress Series, 383, 73-84.

Mitsch, W. J., & Gosselink, J. G. (2015). Wetlands (5th ed.). Wiley.

Ekama, G. A., Marais, G. v R., Wentzel, M. C., Günthert, F. W., & Barnes, J. (2006). The activated sludge process: Part 2 - Biological nutrient removal. Water SA, 2(1), 45-53.

Le-Clech, P., Chen, V., & Fane, T. A. G. (2006). Fouling in membrane bioreactors used in wastewater treatment. Journal of Membrane Science, 284(1-2), 17-53

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Published

2024-05-14

Issue

Vol. 15 No. 3 (2024): INTERNATIONAL JOURNAL OF ADVANCED RESEARCH IN ENGINEERING AND TECHNOLOGY (IJARET)

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Articles

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Copyright (c) 2024 Krunal Kahar (Author)

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite

Krunal Kahar. (2024). THE STUDY OF VARIOUS PARAMETERS AFFECTING THE SHRIMP FARMING AND THEIR CORRELATION WITH ORGANIC LOADING AND BIOMASS PRODUCTION. INTERNATIONAL JOURNAL OF ADVANCED RESEARCH IN ENGINEERING AND TECHNOLOGY (IJARET), 15(3), 13-24. https://lib-index.com/index.php/IJARET/article/view/IJARET_15_03_002