Cyanobacteria Community Dynamics and Trophic Status of Intensive Shrimp (Litopenaeus vannamei) Farming Pond in Situbondo East Java Indonesia
DOI:
https://doi.org/10.11594/jtls.07.03.10Keywords:
Cyanobacteria, intensive shrimp ponds, trophic status, TDIAbstract
The objective of this study was to analyze the dynamics community structure of Cyanobacteria and trophic status in ponds of intensive shrimp culture (Litopenaeus vannamei) in Situbondo based on Trophic Diatom Index (TDI). The ex post facto research was conducted in situ in the hamlet of Pond Mutiara Mas III Klatakan Situbondo East Java Indonesia.  Observation of Cyanobacteria and Diatoms community structure were done every week during four cycles of shrimp farming ponds.  Cycle of shrimp farming ponds is the times for enlargement process of the shrimps from seed to mature which ranges from 90-120 days. The dependent variables were the density of Cyanobacteria and Diatoms community, as well as chemical parameters nitrite and orthophosphate. Trophic status was determined from TDI be counted from data of diatom density. All of the data were then classified using cluster and biplot analysis program PAST Ver. 3.11 to discribe the profile of ecosystem quality.  The research results showed that there were four taxa of Cyanobacteria during farming cycle which the highest density was found from the genus of Oscillatoria.  Based on the value of TDI, we found that the trophic status of water in shrimps pond during the production process was eutrophic until hyper-eutrophic. The water quality was decreases along with the length of incubation time.
References
Moffitt CM, Cajas-Cano L (2014) Blue growth: The 2014 FAO state of world fisheries and aquaculture. AFC Sections: Prespectives on Aquaculture 39 (11): 552–553. doi: 10.1080/03632415.2014.966265.
Ma Z, Song X, Wan R, Gao L (2013) A modified water quality index for intensive shrimp ponds of Litopenaeus vannamei. Ecological Indicators 24: 287–293. doi: 10.1016/j.ecolind.2012.06.024
Estrada-Perez A, Ruiz-Velazco JMJ, Hernandez-Llamas A et al. (2016) Deterministic and stochastic models for analysis of partial harvesting strategies and improvement of intensive commercial production of whiteleg shrimp (Litopenaeus vannamei). Aquacultural Engineering 70: 56–62. doi: 10.1016/j.aquaeng.2015.11.003.
Laboratorium Situbondo (2016) Hasil monitoring kualitas air dan plankton bulan Maret 2015 -bulan Juni 2016. Laboratorium Situbondo CJ Feed, Jombang.
Su Y, Ma S, Lei J (2011) Assessment of pollutant reducing effect by poly-culture and bioremediation in sediment of marine shrimp ponds. Procedia Environment Sciences 10 (Part B): 1559–1567. doi: 10.1016/j.proenv.2011.09.248.
Herbeck LS, Unger D, Wu Y, Jennerjahn TC (2013) Effluent, nutrient and organic matter export from shrimp and fish ponds causing eutrophication in coastal and back-reef waters of NE Hainan, tropical China. Continental Shelf Research 57: 92–104. doi: 10.1016/j.csr.2012.05.006.
O’Neil JM, Davis TW, Burford MA, Gobler CJ (2012) The rise of harmful cyanobacteria blooms: The potential roles of eutrophication and climate change. Harmful Algae 14: 313 – 334. doi: 10.1016/j.hal.2011.10.027.
Wells ML, Trainer VL, Smayda TJ et al. (2015) Harmful algal blooms and climate change: Learning from the past and present to forecast the future. Harmful Algae 49: 68 – 93. doi: 10.1016/j.hal.2015.07.009.
Environment Agency, Kelly MG (2001) The trophic diatom index: A user’s manual. Revised edition. Bristol, Environment Agency.
Zimba PV, Moeller PD, Beauchesne K et al. (2010) Identification of euglenophycin – A toxin found in certain euglenoids. Toxicon 55 (1): 100 – 104. doi: 10.1016/j.toxicon.2009.07.004.
Weirich CA, Miller TR (2014) Freshwater harmful algal blooms: Toxins and children’s health. Current Problems in Pediatric and Adolescent Health Care 44 (1): 2 – 24. doi: 10.1016/j.cppeds.2013.10.007.
Keawtawee T, Fukami K, Songsangjinda P, Muangyao P (2012) Nutrient, phytoplankton and harmful algal blooms in the shrimp culture ponds in Thailand. Kuroshio Science 5 (2): 129 – 136.
Bold HC, Wynne MJ, eds. (1985) Introduction to the algae. New Jersey, Prentice-Hall, Inc.
Edmondson WT eds. (1959) Fresh-water biology. New York, Library of Congress.
Greenberg AE, Clesceri LS, Eaton AD (1998) Standard methods for the examination of water and wastewater 20th edition. Washington D.C., American Public Health Association.
Hammer Ø, Harper DAT, Ryan PD (2001) PAST: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica 4 (1): 9pp.
Peraturan Menteri Kelautan dan Perikanan RI (2016) Permen KP Nomor 75 / Permen-KP / 2016 tentang pedoman umum pembesaran udang windu (Penaeus monodon) dan udang vaname (Litopenaeus vannamei). Jakarta, Menteri Kelautan dan Perikanan RI.
Brown S (1999) The nitrogen cycle. Washington D.C., University of Washington.
Reynolds CS (2006) The Ecology of Phytoplankton. Cambrige, Cambridge University Press.
Edhy WA, Azhary K, Pribadi J, Chaerudin M (2010) Budidaya udang putih (Litopenaeus vannamei. Boone, 1931). Jakarta, CV. Mulia Indah.
Davidson K, Gowen RJ, Harrison PJ et al. (2014) Anthropogenic nutrients and harmful algae in coastal water. Journal of Environmental Management 146: 206 – 216. doi: 10.1016/j.jenvman.2014.07.002.
Sivonen K (1990) Effect of light, temperature, nitrate, orthophosphate, and bacteria on growth of and hepatotoxin production by Oscillatoria agardhii strains. Applied and Environmental Microbiology 56 (9): 2658 – 2666.
Onyema IC (2013) Phytoplankton bio-indicators of water quality situations in the Iyagbe Lagoon, South-Western Nigeria. actaSATECH 4 (2): 93 – 107.
Issa AA, Abd-Alla MH, Ohyama T (2014) Nitrogen Fixing Cyanobacteria: Future Prospect. In: Ohyama T eds. Advances in Biology and Ecology of Nitrogen Fixation. doi: 10.5772/56995
Goebel NL, Edwards CA, Church MJ, Zehr JP (2007) Modeled contribution of three type of diazotrops to nitrogen fixation of Station ALOHA. The ISME Journal 1: 600-619. doi: doi:10.1038/ismej.2007.80.
Retnaningdyah C, Marwati U, Suharjono et al. (2009) Potensi formulasi bakteri pereduksi nitrat Waduk Sutami Malang dalam menghambat pertumbuhan Microcystis. Berkala Penelitian Hayati 14: 209 - 217.
Wu N, Schmalz B, Fohrer N (2014) Study progress in riverine phytoplankton and its use as bio-indicator – a review. Austin Journal of Hydrology 1 (1): 9.
Tharavathy NC (2014) Water quality management in shrimp culture. Acta Biologica Indica 3 (1): 536 – 540.
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