|تعداد مشاهده مقاله||7,639,943|
|تعداد دریافت فایل اصل مقاله||5,858,513|
Effects of cage culture of rainbow trout, Oncorhynchus mykiss on phytoplankton and zooplankton communities (Case study: Golestan Reservoir 1, Gorgan, Iran)
|Caspian Journal of Environmental Sciences|
|دوره 20، شماره 1، فروردین 2022، صفحه 1-15 اصل مقاله (1.26 M)|
|نوع مقاله: Research Paper|
|شناسه دیجیتال (DOI): 10.22124/cjes.2022.5387|
|Javid Imanpour Namin* 1؛ Kam Safarbibi1؛ Hamid Allaf Noveirian1؛ Korosh Amini2|
|1Fisheries Department, Faculty of Natural Resources, University of Guilan, Sowmeh-Sara, 1144, Guilan, Iran|
|2Inland Water Aquatics Stocks Research Center, Gorgan, Iran|
|The environmental effects of fish cage culture have poorly been studied in reservoirs. Since this activity is increasingly practiced, investigations on the impacts of cage culture on physicochemical parameters and biodiversity of the reservoir is imperative. The aim of this study was to study the effects of rainbow trout cage culture on water quality, as well as plankton population structure and communities in a reservoir (Golestan Reservoir 1, Gorgan, Iran). Four sampling stations were selected in the following manner: sampling station immediately below the cages, stations some distances including 50 m, 150 m and 1000 m (control station) away from the cages. Phytoplankton, zooplankton and water samples were obtained on a monthly basis for 4 months (December, January, February and March 2016). The depths of the stations were the same. Water temperature, pH, dissolved oxygen, EC, transparency, TDS and TSS did not exhibit statistically significant differences among the stations. Significant increases were detected in the ammonium, nitrate, phosphate and chlorophyll α concentrations at the cage station (P˂0.05). Five phytoplankton phyla including Bacillariophyta, Chlorophyta, Cyanophyta, Euglenophyta and Dinophyta and also four zooplankton phyla including Protozoa, Rotatoria, Cladocera and Copepoda were identified in the reservoir. The obtained results revealed that cage culture exerts significant effect on the population and communities of planktonic organisms. Increase|
|Golestan؛ Reservoir؛ Net cages؛ Oncorhynchus mykiss؛ Phytoplankton؛ Zooplankton|
Alpaslan, A & Pulatsü, S 2008, The Effect of Rainbow Trout (Oncorhynchus mykiss Walbaum, 1792) Cage Culture on Sediment Quality in Kesikköprü Reservoir, Turkey. Turkish Journal of Fisheries and Aquatic Sciences, 8: 65-70.
Alpbaz, A 2005, Aquaculture farming. Alp Publications, 548 p.
Amarasinghe, PB, Ariyarantne, MG, Chitapalapong, T & Vijverberg, J 2008, Production, biomass and productivity of copepods and cladocerans in Tropical Asian water bodies and the carrying capacity for zooplanktivorous fish. In: F, Schiemer, D Simon, US, Marasinghe & J, Moreau (Eds.), Aquatic Ecosystems and Development: Comparative Asian Perspectives. Biology of Inland Waters Series. Backhuys Publishers, Leiden, pp. 173-194.
Anusuya, PD, Padmavathy, PA, Srinivasan, A & Jawahar, P 2015, Environmental impact of cage culture on Poondi reservoir, Tamil Nadu. Current World Environment, 10: 1048-1054.
APHA 1998, Standard methods for the examination of water and wastewater. Washington, DC: Author. Aquatic environment: a synthesis for European aquaculture. Aquaculture International, 14: 499-522.
Arcifa, MS 1984, Zooplankton composition of ten reservoirs in southern Brazil. Hydrobiologia, 113: 137-145.
Atay, D 2000, Trout and salmon production technique. Ankara University Agriculture Faculty of Aquaculture Department, Ankara, Publications No: 1516, textbook of hand: 469, 185 p.
Beveridge, M 1996, Cage aquaculture (2nd Ed.). Fishing News Book, Blackwell Science Ltd., Oxford 377 p.
