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References
Ballester E.L.C., Abreu P.C., Cavalli R.O., Emerenciano M.,Abreu L. & Wasielesky W. (2010) E¡ect of practical diets withdi¡erentprote inlevelsontheperformanceof Farfan-tepenaeus paulensis juveniles nursed in a zero exchange suspended microbial £ocs intensive system. Aquaculture Nutrition 16,163-172.
Carbo, J., Celades, L. 2011. Ensayos preliminares de engorde de Tenca (Tinca tinca) con Tecnología de Biofloc. Consultado el 12 de febrero del
2015: http://www.recercat.cat/bitstream/handle/2072/179057/P-175-Carb%C3%B3R. pdf?sequence=36
Chamberlain, G., Avnimelech, Y., McIntosh, R.P. & Velasco, M. 2001. Advantages of aerated microbial reuse systems with balanced C:N. II: Composition and nutritional value of organic detritus, The Global Aquaculture Advocate, 11: 22-24.
Charles Olaya-Nieto,* M.Sc, Pedro Soto- Fernández, Acuicult, Javier Barrera-Chica, Acuicult. (2009). Hhabitus alimentations de la mayupa (sternopygus macrurus bloch & schneider, 1801) en el río sinú, Colombia. Recuperado el agosto de 2014, de http:// www.scielo.org.co/scielo.php?pid=S0122- 02682009000300002&script=sci_arttext
De Schryver, P, Crab, R, Defoirdt, T, Boon, N, Verstraete, W. (2008), The basics of biofloc technology: the added value of aquaculture. Aquaculture; 277: 125-137
Ekasari J., R. Crab and W. Verstraete. 2010. Primary Nutritional Content of Bio-flocs Cultured with Different Organic Carbon Sources and Salinity. HAYATI Journal of Biosciences 17(3):125-130.
Emerciano, M, Ballester, E, Cavalli, R, Wasielesky, W. (2012), Biofloc technology application as a food source in a limited water exchange nursery system for pink shrimp Farfantepenaeus brasiliensis. Aquacult. Res. (43): 447-457.
Ghanekar, A. (2009). How biofloc technology reduces feed and filtration costs in recirculated shrimp nursery systems. Aquacult Asia Pacific 5 (3): 72 –74.
Newman, S, (2011), Understanding biofloc in aquaculture production systems. Aquaculture Asia Pacific Magazine, 7 (2): 25-26.
Hargreaves, D. J. (Abril de 2013). Biofloc Production Systems for Aquaculture. Recuperado el 2 de Agosto de 2014, de https:// srac.tamu.edu/index.cfm/event/getFactSheet/ whichfactsheet/259/
Jorand, F., Zartarian, F., Thomas, F., Block, J.C., Bottero, J.Y., Villemin, G., Urbain, V., Manem, J., 1995. Chemical and structural (2d) linkage between bacteria within activated-sludge flocs. Water Res. 29 (7), 1639–1647Bardach, R; K, Lagler ;R, Miller; D, Pacino. 1990. AGT Editores S.A. 480 paginas.
Krummenauer, D., Seif ert, C.A., Poersch, L.H., Kipper Foes, G., Rodríguez De Lara, G., Wasielesky, W.(2012). Cultivo de camaroes marinhos em sistema de bioflocos:analise da reutilizacao da agua. Universidade Federal do Rio Grande. Rio Grande, Atlantica 34 (2): 103-111.
Kuznicki, L., E. Mikolajczyk, and P. L. Walne. 1990. Photobehavior of euglenoid flagellates: theoretical and evolutionary perspectives. Plant Sci. 9:343-369.
LAEVASTU T. Manual de métodos de biología pesquera. Zaragoza: Editorial Acribia; 1980.
LAGLER, K.F.; J.E. BARDACH; R.R. MILLER y D.R.M. PASSINO. 1990. Ictiología. AGT Edit. México. 489 p.
Marrero C. Métodos para cuantificar contenidos estomacales en peces. Universidad Nacional Experimental de Los Llanos Ezequiel Zamora- Unellez, Vicerrectorado de Producción Agrícola, Programa de Recursos Naturales Renovables, Museo de Zoología, Guanare; 1994.
Ray, J, Dillon, K, Lotz, J. (2011). Water quality dynamics and shrimp Litopenaeus vannamei) production in intensive mesohaline culture systems with two levels of biofloc management. Aquacult. Eng. 45: 127 -136.
Salehizadeh, H., Van Loosdrecht, M.C.M., 2004. Production of polyhydroxyalkanoates by mixed culture: recent trends and biotechnological importance. Biotechnology Advances. 22:261–279.
