Abu Bakar, N.S.; Mohd Nasir, N.; Lananan, F.; Abdul Hamid, S.H.; Lam, S.S. and Jusoh, A., 2015. Optimization of C/N ratios for nutrient removal in aquaculture system culturing African catfish (Clarias gariepinus) utilizing bioflocs technology. International Biodeterioration and Biodegradation. Vol. 20, pp: 1-7.
APHA. 1998. Standard Methods for the Examination of the Water and Wastewater, 22nd edn. American Public Health Association, Washington, DC. USA. 874 p.
Avnimelech, Y. and Kochba, M., 2009. Evaluation of nitrogen uptake and excretion by tilapia in biofloc tanks using N-15 tracing. Aquaculture. Vol. 287, No. 1, pp: 163-168.
Avnimelech, Y., 2014. Biofloc Technology- A Practical Guidebook. 3rd Edition. World Aquaculture Society. 258 p.
Azim, M.E. and Little, D.C., 2008. The biofloc technology (BFT) in indoor tanks: Water quality, biofloc composition, and growth and welfare of Nile tilapia (Oreochromis niloticus). Aquaculture. Vol. 283, pp: 29-35.
Coutteau, P.; Brendonck, L.; Lavens, P. and Sorgeloos, P., 1992. The use of manipulated baker’s yeast as an algal substitute for the laboratory culture of Anostraca. Hydrobiologia. Vol. 234, pp: 25-32.
Crab, R.; Defoirdt, T.; Bossier, P. and Verstraete, W.,2012. Biofloc technology in aquaculture: beneficial effects and future challenges. Aquaculture.Vol. 417, pp: 351-356.
Cutts, C.J.; Sawanboonchun, J.; Mazorra de Quero, C. and Bell, J.G., 2006. Diet induced differences in the essential fatty acid (EFA) compositions of larval Atlantic cod (Gadus morhua L.) with reference to possible effects of dietary EFAs on larval performance. ICES Journal of Marine Science. Vol. 6, pp: 302-310.
Dhont, J. and Lavens, P., 1996. Tank production and use of on-grown Artemia. In Manual on the Production and Use of Live Food for Aquaculture. Edited by Lavens, P. and Sorgeloos, P., Vol. 361, FAO Fisheries Technical Paper. Rome, Italy. pp: 164-194.
Dhont, J. and Van Stappen, G., 2003. Biology, tank production and nutritional value of Artemia franciscana. Artemia. In Live Feeds in Marine Aquaculture. Edited by Stottrup, J.G. and McEvoy, L.A., 1rd Ed. Blackwell Science Ltd. pp: 65-121.
Emerenclano, M.; Gaxiola, G. and Cuzon, G., 2013. Biofloc technology (BFT): a review for aquaculture application and animal food industry. Disponível em: http://dx.doi.org/10.5772/53902.
Furtado, P.S.; Poersch L.H. and Wasielesky, Jr.W., 2011. Effect of calcium hydroxide, carbonate and sodium bicarbonate on water quality and zootechnical performance of shrimp Litopenaeus vannamei reared in biofloc technology systems. Aquaculture. Vol. 32, pp: 130-135.
Furtado, P.S.; Poersch L.H. and Wasielesky, Jr.W., 2015. The effect of different alkalinity levels on (Litopenaeus vannamei) reared with biofloc technology. Aquaculture International. Vol. 23, pp: 345-358.
Hache, R. and Plante, S., 2011. The relationship between enrichment, fatty acid profiles and bacterial load in cultured rotifers (Brachionus plicatilis L-strain) and Artemia (Artemia salina strain franciscana). Aquaculture. Vol. 311, pp: 301-308.
Hussain, A.; Mohammad, D.; Ali, E. and Sallam, W., 2015. Growth performance of the green tiger shrimp Penaeus semisulcatus raised in biofloc systems. Aquaculture and Marine Biology. Vol. 2, No. 5, pp: 10-20.
Jiao, W.; Guan-nan, M.; Yuan-Gao, D. and Li-Ying, S., 2015. Effect of glucose and salinity on Artemia growth, biofloc formation, and microbial diversity in culture. Oceanologia et Limnologia Sinica. Vol. 2, pp: 30-38.
Lavens, P. and Sorgeloos, P., 1996. Manual on the Production and Use of Live Food for Aquaculture. FAO Technical Paper. 305 p.
Martínez-Córdova, L.R.; Martínez-Porchas, M.; Porchas Cornejo, M.A.; Gollas-Galván, T.;Scheuren-Acevedo, S.; Arvayo, M.A. and López-Torres, M.A., 2016. Bacterial diversity studied by next-generation sequencing in a mature phototrophic Navicula sp. based biofilm promoted into a shrimp culture system. Aquaculture Research. Vol. 12, pp: 28-41.
Ronald, L.; Van Stappen, G.; Van Hoa, N. and Sorgeloos, P., 2014. Effect of carbon/nitrogen ratio manipulation in feed supplements on Artemia production and water quality in solar salt ponds in the Mekong Delta, Vietnam. Aquaculture Research. Vol. 45, pp: 1906-1912.
Schveitzer, R.; Arantes, R.; Costodio, P.; Santo, C.; Arana, L.; Seiffert, W. and Andreatta, E.R., 2013. Effect of different biofloc levels on microbial activity, water quality and performance of Litopenaeus vannamei in a tank system operated with no water exchange. Aquaculture Engineering. Vol.56, pp: 59-70.
Sorgeloos, P.; Lavens, P.; Léger, P.; Tackaert, W. and Versichele, D., 1986. Manual for the Culture and Use of Brine Shrimp Artemia in Aquaculture. Artemia Reference Center, State University of Ghent, Belgium. pp: 1-319.
Stirling, H.P., 1985. Chemical and biological methods of water analysis for Aquaculturists. Stirling Press, Scotland. 320 p.
Sui, L.Y.; Wang, J.; Nguyen, V.H.; Sorgeloos, P. and Bossier,P.,2013. Increased carbon & nitrogen supplementation in Artemia culture ponds results in higher cyst yields. Aquaculture International. Vol. 21, pp: 1343-1354.
Teresita, D.N.; Maldonado-Montiel, J. and Leticia, G., 2005. Biomass production and nutritional value of Artemia spp. (Anostraca: Artemiidae) in Campeche. Revista de Biología Tropical. Vol. 53, pp: 447-454.
Wei, Y.; Liao, S. and Wang, A., 2016. The effect of different carbon sources on the nutritional composition, microbial community and structure of bioflocs. Aquaculture. Vol. 1, pp: 88-93.
Zmora, O.; Avital, E. and Gordin, H., 2002. Results of an attempt for mass production of Artemia in extensive ponds. Aquaculture. Vol. 213, pp: 395-400.
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