Beveridge, MCM 1984. Cage and Pen Fish Farming. Carrying Capacity Models and Environmental Impact. FAO Fisheries Technical Paper, Rome, 133 p.
Beveridge, MCM 1987, Cage aquaculture aspect ecology and conservation, Leiden, The Netherland: Backhuys, publisher (pp. 247-269).
Borges, PAF, Train, S, Dias, J D & Bonecker, CC 2010, Effects of fish farming on plankton structure in a Brazilian tropical reservoir. Hydrobiologia, 649: 279-291, DOI: 10.1007/s10750-010-0271-2.
Brito, SL, Maia-Barbosa, PM & Pinto-Coelho, R M 2013, Length-weight relationships and biomass of the main microcrustacean species of two large tropical reservoirs in Brazil. Brazilian Journal of Biology, 73: 593-604.
Claps, MC, Gabellone, NA & Benítez, HH 2004, Zooplankton biomass in an eutrophic shallow lake (Buenos Aires,Argentina): spatio-temporal variations. Annales de Limnologie- International Journal of Limnology, 40: 201-210, DOI: http://dx.doi.org/10.1051/limn/2004018.
Cornel, GE & Whoriskey FG 1993, The effects of rainbow trout (Onchorynchus mykiss) cage culture on the water quality, zooplankton, benthos and sediments of Lac du Passage, Quebec. Aquaculture, 109: 101-117.
Cowx, IG, O’Grady, KT, Welcomme, RL & Bartley, DM 1998, Current approaches to the enhancement of fisheries. Fish Management Ecology, 5: 351-382.
De Silva, SS 2002, Reservoir fisheries: broad strategies for enhancing yields. In: De Silva SS (Ed) Reservoir and culture-based fisheries: biology and management. Australian Centre for International Agricultural Research, Canberra, pp. 7-16.
Degefu, F, Mengistu, S & Schager M 2011, Influence of fish cage farming on water quality and plankton in fish ponds: A case study in the Rift Valley and North Shoa reservoirs, Ethiopia. Aquaculture, 316: 129-135, DOI: 10.1016/j.aquaculture.2011.03.010.
Demir, N, Kirkagac, MU & Süleyman, Bekca, SP 2001, Influence of trout cage culture on water quality, plankton and benthose in an Anatolian dam lake. The Israeli Journal of Aquaculture – Bamidgeh, 53: 115-127.
Dumont, HJ 1977, Biotic factors in the population dynamics of rotifers. Arch Hydrobiologia. 8: 98-122.
Dumont, H, Van De Velde, I & Dumont, S 1975, The dry weight estimate of biomass in a selection of Cladocera, Copepoda and Rotifera from the plankton, periphyton and benthos of continental waters. Oecologia, 19: 75-97.
Edmondson, WT 1959, Freshwater Biology (2nd ed.). John Wiley and Sons Inc., New York, 1248 p.
Harding, JP & Smith, WA 1974, A Key to the British Freshwater Cyclopoid and Calanoid Copepods. 2nd ed. Freshwater Biological Association Scientific Publication, Cumbria, 55 p.
Huang, YCA, Huang, SC, Hsieh, HJ, Meng, PJ & Chen, CA 2012, Changes in sedimentation, sediment characteristics, and benthic macro faunal assemblages around marine cage culture under seasonal monsoon scales in a shallow-water bay in Taiwan. Jo Expt. Marine Biology and Ecology, 422-423: 55-63. DOI:10.1016/j.jembe.2012.04.008.
Islam, MS 2005, Nitrogen and phosphorus budget in coastal and marine cage aquaculture and impacts of effluent loading on ecosystem: review and analysis towards model development. Marine Pollution Bulletin, 50: 48-61, DOI: 10.1016/j.marpolbul.2004.08.008 PMID: 15664033.
Karakassıs, I, Tsapakıs, M, Hatzıyannı, E, Papadopoulou, KN & Plaıtı, W 2000, Impact of cage farming of fish on the seabed in three Mediterranean coastal areas. ICES Journal of Marine Science, 57: 1462-1471.
Lawrence, SG, Malley, DF, Findlay, WJ, Maclver, MA & Delbaere, IL 1987, Method for estimating dry weight of freshwater planktonic crustaceans from measures of length and shape. Canadian Journal of Fish Aquatic Science, 44: 264-74.