Shiau S.Y. 1997. Utilization of carbohydrates in warm water fish-with particular references to tilapia Oreochromis niloticus x O. aureus. Aquaculture
151: 79-96.
Carbo, J., Celades, L. 2011. Ensayos preliminares de engorde de Tenca (Tinca tinca) con Tecnología de Biofloc. Consultado el 12 de febrero del
2015: http://www.recercat.cat/bitstream/handle/2072/179057/P-175-Carb%C3%B3R. pdf?sequence=36
Chamberlain, G., Avnimelech, Y., McIntosh, R.P. & Velasco, M. 2001. Advantages of aerated microbial reuse systems with balanced C:N. II: Composition and nutritional value of organic detritus, The Global Aquaculture Advocate, 11: 22-24.
Charles Olaya-Nieto,* M.Sc, Pedro Soto- Fernández, Acuicult, Javier Barrera-Chica, Acuicult. (2009). Hhabitus alimentations de la mayupa (sternopygus macrurus bloch & schneider, 1801) en el río sinú, Colombia. Recuperado el agosto de 2014, de http:// www.scielo.org.co/scielo.php?pid=S0122- 02682009000300002&script=sci_arttext
De Schryver, P, Crab, R, Defoirdt, T, Boon, N, Verstraete, W. (2008), The basics of biofloc technology: the added value of aquaculture. Aquaculture; 277: 125-137
Ekasari J., R. Crab and W. Verstraete. 2010. Primary Nutritional Content of Bio-flocs Cultured with Different Organic Carbon Sources and Salinity. HAYATI Journal of Biosciences 17(3):125-130.
Emerciano, M, Ballester, E, Cavalli, R, Wasielesky, W. (2012), Biofloc technology application as a food source in a limited water exchange nursery system for pink shrimp Farfantepenaeus brasiliensis. Aquacult. Res. (43): 447-457.
Ghanekar, A. (2009). How biofloc technology reduces feed and filtration costs in recirculated shrimp nursery systems. Aquacult Asia Pacific 5 (3): 72 –74.
Newman, S, (2011), Understanding biofloc in aquaculture production systems. Aquaculture Asia Pacific Magazine, 7 (2): 25-26.
Hargreaves, D. J. (Abril de 2013). Biofloc Production Systems for Aquaculture. Recuperado el 2 de Agosto de 2014, de https:// srac.tamu.edu/index.cfm/event/getFactSheet/ whichfactsheet/259/
Jorand, F., Zartarian, F., Thomas, F., Block, J.C., Bottero, J.Y., Villemin, G., Urbain, V., Manem, J., 1995. Chemical and structural (2d) linkage between bacteria within activated-sludge flocs. Water Res. 29 (7), 1639–1647Bardach, R; K, Lagler ;R, Miller; D, Pacino. 1990. AGT Editores S.A. 480 paginas.
Krummenauer, D., Seif ert, C.A., Poersch, L.H., Kipper Foes, G., Rodríguez De Lara, G., Wasielesky, W.(2012). Cultivo de camaroes marinhos em sistema de bioflocos:analise da reutilizacao da agua. Universidade Federal do Rio Grande. Rio Grande, Atlantica 34 (2): 103-111.
Kuznicki, L., E. Mikolajczyk, and P. L. Walne. 1990. Photobehavior of euglenoid flagellates: theoretical and evolutionary perspectives. Plant Sci. 9:343-369.
LAEVASTU T. Manual de métodos de biología pesquera. Zaragoza: Editorial Acribia; 1980.
LAGLER, K.F.; J.E. BARDACH; R.R. MILLER y D.R.M. PASSINO. 1990. Ictiología. AGT Edit. México. 489 p.
Marrero C. Métodos para cuantificar contenidos estomacales en peces. Universidad Nacional Experimental de Los Llanos Ezequiel Zamora- Unellez, Vicerrectorado de Producción Agrícola, Programa de Recursos Naturales Renovables, Museo de Zoología, Guanare; 1994.
Ray, J, Dillon, K, Lotz, J. (2011). Water quality dynamics and shrimp Litopenaeus vannamei) production in intensive mesohaline culture systems with two levels of biofloc management. Aquacult. Eng. 45: 127 -136.
Salehizadeh, H., Van Loosdrecht, M.C.M., 2004. Production of polyhydroxyalkanoates by mixed culture: recent trends and biotechnological importance. Biotechnology Advances. 22:261–279.
Shiau S.Y. 1997. Utilization of carbohydrates in warm water fish-with particular references to tilapia Oreochromis niloticus x O. aureus. Aquaculture
151: 79-96.
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Published
2015-06-01
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Ciencias de la Vida
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