Lund, JWG, Kipling, C & Le Cren ED 1958, The inverted microscope method of estimating algal numbers and statistical basis for estimations by counting. Hydrobiologia, 11: 143-465.
Massik, Z & Costello, M J 1994, Bioavailability of phosphorus in fish farm effluents to freshwater phytoplankton. Proceedings of an International Symposium: Aquaculture and Water Resource Management (LA, Kelly, MCM Beveridge, DJ Baird and JF Muir (Eds.), 26: 607-616.
Mondal, MN, Shahin, J, Wahab, MA, Asaduzzaman, M & Yang, Y 2010, Comparison between cage and pond production of Thai Climbing Perch (Anabas testudineus) and Tilapia (Oreochromis niloticus) under three management systems. Journal of Bangladesh Agriculture University, 8: 313-322.
Neofitou, N & Klaoudatos, S 2008, Effect of fish farming on the water column nutrient concentration in a semi-enclosed gulf of the Eastern Mediterranean. Aquaculture Research, 39: 482-490.
OECD, 1982, Eutrophication of Waters: Monitoring, Assessment and Control. Organization for Economic Co-operation and Development, Paris, 293 p.
Oniye, SJ, Tanimu Y, Chia, AM & Yusuf, D 2014, Influence of Clarias gariepinus (Teugels) cage culture on water quality, phytoplankton and periphyton composition: A case study of Ahmadu Bello university reservoir, Nigeria. Tropical Freshwater Biology, 23: 21-37. DOI: http://dx.doi.org/10.4314/tfb.v23i1.2
Onyema, IC 2011, The water chemistry and periphytic algae at a cage culture site in a tropical open Lagoon in Lagos. ActaSATECH, 4: 53-63.
Özdemir, N, Demirak, A & Keskin, f 2014, Quality of water used during cage cultivation of rainbow trout (Oncorhynchus mykiss) in Bereket HES IV Dam Lake (Muğla, Turkey). Environment Monitoring Assessment, 186: 8463-8472. DOI: 10.1007/s10661-014-4030-0.
Penczak, T, Galicka, W, Molinski, M, Kusto, E & Zalewski, M 1982, The enrichment of a mesotrophic lake by carbon, phosphorus and nitrogen from the cage aquaculture of rainbow trout, Salmo gairdneri. Journal of Applied Ecology, 19: 371-93.
Petrere, M 1996, Fisheries in large tropical reservoirs in South America. Lakes Reservation Research Management, 2: 111-133.
Phillips, MC, Beveridge, MCM & Ross, LG 1985, The environmental impact of salmonid cage culture on inland fisheries: present status and future trends. Journal of Fish Biology, 27: 123- 137.
Pitta, P, Karakassis, I, Tsapakis, M & Zivanovic S 1999, Natural vs. Mariculture induce variability in nutrients and plankton in the eastern Mediterranean. Hydrobiologia, 391: 181-194.
Shannon, CE, Weaver, W 1963, The Mathematical Theory of Communication Urbana: University of Illinois Press.
Sidik, M J, Rashed-Un-Nabi, M.D & Hoque, M D A 2008, Distribution of phytoplankton community in relation to environmental parameters in cage culture area of Sepanggar Bay, Sabah, Malaysia. Estuaries Coastal Shelf Science, 80: 251- 260.
Skejic, S, Marasovic, I, Vidjak, O, Kuspilic, G, Nincevic Gladan, Z & Sestanovic, S, et al. 2011 Effects of cage fish farming on phytoplankton community structure, biomass and primary production in an aquaculture area in the middle Adriatic Sea. Aquatic Research, 42:1393-405, DOI: 10.1016/j.marpolbul.2013.07.006. ·
Stirling, HP & Dey, T 1990, Impact of intensive cage fish farming on the phytoplankton and periphyton of a Scottish freshwater loch. Hydrobiologia, 190: 193-214.
Wetzel, RG & Likens, GE 1991, Limnological Analysis (2nd Ed.) Springer Verlag, New York. 425 p.
Wu, RSS 1995, The environmental impact of marine fish culture: towards a sustainable future. Marin Pollution Bulletin, 31: 159-66.
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